成型工艺流程及条件介绍中英文对照

材料成型工艺基础部分(中英文词汇对照)材料成型工艺基础部分0 绪论金属材料：metal material (MR)高分子材料：high-molecular material陶瓷材料：ceramic material复合材料：composition material成形工艺：formation technology1 铸造铸造工艺：casting technique铸件：foundry goods （casting）机器零件：machine part毛坯：blank力学性能：mechanical property砂型铸造：sand casting process型砂：foundry sand1.1 铸件成形理论基础合金：alloy铸造性能：casting property工艺性能：processing property收缩性：constringency偏析性：aliquation氧化性：oxidizability吸气性：inspiratory铸件结构：casting structure使用性能：service performance浇不足：misrun冷隔：cold shut夹渣：cinder inclusion粘砂：sand fusion缺陷：flaw, defect, falling流动性：flowing power铸型：cast (foundry mold)蓄热系数：thermal storage capacity 浇注：pouring凝固：freezing收缩性：constringency逐层凝固：layer-by-layer freezing 糊状凝固：mushy freezing结晶：crystal缩孔：shrinkage void缩松：shrinkage porosity顺序凝固：progressive solidification 冷铁：iron chill补缩：feeding等温线法：constant temperature line method 内接圆法：inscribed circle method铸造应力：casting stress变形：deforming裂纹：crack机械应力：mechanical stress热应力：heat stress相变应力：transformation stress气孔：blow hole铸铁：ingot铸钢：cast steel非铁合金：nonferrous alloy灰铸铁：gray cast-iorn孕育处理：inoculation球墨铸铁：spheroidal球化处理：sheroidisation可锻铸铁：ductile cast iron石墨：graphite蠕墨铸铁：vermicular cast iron热处理：heat processing铝合金：Al-alloy熔炼：fusion metallurgy铜合金：copper alloy氢脆：hydrogen brittleness1.2 铸造方法（casting method）手工造型：hand moulding机器造型：machine moulding金属型：metal mold casting金属模：permanent mould压力铸造：press casting熔模铸造：investment moulding蜡膜：cere离心铸造：centrifugal casting低压铸造：casting under low pressure 差压铸造：counter-pressure casting 陶瓷型铸造：shaw process1.3 铸造工艺设计浇注位置：pouring position分型面：mould joint活块：loose piece起模：patter drawing型芯：core型芯撑：chaplet工艺参数：processing parameter下芯：core setting合型：mould assembly冒口：casting head尺寸公差：dimensional tolerance尺寸公差带：tolerance zone机械加工余量：machining allowance 铸孔：core hole非标准：nonstandard label收缩率：rate of contraction线收缩：linear contraction体收缩：volume contraction起模斜度：pattern draft铸造圆角：curving of castings芯头：core register芯头间隙：clearance芯座：core print seat分型线：joint line分模线：die parting line1.4 铸造结构工艺性加强筋：rib reinforcement撒砂：stuccoing内腔：entocoele2 金属塑性加工塑性加工：plastic working塑性：plastic property锻造：forge work冲压：punching轧制：rolling拉拔：drawing挤压：extruding细化晶粒：grain refinement热锻：hit-forging温锻：warm forging2.1 金属塑性加工理论基础塑性变形：plastic yield加工硬化：work-hardening韧性：ductility回复温度：return temperature 再结晶：recrystallize再结晶退火：full annealing冷变形：cold deformation热变性：heat denaturation锻造比：forging ratio镦粗：upset拔长：pull out纤维组织：fibrous tissue锻造性能：forging property可锻性：forgeability变形抗力：resistance of deformation化学成分：chemical constitution热脆性：hot brittleness冷脆性：cold-shortness变形速度：deformation velocity应力状态：stress condition变形温度：deformation temperature过热：overheating过烧：burning脱碳：carbon elimination始锻温度：initiation forging temperature 终锻温度：final forging temperature2.2 金属塑性加工方法自由锻：flat-die hammer冲孔：jetting弯曲：bend弯曲半径：bending radius切割：cut扭转：twist rotation错移：offsetting锻接：percussion基本工序：basic process辅助工序：auxiliary process精整工序：finishing process模锻：contour forging锻模：forging die胎膜锻：fetal membrane forging剪床：shearing machine冲床：backing-out punch冲裁：blanking弹性变形：elastic distortion塑性变形：plastic yield剪切变形：shearing deformation最小弯曲半径：minimum bending radius 曲率：angularity弯裂：rupture回弹：rebound辊轧：roll forming辊锻：roll forging斜轧：oblique rolling横轧：transverse rolling辗压：tamping drum挤压：extruding拉拔：draft2.3 塑性加工工艺设计工艺规程：process specification锻件图：forging drawing敷料：dressing锻件余量：forging allowance锻件公差：forging tolerance工夹具：clamping apparatus加热设备：firing equipment加热规范：heating schedule冷却规范：cooling schedule后续处理：after treatment分模面：die parting face冲孔连皮：punching the wad模锻斜度：draft angle圆角半径：radius of corner圆饼类锻件：circumcresent cake-like forging 长轴类锻件：long axis-like forging2.4 锻件结构工艺性锥体：cone斜面：cant空间曲线：curve in space粗糙度：degree of roughness2.5 冲压件结构工艺性3 焊接焊接：welding铆接：riverting熔焊：fusion welding压焊：press welding钎焊：braze welding3.1 焊接理论基础冶金：metallurgy电弧焊：arc welding气焊：acetylene welding电渣焊：electro-slag welding高能束焊：high energy welding 电子焊：electronic welding激光焊：laser welding等离子焊：plasma welding电弧：electric arc阳极区：anode region阴极区：negative polarity弧柱区：arc stream正接法：electrode negative method反接法：opposition method脱氧剂：deoxidizing agent焊缝：welded seam焊缝区：weld zone熔合区：fusion area热影响区：heat-affected zone脆性断裂：brittle fracture过热区：overheated zone正火区：normalized zone相变区：phase change zone焊接应力：welding stress收缩变形：contraction distortion角变形：angular deformation弯曲变形：bend deformation扭曲变形：warping deformation波浪变形：wave transformation反变形法：reversible deformation method 刚性固定法：rigid fixing method预热：warming-up缓冷：slow cool焊后热处理：postweld heat treatment矫形处理：shape-righting3.2 焊接方法埋弧焊：hidden arc welding气体保护焊：gas shielded arc welding氩弧焊：argon welding熔化极氩弧焊：consumable electrode argon welding 钨极氩弧焊：argon tungsten-arc welding二氧化碳气体保护焊：CO2 gas shielded arc welding 碳弧焊：carbon arc welding碳弧气刨：carbon arc air gouging电渣焊：electro-slag welding高能焊：high grade energy welding等离子弧切割：plasma arc cutting (PAC)堆焊：bead weld电阻焊：resistance welding电焊：electric welding缝焊：seam welding压焊：press welding多点凸焊：multiple projection welding对焊：welding neck摩擦焊：friction welding扩散焊：diffusion welding硬钎料：brazing alloy软钎料：soft solder3.3 常用金属材料的焊接焊接性：weldability焊接方法：welding method 焊接材料：welding material 焊条：electrode焊剂：flux material碳素钢：carbon steel低碳钢：low carbon steel中碳钢：medium carbon steel 高碳钢：high carbon steel低合金钢：lean alloy steel不锈钢：non-corrosive steel 有色金属：nonferrous metal 3.4 焊接工艺设计型材：sectional bar药皮：coating焊丝：soldering wire连续焊缝：continuous weld断续焊缝：intermittent weld应力集中：stress concentration焊接接头：soldered joint坡口：groove对接：abutting joint搭接：lap joint角接：corner joint4 粉末冶金（power metallurgy）粉末冶金成品：finished power metallurgical product 铁氧体：ferrite硬质合金：sintered-carbide高熔点金属：high-melting metal陶瓷：ceramic4.1 粉末冶金工艺理论基础压坯：pressed compact扩散：diffusion烧结：agglomeration固溶：solid solubility化合：combination4.2 粉末冶金的工艺流程制备：preparation预处理：anticipation还原法：reduction method电解法：electrolytic method雾化法：atomization粒度：grain size松装密度：loose density流动性：flowing power压缩性：compressibility筛分：screen separation混合：compounding制粒：pelletization过烧：superburning欠烧：underburnt5 金属复合成型技术自蔓延焊接：SHS welding热等静压：HIP准热等静压：PHIP5.1 液态成型技术与固态成型技术的复合高压铸造：high-pressure casting电磁泵：magnetic-pump压射成型：injection molding柱塞：plunger piston冲头：drift pin凝固法：freezing method挤压法：extrusion method转向节：knuckle pivot制动器：arresting gear5.2 金属半凝固、半熔融成型技术凝固：freezing半熔融：semi-vitreous触变铸造：thixotropy casting触变锻造：thixotropy forging注射成型：injection molding5.3 其他金属成型新技术快速凝固：flash set非晶态：amorphous溢流法：press over system喷射沉积：ejecting deposit爆炸复合法：explosion cladding method 扩散焊接：diffusion welding挤压：extruding轧制：roll down6 非金属材料成型技术6.1 高分子材料成型技术高分子材料：non-metal material耐腐蚀：resistant material绝缘：insulation老化：ageing耐热性：heat-durability粘弹性：viscoelasticity塑料：plastic material橡胶：rubber合成纤维：synthetic fibre涂料：covering material粘结剂：agglomerant粘度：viscosity热塑性塑料：thermoplastic plastics 热固性塑料：thermosetting plastic 通用塑料：general-purpose plastics 工程塑料：engineering plastic薄膜：thin film增强塑料：reinforced plastics浇注塑料：pouring plastics注射塑料：injiection plastics挤出塑料：extrusion plastics吹塑塑料：blowing plastics模压塑料：die pressing plastics聚合物：ploymer semiconductor吸湿性：hygroscopic cargo定向作用：directional action生胶：green glue stock填料：carrier丁苯橡胶：SBR顺丁橡胶：BR氯丁橡胶：CR丁腈橡胶：NBR硅橡胶：Q聚氨酯橡胶：U压延：calender硫化：sulfuration胶粘剂：adhesive胶接：glue joint刹车片：brake block零件修复：parts renewal蜂窝夹层：honeycomb core material 6.2 工业陶瓷制品的成型技术干燥：drying坯料：blank润滑剂：anti-friction结合剂：binder热压铸：hot injiection moulding 6.3 非金属材料成型技术的新进展热压烧结：hot pressed sintering7 复合材料的成型技术复合材料：composite material树脂：resin7.1 金属复合材料的成型技术硼纤维：boron fiber钛合金：titanium alloy碳纤维：carbon filter等离子喷涂：plasma spraying浸渍法：immersion method锭坯：ingot blank7.2 聚合物基复合材料的成型技术晶须：whisker缠绕成形：enwind forming湿法缠绕：wet method enwind 7.3 陶瓷复合材料成型技术料浆：slurry溶胶-凝胶法：sol-gel method化学气相沉积：chemical vapor deposition (CVD) 原位：in situ8 材料成型方法的选择粉末冶金：powder metallurgy工程塑料：engineering plastics工程陶瓷：engineering ceramics。

0 绪论金属材料：metal material (MR)高分子材料：high-molecular material 陶瓷材料：ceramic material复合材料：composition material成形工艺：formation technology1 铸造铸造工艺：casting technique铸件：foundry goods （casting）机器零件：machine part毛坯：blank力学性能：mechanical property砂型铸造：sand casting process型砂：foundry sand铸件成形理论基础合金：alloy铸造性能：casting property工艺性能：processing property收缩性：constringency偏析性：aliquation氧化性：oxidizability吸气性：inspiratory铸件结构：casting structure使用性能：service performance浇不足：misrun冷隔：cold shut夹渣：cinder inclusion粘砂：sand fusion缺陷：flaw, defect, falling流动性：flowing power铸型：cast (foundry mold)蓄热系数：thermal storage capacity浇注：pouring凝固：freezing收缩性：constringency逐层凝固：layer-by-layer freezing糊状凝固：mushy freezing结晶：crystal缩孔：shrinkage void缩松：shrinkage porosity顺序凝固：progressive solidification冷铁：iron chill补缩：feeding等温线法：constant temperature line method内接圆法：inscribed circle method 铸造应力：casting stress变形：deforming裂纹：crack机械应力：mechanical stress热应力：heat stress相变应力：transformation stress 气孔：blow hole铸铁：ingot铸钢：cast steel非铁合金：nonferrous alloy灰铸铁：gray cast-iorn孕育处理：inoculation球墨铸铁：spheroidal球化处理：sheroidisation可锻铸铁：ductile cast iron石墨：graphite蠕墨铸铁：vermicular cast iron热处理：heat processing铝合金：Al-alloy熔炼：fusion metallurgy铜合金：copper alloy氢脆：hydrogen brittleness铸造方法（casting method）手工造型：hand moulding机器造型：machine moulding金属型：metal mold casting金属模：permanent mould压力铸造：press casting熔模铸造：investment moulding蜡膜：cere离心铸造：centrifugal casting低压铸造：casting under low pressure 差压铸造：counter-pressure casting 陶瓷型铸造：shaw process铸造工艺设计浇注位置：pouring position分型面：mould joint活块：loose piece起模：patter drawing型芯：core型芯撑：chaplet工艺参数：processing parameter下芯：core setting合型：mould assembly冒口：casting head尺寸公差：dimensional tolerance 尺寸公差带：tolerance zone机械加工余量：machining allowance 铸孔：core hole非标准：nonstandard label收缩率：rate of contraction线收缩：linear contraction体收缩：volume contraction起模斜度：pattern draft铸造圆角：curving of castings芯头：core register芯头间隙：clearance芯座：core print seat分型线：joint line分模线：die parting line铸造结构工艺性加强筋：rib reinforcement撒砂：stuccoing内腔：entocoele2 金属塑性加工塑性加工：plastic working塑性：plastic property锻造：forge work冲压：punching轧制：rolling拉拔：drawing挤压：extruding细化晶粒：grain refinement 热锻：hit-forging温锻：warm forging金属塑性加工理论基础塑性变形：plastic yield加工硬化：work-hardening韧性：ductility回复温度：return temperature 再结晶：recrystallize再结晶退火：full annealing 冷变形：cold deformation热变性：heat denaturation锻造比：forging ratio镦粗：upset拔长：pull out纤维组织：fibrous tissue锻造性能：forging property可锻性：forgeability变形抗力：resistance of deformation化学成分：chemical constitution热脆性：hot brittleness冷脆性：cold-shortness变形速度：deformation velocity应力状态：stress condition变形温度：deformation temperature过热：overheating过烧：burning脱碳：carbon elimination始锻温度：initiation forging temperature 终锻温度：final forging temperature金属塑性加工方法自由锻：flat-die hammer冲孔：jetting弯曲：bend弯曲半径：bending radius切割：cut扭转：twist rotation错移：offsetting锻接：percussion基本工序：basic process辅助工序：auxiliary process精整工序：finishing process模锻：contour forging锻模：forging die胎膜锻：fetal membrane forging剪床：shearing machine冲床：backing-out punch冲裁：blanking弹性变形：elastic distortion塑性变形：plastic yield剪切变形：shearing deformation最小弯曲半径：minimum bending radius 曲率：angularity弯裂：rupture回弹：rebound辊轧：roll forming辊锻：roll forging斜轧：oblique rolling横轧：transverse rolling辗压：tamping drum挤压：extruding拉拔：draft塑性加工工艺设计工艺规程：process specification锻件图：forging drawing敷料：dressing锻件余量：forging allowance锻件公差：forging tolerance工夹具：clamping apparatus加热设备：firing equipment加热规范：heating schedule冷却规范：cooling schedule后续处理：after treatment分模面：die parting face冲孔连皮：punching the wad模锻斜度：draft angle圆角半径：radius of corner圆饼类锻件：circumcresent cake-like forging 长轴类锻件：long axis-like forging锻件结构工艺性锥体：cone斜面：cant空间曲线：curve in space粗糙度：degree of roughness 冲压件结构工艺性3 焊接焊接：welding铆接：riverting熔焊：fusion welding压焊：press welding钎焊：braze welding焊接理论基础冶金：metallurgy电弧焊：arc welding气焊：acetylene welding电渣焊：electro-slag welding 高能束焊：high energy welding 电子焊：electronic welding激光焊：laser welding等离子焊：plasma welding电弧：electric arc阳极区：anode region阴极区：negative polarity弧柱区：arc stream正接法：electrode negative method反接法：opposition method脱氧剂：deoxidizing agent焊缝：welded seam焊缝区：weld zone熔合区：fusion area热影响区：heat-affected zone脆性断裂：brittle fracture过热区：overheated zone正火区：normalized zone相变区：phase change zone焊接应力：welding stress收缩变形：contraction distortion角变形：angular deformation弯曲变形：bend deformation扭曲变形：warping deformation波浪变形：wave transformation反变形法：reversible deformation method 刚性固定法：rigid fixing method预热：warming-up缓冷：slow cool焊后热处理：postweld heat treatment矫形处理：shape-righting焊接方法埋弧焊：hidden arc welding气体保护焊：gas shielded arc welding氩弧焊：argon welding熔化极氩弧焊：consumable electrode argon welding 钨极氩弧焊：argon tungsten-arc welding二氧化碳气体保护焊：CO2 gas shielded arc welding 碳弧焊：carbon arc welding碳弧气刨：carbon arc air gouging电渣焊：electro-slag welding高能焊：high grade energy welding等离子弧切割：plasma arc cutting (PAC)堆焊：bead weld电阻焊：resistance welding电焊：electric welding缝焊：seam welding压焊：press welding多点凸焊：multiple projection welding对焊：welding neck摩擦焊：friction welding扩散焊：diffusion welding 硬钎料：brazing alloy软钎料：soft solder常用金属材料的焊接焊接性：weldability焊接方法：welding method焊接材料：welding material 焊条：electrode焊剂：flux material碳素钢：carbon steel低碳钢：low carbon steel中碳钢：medium carbon steel 高碳钢：high carbon steel 低合金钢：lean alloy steel 不锈钢：non-corrosive steel 有色金属：nonferrous metal 焊接工艺设计型材：sectional bar药皮：coating焊丝：soldering wire连续焊缝：continuous weld 断续焊缝：intermittent weld应力集中：stress concentration焊接接头：soldered joint坡口：groove对接：abutting joint搭接：lap joint角接：corner joint4 粉末冶金（power metallurgy）粉末冶金成品：finished power metallurgical product 铁氧体：ferrite硬质合金：sintered-carbide高熔点金属：high-melting metal陶瓷：ceramic粉末冶金工艺理论基础压坯：pressed compact扩散：diffusion烧结：agglomeration固溶： solid solubility化合：combination粉末冶金的工艺流程制备：preparation预处理：anticipation还原法：reduction method电解法：electrolytic method雾化法：atomization粒度：grain size松装密度：loose density流动性：flowing power压缩性：compressibility筛分：screen separation混合：compounding制粒：pelletization过烧：superburning欠烧：underburnt5 金属复合成型技术自蔓延焊接：SHS welding热等静压：HIP准热等静压：PHIP液态成型技术与固态成型技术的复合高压铸造：high-pressure casting 电磁泵：magnetic-pump压射成型：injection molding柱塞：plunger piston冲头：drift pin凝固法：freezing method挤压法：extrusion method转向节：knuckle pivot制动器：arresting gear金属半凝固、半熔融成型技术凝固：freezing半熔融：semi-vitreous触变铸造：thixotropy casting触变锻造：thixotropy forging注射成型：injection molding其他金属成型新技术快速凝固：flash set非晶态：amorphous溢流法：press over system喷射沉积：ejecting deposit爆炸复合法：explosion cladding method 扩散焊接：diffusion welding挤压：extruding轧制：roll down6 非金属材料成型技术高分子材料成型技术高分子材料：non-metal material耐腐蚀：resistant material绝缘：insulation老化：ageing耐热性：heat-durability粘弹性：viscoelasticity塑料：plastic material橡胶：rubber合成纤维：synthetic fibre涂料：covering material粘结剂：agglomerant粘度：viscosity热塑性塑料：thermoplastic plastics 热固性塑料：thermosetting plastic 通用塑料：general-purpose plastics 工程塑料：engineering plastic薄膜：thin film增强塑料：reinforced plastics浇注塑料：pouring plastics注射塑料：injiection plastics挤出塑料：extrusion plastics吹塑塑料：blowing plastics模压塑料：die pressing plastics 聚合物：ploymer semiconductor吸湿性：hygroscopic cargo定向作用：directional action生胶：green glue stock填料：carrier丁苯橡胶：SBR顺丁橡胶：BR氯丁橡胶：CR丁腈橡胶：NBR硅橡胶：Q聚氨酯橡胶：U压延：calender硫化：sulfuration胶粘剂：adhesive胶接：glue joint刹车片：brake block零件修复：parts renewal蜂窝夹层：honeycomb core material 工业陶瓷制品的成型技术干燥：drying坯料：blank润滑剂：anti-friction结合剂：binder热压铸：hot injiection moulding 非金属材料成型技术的新进展热压烧结：hot pressed sintering7 复合材料的成型技术复合材料：composite material树脂：resin金属复合材料的成型技术硼纤维：boron fiber钛合金：titanium alloy碳纤维：carbon filter等离子喷涂：plasma spraying浸渍法：immersion method锭坯：ingot blank聚合物基复合材料的成型技术晶须：whisker缠绕成形：enwind forming湿法缠绕：wet method enwind陶瓷复合材料成型技术料浆：slurry溶胶-凝胶法：sol-gel method化学气相沉积： chemical vapor deposition (CVD)原位：in situ8 材料成型方法的选择粉末冶金：powder metallurgy工程塑料：engineering plastics工程陶瓷：engineering ceramics。

材料成型工艺基础部分0 绪论金属材料：metal material (MR)高分子材料：high-molecular material陶瓷材料：ceramic material复合材料：composition material成形工艺：formation technology1 铸造铸造工艺：casting technique铸件：foundry goods （casting）机器零件：machine part毛坯：blank力学性能：mechanical property砂型铸造：sand casting process型砂：foundry sand1.1 铸件成形理论基础合金：alloy铸造性能：casting property工艺性能：processing property收缩性：constringency偏析性：aliquation氧化性：oxidizability吸气性：inspiratory铸件结构：casting structure使用性能：service performance浇不足：misrun冷隔：cold shut夹渣：cinder inclusion粘砂：sand fusion缺陷：flaw, defect, falling流动性：flowing power铸型：cast (foundry mold)蓄热系数：thermal storage capacity 浇注：pouring凝固：freezing收缩性：constringency逐层凝固：layer-by-layer freezing 糊状凝固：mushy freezing结晶：crystal缩孔：shrinkage void缩松：shrinkage porosity顺序凝固：progressive solidification 冷铁：iron chill补缩：feeding等温线法：constant temperature line method 内接圆法：inscribed circle method铸造应力：casting stress变形：deforming裂纹：crack机械应力：mechanical stress热应力：heat stress相变应力：transformation stress气孔：blow hole铸铁：ingot铸钢：cast steel非铁合金：nonferrous alloy灰铸铁：gray cast-iorn孕育处理：inoculation球墨铸铁：spheroidal球化处理：sheroidisation可锻铸铁：ductile cast iron石墨：graphite蠕墨铸铁：vermicular cast iron热处理：heat processing铝合金：Al-alloy熔炼：fusion metallurgy铜合金：copper alloy氢脆：hydrogen brittleness1.2 铸造方法（casting method）手工造型：hand moulding机器造型：machine moulding金属型：metal mold casting金属模：permanent mould压力铸造：press casting熔模铸造：investment moulding蜡膜：cere离心铸造：centrifugal casting低压铸造：casting under low pressure 差压铸造：counter-pressure casting 陶瓷型铸造：shaw process1.3 铸造工艺设计浇注位置：pouring position分型面：mould joint活块：loose piece起模：patter drawing型芯：core型芯撑：chaplet工艺参数：processing parameter下芯：core setting合型：mould assembly冒口：casting head尺寸公差：dimensional tolerance尺寸公差带：tolerance zone机械加工余量：machining allowance 铸孔：core hole非标准：nonstandard label收缩率：rate of contraction线收缩：linear contraction体收缩：volume contraction起模斜度：pattern draft铸造圆角：curving of castings芯头：core register芯头间隙：clearance芯座：core print seat分型线：joint line分模线：die parting line1.4 铸造结构工艺性加强筋：rib reinforcement撒砂：stuccoing内腔：entocoele2 金属塑性加工塑性加工：plastic working塑性：plastic property锻造：forge work冲压：punching轧制：rolling拉拔：drawing挤压：extruding细化晶粒：grain refinement 热锻：hit-forging温锻：warm forging2.1 金属塑性加工理论基础塑性变形：plastic yield加工硬化：work-hardening 韧性：ductility回复温度：return temperature 再结晶：recrystallize再结晶退火：full annealing 冷变形：cold deformation热变性：heat denaturation锻造比：forging ratio镦粗：upset拔长：pull out纤维组织：fibrous tissue锻造性能：forging property可锻性：forgeability变形抗力：resistance of deformation化学成分：chemical constitution热脆性：hot brittleness冷脆性：cold-shortness变形速度：deformation velocity应力状态：stress condition变形温度：deformation temperature过热：overheating过烧：burning脱碳：carbon elimination始锻温度：initiation forging temperature 终锻温度：final forging temperature 2.2 金属塑性加工方法自由锻：flat-die hammer冲孔：jetting弯曲：bend弯曲半径：bending radius切割：cut扭转：twist rotation错移：offsetting锻接：percussion基本工序：basic process辅助工序：auxiliary process精整工序：finishing process模锻：contour forging锻模：forging die胎膜锻：fetal membrane forging剪床：shearing machine冲床：backing-out punch冲裁：blanking弹性变形：elastic distortion塑性变形：plastic yield剪切变形：shearing deformation最小弯曲半径：minimum bending radius 曲率：angularity弯裂：rupture回弹：rebound辊轧：roll forming辊锻：roll forging斜轧：oblique rolling横轧：transverse rolling辗压：tamping drum挤压：extruding拉拔：draft2.3 塑性加工工艺设计工艺规程：process specification锻件图：forging drawing敷料：dressing锻件余量：forging allowance锻件公差：forging tolerance工夹具：clamping apparatus加热设备：firing equipment加热规范：heating schedule冷却规范：cooling schedule后续处理：after treatment分模面：die parting face冲孔连皮：punching the wad模锻斜度：draft angle圆角半径：radius of corner圆饼类锻件：circumcresent cake-like forging 长轴类锻件：long axis-like forging2.4 锻件结构工艺性锥体：cone斜面：cant空间曲线：curve in space粗糙度：degree of roughness2.5 冲压件结构工艺性3 焊接焊接：welding铆接：riverting熔焊：fusion welding压焊：press welding钎焊：braze welding3.1 焊接理论基础冶金：metallurgy电弧焊：arc welding气焊：acetylene welding电渣焊：electro-slag welding 高能束焊：high energy welding 电子焊：electronic welding激光焊：laser welding等离子焊：plasma welding电弧：electric arc阳极区：anode region阴极区：negative polarity弧柱区：arc stream正接法：electrode negative method反接法：opposition method脱氧剂：deoxidizing agent焊缝：welded seam焊缝区：weld zone熔合区：fusion area热影响区：heat-affected zone脆性断裂：brittle fracture过热区：overheated zone正火区：normalized zone相变区：phase change zone焊接应力：welding stress收缩变形：contraction distortion角变形：angular deformation弯曲变形：bend deformation扭曲变形：warping deformation波浪变形：wave transformation反变形法：reversible deformation method 刚性固定法：rigid fixing method预热：warming-up缓冷：slow cool焊后热处理：postweld heat treatment矫形处理：shape-righting3.2 焊接方法埋弧焊：hidden arc welding气体保护焊：gas shielded arc welding氩弧焊：argon welding熔化极氩弧焊：consumable electrode argon welding 钨极氩弧焊：argon tungsten-arc welding二氧化碳气体保护焊：CO2 gas shielded arc welding 碳弧焊：carbon arc welding碳弧气刨：carbon arc air gouging电渣焊：electro-slag welding高能焊：high grade energy welding等离子弧切割：plasma arc cutting (PAC)堆焊：bead weld电阻焊：resistance welding电焊：electric welding缝焊：seam welding压焊：press welding多点凸焊：multiple projection welding对焊：welding neck摩擦焊：friction welding扩散焊：diffusion welding硬钎料：brazing alloy软钎料：soft solder3.3 常用金属材料的焊接焊接性：weldability焊接方法：welding method 焊接材料：welding material 焊条：electrode焊剂：flux material碳素钢：carbon steel低碳钢：low carbon steel中碳钢：medium carbon steel 高碳钢：high carbon steel低合金钢：lean alloy steel不锈钢：non-corrosive steel 有色金属：nonferrous metal 3.4 焊接工艺设计型材：sectional bar药皮：coating焊丝：soldering wire连续焊缝：continuous weld断续焊缝：intermittent weld应力集中：stress concentration焊接接头：soldered joint坡口：groove对接：abutting joint搭接：lap joint角接：corner joint4 粉末冶金（power metallurgy）粉末冶金成品：finished power metallurgical product 铁氧体：ferrite硬质合金：sintered-carbide高熔点金属：high-melting metal陶瓷：ceramic4.1 粉末冶金工艺理论基础压坯：pressed compact扩散：diffusion烧结：agglomeration固溶：solid solubility化合：combination4.2 粉末冶金的工艺流程制备：preparation预处理：anticipation还原法：reduction method电解法：electrolytic method雾化法：atomization粒度：grain size松装密度：loose density流动性：flowing power压缩性：compressibility筛分：screen separation混合：compounding制粒：pelletization过烧：superburning欠烧：underburnt5 金属复合成型技术自蔓延焊接：SHS welding热等静压：HIP准热等静压：PHIP5.1 液态成型技术与固态成型技术的复合高压铸造：high-pressure casting电磁泵：magnetic-pump压射成型：injection molding柱塞：plunger piston冲头：drift pin凝固法：freezing method挤压法：extrusion method转向节：knuckle pivot制动器：arresting gear5.2 金属半凝固、半熔融成型技术凝固：freezing半熔融：semi-vitreous触变铸造：thixotropy casting触变锻造：thixotropy forging注射成型：injection molding5.3 其他金属成型新技术快速凝固：flash set非晶态：amorphous溢流法：press over system喷射沉积：ejecting deposit爆炸复合法：explosion cladding method 扩散焊接：diffusion welding挤压：extruding轧制：roll down6 非金属材料成型技术6.1 高分子材料成型技术高分子材料：non-metal material 耐腐蚀：resistant material绝缘：insulation老化：ageing耐热性：heat-durability粘弹性：viscoelasticity塑料：plastic material橡胶：rubber合成纤维：synthetic fibre涂料：covering material粘结剂：agglomerant粘度：viscosity热塑性塑料：thermoplastic plastics 热固性塑料：thermosetting plastic 通用塑料：general-purpose plastics 工程塑料：engineering plastic薄膜：thin film增强塑料：reinforced plastics浇注塑料：pouring plastics注射塑料：injiection plastics挤出塑料：extrusion plastics吹塑塑料：blowing plastics模压塑料：die pressing plastics聚合物：ploymer semiconductor吸湿性：hygroscopic cargo定向作用：directional action生胶：green glue stock填料：carrier丁苯橡胶：SBR顺丁橡胶：BR氯丁橡胶：CR丁腈橡胶：NBR硅橡胶：Q聚氨酯橡胶：U压延：calender硫化：sulfuration胶粘剂：adhesive胶接：glue joint刹车片：brake block零件修复：parts renewal蜂窝夹层：honeycomb core material 6.2 工业陶瓷制品的成型技术干燥：drying润滑剂：anti-friction结合剂：binder热压铸：hot injiection moulding 6.3 非金属材料成型技术的新进展热压烧结：hot pressed sintering7 复合材料的成型技术复合材料：composite material树脂：resin7.1 金属复合材料的成型技术硼纤维：boron fiber钛合金：titanium alloy碳纤维：carbon filter等离子喷涂：plasma spraying浸渍法：immersion method锭坯：ingot blank7.2 聚合物基复合材料的成型技术晶须：whisker缠绕成形：enwind forming湿法缠绕：wet method enwind 7.3 陶瓷复合材料成型技术溶胶-凝胶法：sol-gel method化学气相沉积：chemical vapor deposition (CVD) 原位：in situ8 材料成型方法的选择粉末冶金：powder metallurgy工程塑料：engineering plastics工程陶瓷：engineering ceramics。

成型工艺流程及条件介绍(注塑技术英语大全)成型工艺流程及条件介绍Molding technique procedure and parameter introduction第一節成型工艺Section 1 molding technique.1.成型工艺参数类型Sorts of molding parameter.(1).注塑参数Injection parameter.a.注射量Injection rate.b.计量行程Screw back positionc.余料量Cushiond.防诞量Sucking back ratee.螺杆转速Screw speedf.塑化量Plastic0 rateg.预塑背压Screw back pressureh.注射压力和保压压力Injection pressure and holding pressure i.注射速度Injection speed(2)合模参数Clamping parametera.合模力Clamping forceb.合模速度Clamping speedc.合模行程.Clamping stroked.开模力Opening forcee.开模速度Opening speedf.开模行程Opening positiong.顶出压力Ejector advance pressureh.顶出速度Ejector advance speedi.顶出行程Ejector advance position2.温控参数Temperature parametera.烘料温度Dry resin material temperatureb.料向与喷嘴温度Cylinder temperature and nozzle temperature c.模具温度Mold temperatured.油温Oil temperature3.成型周期Molding cyclea.循环周期Cycle timeb.冷却时间Cool timec.注射时间Injection timed.保压时间Holding pressure timee.塑化时间Plant timef.顶出及停留时间Knocking out and delay timeg.低压保护时间Mold protect time成型工艺参数的设定须根据产品的不同设置.Molding technique parameter setting differs depending on type of product第二节成型条件设定Section 2 Molding parameter Setting按成型步骤:可分为开锁模,加热,射出,顶出四个过程.Molding steps: mold opening/closing, heating injection and knocking out.开锁模条件:Mold opening parameter:快速段中速度低压高压速度High-speedmid-speedLow pressure high pressure speed锁模条件设定:Mold closing parameter setting1锁模一般分:快速→中速→低压→高压Mold closing: high-speed →low-speed →low pressure→high pressure2.快锁模一般按模具情况分,如果是平面二板模具,快速锁模段可用较快速度,甚至于用到特快,当用到一般快速时,速度设到55-75%,完全平面模可设定到80-90%,如果用到特快就只能设定在45-55%,压力则可设定于50-75%,位置段视产品的深浅(或长短)不同,一般是开模宽度的1/3.In high-speed section, Mold closing speed depends on type of mold. For two –plate mold it can set quick and even especially quick usually, it set speed within 55-75%. For full-plate mold it set speed within80-90% while using especially high speed it set speed within 45-55%and pressure within 50-75% position distance setting differs depending on the volume of product and usually it can be set 1/3 of mold opening position.3.中速段,在快速段结束后即转换成中速,中速的位置一般是到模板(包括三板模,二板模)合在一块为止,具体长度应视模板板间隔,速度一般设置在30%-50%间,压力则是20%-45%间.In mid-speed section: Mold closing speed changes intomid-speed after high-speed section finish. Mid-speed start position is where two plates meet (include three-plate mold and two-plate mold ) Distance of mid-speed is up to distance of two plates plate it speed within 30-50% and pressure 20-45%.4.低压设定,低速设定一般是在模板接触的一瞬间,具体位置就设在机台显示屏显示的一瞬间的数字为准,这个数字一般是以这点为标准,,即于此点则起不了高压,高于此点则大,轻易起高压.设定的速度一般是15%-25%,视乎不同机种而定,压力一般设定于1-2%,有些机则可设于5-15%,也是视乎不同机种不同.Low-pressure section: Mold closing sets low-pressure when plates meeting. This position is set to the data of machine screen on this time. This point is the gage of the data. Data lower the point there is no high-pressure. Data higher the point there is high-pressure easily. It set speed within 15-25% and pressure within 1-2% depending on type within 1-2% depending on type of injection molding machine.5.高压设定,按一般机台而言,高压位置机台在出厂时都已作了设定,相对来讲,是不可以随便更改的,比如震雄机在50P.速度相对低压略高,大约在30-35%左右,而压力则视乎模具而定,可在55-85%中取,比如完全平面之新模,模具排气良好,甚至于设在55%即可,如果是滑块较多,原来生产时毛边也较多,甚至于可设在90%还略显不足.High-pressure section: To normal injection molding machine, high-pressure position had been set before they were sent to customer. It can not be modified. For example high-pressure position of CHENHSONG machine is 50P.The speed of high-pressure section is about 30-35% and higher than that of low-pressure. The pressure is up to mold, it can set within 55-85% For full-plate mold, it’s eject air well, it can set pressure 55% .If mold has a lot of slides and flash rate high in production, pressure can set 90%.加热工艺条件设定Heating technique parameter setting1.加热段温度设定必须按照产品所使用的原料的不同而不同,但却必须遵循一个这样的规则,即由射口筒到进科段温度是逐步递减的.且递减温度是以10.度为单位.The proper temperature setting differs depending on type of resin material, but it must be abide by a rule that temperature setting should diminish in step 10.C from nozzle to feeding resin material position.2特殊情况下.如料头抽丝,则射口筒温度应降低,如果是比较特殊的原料冷凝比较快的.则射口筒温度则不止比第二节法兰温度高10度.比如PPS.尼龙等.Nozzle temperature setting should low if product line. If resin material such asPPS, PA, cool very soon , Nozzle temperature should higher more 10.C than the second cylinder temperature.3.机台马达启动温度视乎机台不同而不同,一般出于对机台油路中的油封保护需要,油温最好能控制在40度-60度,以免油封长期高压而变化,缩短使用寿命,造成成型不稳定.Pump turning on temperature is different depending on type of injection molding machine. To protect oil seal of machine it set oil temperature within 40.C-60.C, If oil seal work on condition that high pressure and damaged It’s work time will be shorter, it can cause molding stable.第三节注射及熔胶(加料)工艺条件设定Injection and plastic Technique parameter setting一.注射Injection第四节常见塑料原料的有关温度值.原料Resin名称Name熔点℃Melt’s成型温度℃Molding Temperature(’c)分解温度℃Decomposing Temperature(‘C)模具温度℃Mold Temperature(‘c)干燥温度℃Resin dry temperature(‘c)注射是把塑料原料经加热后射进模腔的过程,它一般可分为第一级,第二级,第三级,第四级及保压几段:Injection is a step which inject melt resin material into mold. It consists of stepl,step2 ,step3,step4 and holding pressure step:1.第一级注射一般是注射料头段.具注射量一般可根据料头的轻重来估计其行程,当然也可以依据公式来计算,如公式:Step l injects usually tunnel material, Injection Volume can be estimated according to the weight of course it can be calculated by formula:L=Si=Vi/0.785Ds2L:注射行程; Si:注射行程;L: injection stroke Si: injection strokeVi:理论注射容积; Ds:螺杆直径;Vi: injection volume of theoretical Ds: diameter of screw0.785:是Ω/4的值.0. 785: value ofΩ/4.当然,如果我们在成型时每设定一个参数都要计算一次,要成型出一个产品就要几个小时才能完成了.But it cost a lot of time to produce one product if every time molding parameter is setting by calculation.2.第二级是注塑产品约2/3的阶段,当然,根据产品特殊需要,也允许成型不到2/3阶段,比如避免结合线问题,这一阶段的成型速度及压力一般是整个成型段的最大值段,如果排的产品与机台基本是相吻合的.模具结构合理,排气良好,这一段的压力一般也不会超过80%.速度侧视产品需变,可能大到95%也可,自然一般都是在55%-80%间.Step 2 inject 2/3 of product. It can lower 2/3 of product according to requirement of product. For example to prevent weld line. Molding speed and pressure on this step is the maximum of whole molding section. If Mold suit the injection molding machine and mold structure reasonable and eject air well, pressure of this step should lower 80%. Molding speed setting within 55-80% but it may setting 95% for especial product.3.第三段是注射余下的1/3段,其速度和压力根据产品的需要,一般是小于第二段,速度和压力存在于一个往下降的过程.主要是为了防止产品毛边的产生,但同时又必须把产品充填饱满.Step3 inject remain 1/3 of product. According to product molding speed and pressure lower than that of step2 To prevent flash speed and pressure should decrease but it can’t shot short.4.第四段:一般有机台还有第五,第六段,这段的成型速度和压力相同前,都存在两段一个递减过程.其作用都是起到一个再次充满的作用.Step4 section: Some injection machines have step5,step6 which are same as former molding speed and pressure this step should diminish and inject once more.5.保压段:不论成型什么产品,都存在一个保压过程.任何产品都不同程度的存在一个厚薄不一的问题,正常情况下,较厚的部分都可能存在一个收缩凹陷的现象,为了解决这种现象,就应应用到保压,保压一般来讲都应用较慢的射速,而压力的设置则应看缩水的情况如何,小到25%,大到80%都有可能.Holding pressure step: No matter what product there is a holding pressure step. Any product can’t molding a same thickness. Usually the deeper section may sink mark . To prevent this defect it should set holding pressure, The injection speed of holding pressure step is slow but holding pressure setting within 25-80% depending on sink mark.二.熔胶段工艺Plastic Technique1.再复杂的熔胶旋转过程最多不会超过三段,因为熔胶本身就是存在于把胶熔进料筒的过程,如果原料粘度大,熔胶压力则大,但速度则应取决于原料的分解温度,熔胶速度越快,原料中的剪切力则会越大,料管温度则越高,局部原料产生分解的可能性则会越大,故一般熔胶会采用中速为宜,如45%-75%,熔胶同时会碰到一个比较重要的环节,那就是背压的使用,产品精度要求越大,背压的使用则更大,背压可使原料分子间结构更紧密,成型出的产品则尺寸更稳定,外观越好.当然,背压太大,则会产生流涎,所以背压的使用又应考虙到其它原因.Plastic should lower 3 steps, because plastic is a step to add melt resin material to cyclinder , Higher stick of resin material ,higher screw back pressure. Screw speed differs depending on decomposing temperature of resin material ,Higher screw speed ,Higher trim force of resin, higher cyclinder temperature. Some resin material may decomposes so it set screw speed in mid-speed such as 45-75%, In plastic step setting screw back pressure is very important, Higher screw back pressure ,higher quality of product screw back pressure make resin structure order, Molding product is beautiful and volume stable. But ,it maybe flow if screw back pressure too high . So all factors should be considered when using screw back pressure.2.熔胶过程还有一个比较重要的环节,那就是松退,松退分前松退和后松退,其作用一般是为了防止流涎和抽丝,设定值速度和压力都在20%-50%间,设定的行程一般在2-5cm间,太长的行程可能会使料筒里面贮存空气,导致下一模出现不期望的气泡.In plastic step sucking back is very important too. Sucking back include front sucking back and back sucking back It setting sucking back to prevent flow and line. It sets sucking back speed and pressure within 20-50% and distance within 2-5cm. TOO long distance make cyclinder reserve air and cause bubble at next molding.顶出的工艺设定knocking out technique setting产品经冷却定型后则有一个开模的过程,开模基本上是合模的反过程.开模的未段则有一个慢速设置,开模完成后,产品必须顶出的过程.There is a mold opening step after product cooling taking shape. Mold opening is a reverse step of mold closing. The last step of mold opening speed set slow. Product should be knocked out after mold opened.一.顶前:Knocking out顶前最好分两个阶级,第一阶可分为中压慢速,即是把产品轻轻顶出一部分,然后是中压中速顶,中压中速一般指的是35%-55%,而低速则有可能低到5%,这需视产品不同而言,顶出行程设定是顶出长度稍比产品垂直深度大1-2cm即可.Knocking out includes two steps, Step1 section settingmid-speed, knocks product out partly step2 section setting mid-pressureand mid-speed . Depending on different product, mid-pressure andmid-speed sets within 35-55% but low-speed can set 5%. Distance of knocking out longer 1-2cm than the vertical thickness of product.二.退针Back顶退包括两个过程与顶落的过程基本一致,顶退的终点应预留1-3cm的空间,以保护顶针油管不被顶坏.The same as knocking out, ejector back includes 2 steps. To protect the ejector oil jar, it should make a 1-3mm distance in the ending point of ejector back.三.顶针方式还包括一个多次顶,单次顶及顶针停留的选择,机械手取产品,脱模顺利的情况都采取多项,为了顶针油缸寿命的延长,多次顶就以不超过三次为宜,顶针停留一般用在顶针带着产品退回有可能对增品产生损伤的模具,同时为配合机械手使用,有时也需要较短的顶针停留.The way of knocking out includes knocking out once, Knocking out repeat and ejector delay. Take product by manipulator or take product easy, it should select knocking out once. To longer the work time of ejector oiljar, times of knocking out lower 3 times. Ejector delay used when product will be damaged if ejector back or suit manipulator.成型时间的设定Molding time setting在保证产品质量的前提下,周期时间是越短越好,周期时间又包括如下几项:射胶时间,保压时间,熔胶时间,冷却时间,顶出时间,锁模低压时间,甚至乎关系到时间因素的还有还开模与锁模,及顶出的快慢.Cycle time should shorter on condition that product quality well. Cycle time includes: injection time , holding pressure time, plastic time, cure time, knocking out time and mold protect time. Even mold opening closing sopeed and knocking out speed affect cycle.1.射胶时间包含保压时间,一般看起来,射胶时间越长,产品越饱和,但我们在讲求质量时,同时也须考虑产能,更何况,射胶时间过长,有可能会造成产品过于饱满而寻致粘模顶的变形呎寸偏大等一系列问题,故我们在设置射胶时间时应综合考虑,尽量在合乎质量要求时缩短射胶时间.Injection time consists holding pressure time. Longer injection time, fuller product, we should consider production quantity when we suit for quality. If injection time too long, it may cause a series of defects suck as flash strain. So all sorts of factors should be considered, injection time should be shout if quality suit for requirement.2.熔胶时间的长短取决于熔胶速度设定的快慢,背压设定的大小,但有一点,熔胶时间控制的长短一定要比冷却时间短.Plastic time depends on plastic speed and screw back pressure, but plastic time must shorter than cure time.3.冷却时间:冷却时间的长短直接影响到成型的周期,冷却时间越长,成型时间就越长,造成产能就越低,故我们在设定高压冷却时间时,只要能保证到产品成型顺利,不会直接影响到变形等问题,设定的时间也是越短越好.Cure time: Cure time affects molding cycle. Longer cure time, longer molding cycle, lower production quantity. So it sets cure time short on condition that product molding succed and can’t deformation..4.在大量使用机械手的塑胶公司,我们的顶出时间一般是与机械手配合为宜,全自动使用机械手时顶出停留时间一般保持1.5-2秒,半自动生产,如因顶针退回会导致产品掉落或卡紧,而取不下产品,停留时间则应保持5秒左右.In PCE company, for using manipulator in abundence , knocking out time suits manipulator, Knocking out delay keeps 1.5-2 second when using manipulator full-manipulator, knocking out delay keeps about 5 second when using manipulator semi-manipulator and product will fall or can’t be taken off if ejector back.5.低压保护时间对保护我们人身安全,模具安全起很大作用,配合好模具低压位置和低压压力的调整,低压保护的时间应取1-3秒,保护时间越短,可能造成的危害则越小.Low-pressure protect is very important for safety and protect mold, Mold protect time should adjust within 1-3 second suit low pressure and position of mold protect, shorter protect time, make damaged.。

材料成型工艺基础部分0 绪论金属材料：metal material (MR)高分子材料：high-molecular material陶瓷材料：ceramic material复合材料：composition material成形工艺：formation technology1 铸造铸造工艺：casting technique铸件：foundry goods （casting）机器零件：machine part毛坯：blank力学性能：mechanical property砂型铸造：sand casting process型砂：foundry sand1.1 铸件成形理论基础合金：alloy铸造性能：casting property工艺性能：processing property收缩性：constringency偏析性：aliquation氧化性：oxidizability吸气性：inspiratory铸件结构：casting structure使用性能：service performance浇不足：misrun冷隔：cold shut夹渣：cinder inclusion粘砂：sand fusion缺陷：flaw, defect, falling流动性：flowing power铸型：cast (foundry mold)蓄热系数：thermal storage capacity 浇注：pouring凝固：freezing收缩性：constringency逐层凝固：layer-by-layer freezing 糊状凝固：mushy freezing结晶：crystal缩孔：shrinkage void缩松：shrinkage porosity顺序凝固：progressive solidification 冷铁：iron chill补缩：feeding等温线法：constant temperature line method 内接圆法：inscribed circle method铸造应力：casting stress变形：deforming裂纹：crack机械应力：mechanical stress热应力：heat stress相变应力：transformation stress气孔：blow hole铸铁：ingot铸钢：cast steel非铁合金：nonferrous alloy灰铸铁：gray cast-iorn孕育处理：inoculation球墨铸铁：spheroidal球化处理：sheroidisation可锻铸铁：ductile cast iron石墨：graphite蠕墨铸铁：vermicular cast iron热处理：heat processing铝合金：Al-alloy熔炼：fusion metallurgy铜合金：copper alloy氢脆：hydrogen brittleness1.2 铸造方法（casting method）手工造型：hand moulding机器造型：machine moulding金属型：metal mold casting金属模：permanent mould压力铸造：press casting熔模铸造：investment moulding蜡膜：cere离心铸造：centrifugal casting低压铸造：casting under low pressure 差压铸造：counter-pressure casting 陶瓷型铸造：shaw process1.3 铸造工艺设计浇注位置：pouring position分型面：mould joint活块：loose piece起模：patter drawing型芯：core型芯撑：chaplet工艺参数：processing parameter下芯：core setting合型：mould assembly冒口：casting head尺寸公差：dimensional tolerance尺寸公差带：tolerance zone机械加工余量：machining allowance 铸孔：core hole非标准：nonstandard label收缩率：rate of contraction线收缩：linear contraction体收缩：volume contraction起模斜度：pattern draft铸造圆角：curving of castings芯头：core register芯头间隙：clearance芯座：core print seat分型线：joint line分模线：die parting line1.4 铸造结构工艺性加强筋：rib reinforcement撒砂：stuccoing内腔：entocoele2 金属塑性加工塑性加工：plastic working塑性：plastic property锻造：forge work冲压：punching轧制：rolling拉拔：drawing挤压：extruding细化晶粒：grain refinement 热锻：hit-forging温锻：warm forging2.1 金属塑性加工理论基础塑性变形：plastic yield加工硬化：work-hardening 韧性：ductility回复温度：return temperature 再结晶：recrystallize再结晶退火：full annealing 冷变形：cold deformation热变性：heat denaturation锻造比：forging ratio镦粗：upset拔长：pull out纤维组织：fibrous tissue锻造性能：forging property可锻性：forgeability变形抗力：resistance of deformation化学成分：chemical constitution热脆性：hot brittleness冷脆性：cold-shortness变形速度：deformation velocity应力状态：stress condition变形温度：deformation temperature过热：overheating过烧：burning脱碳：carbon elimination始锻温度：initiation forging temperature 终锻温度：final forging temperature 2.2 金属塑性加工方法自由锻：flat-die hammer冲孔：jetting弯曲：bend弯曲半径：bending radius切割：cut扭转：twist rotation错移：offsetting锻接：percussion基本工序：basic process辅助工序：auxiliary process精整工序：finishing process模锻：contour forging锻模：forging die胎膜锻：fetal membrane forging剪床：shearing machine冲床：backing-out punch冲裁：blanking弹性变形：elastic distortion塑性变形：plastic yield剪切变形：shearing deformation最小弯曲半径：minimum bending radius 曲率：angularity弯裂：rupture回弹：rebound辊轧：roll forming辊锻：roll forging斜轧：oblique rolling横轧：transverse rolling辗压：tamping drum挤压：extruding拉拔：draft2.3 塑性加工工艺设计工艺规程：process specification锻件图：forging drawing敷料：dressing锻件余量：forging allowance锻件公差：forging tolerance工夹具：clamping apparatus加热设备：firing equipment加热规范：heating schedule冷却规范：cooling schedule后续处理：after treatment分模面：die parting face冲孔连皮：punching the wad模锻斜度：draft angle圆角半径：radius of corner圆饼类锻件：circumcresent cake-like forging 长轴类锻件：long axis-like forging2.4 锻件结构工艺性锥体：cone斜面：cant空间曲线：curve in space粗糙度：degree of roughness2.5 冲压件结构工艺性3 焊接焊接：welding铆接：riverting熔焊：fusion welding压焊：press welding钎焊：braze welding3.1 焊接理论基础冶金：metallurgy电弧焊：arc welding气焊：acetylene welding电渣焊：electro-slag welding 高能束焊：high energy welding 电子焊：electronic welding激光焊：laser welding等离子焊：plasma welding电弧：electric arc阳极区：anode region阴极区：negative polarity弧柱区：arc stream正接法：electrode negative method反接法：opposition method脱氧剂：deoxidizing agent焊缝：welded seam焊缝区：weld zone熔合区：fusion area热影响区：heat-affected zone脆性断裂：brittle fracture过热区：overheated zone正火区：normalized zone相变区：phase change zone焊接应力：welding stress收缩变形：contraction distortion角变形：angular deformation弯曲变形：bend deformation扭曲变形：warping deformation波浪变形：wave transformation反变形法：reversible deformation method 刚性固定法：rigid fixing method预热：warming-up缓冷：slow cool焊后热处理：postweld heat treatment矫形处理：shape-righting3.2 焊接方法埋弧焊：hidden arc welding气体保护焊：gas shielded arc welding氩弧焊：argon welding熔化极氩弧焊：consumable electrode argon welding 钨极氩弧焊：argon tungsten-arc welding二氧化碳气体保护焊：CO2 gas shielded arc welding 碳弧焊：carbon arc welding碳弧气刨：carbon arc air gouging电渣焊：electro-slag welding高能焊：high grade energy welding等离子弧切割：plasma arc cutting (PAC)堆焊：bead weld电阻焊：resistance welding电焊：electric welding缝焊：seam welding压焊：press welding多点凸焊：multiple projection welding对焊：welding neck摩擦焊：friction welding扩散焊：diffusion welding硬钎料：brazing alloy软钎料：soft solder3.3 常用金属材料的焊接焊接性：weldability焊接方法：welding method 焊接材料：welding material 焊条：electrode焊剂：flux material碳素钢：carbon steel低碳钢：low carbon steel中碳钢：medium carbon steel 高碳钢：high carbon steel低合金钢：lean alloy steel不锈钢：non-corrosive steel 有色金属：nonferrous metal 3.4 焊接工艺设计型材：sectional bar药皮：coating焊丝：soldering wire连续焊缝：continuous weld断续焊缝：intermittent weld应力集中：stress concentration焊接接头：soldered joint坡口：groove对接：abutting joint搭接：lap joint角接：corner joint4 粉末冶金（power metallurgy）粉末冶金成品：finished power metallurgical product 铁氧体：ferrite硬质合金：sintered-carbide高熔点金属：high-melting metal陶瓷：ceramic4.1 粉末冶金工艺理论基础压坯：pressed compact扩散：diffusion烧结：agglomeration固溶：solid solubility化合：combination4.2 粉末冶金的工艺流程制备：preparation预处理：anticipation还原法：reduction method电解法：electrolytic method雾化法：atomization粒度：grain size松装密度：loose density流动性：flowing power压缩性：compressibility筛分：screen separation混合：compounding制粒：pelletization过烧：superburning欠烧：underburnt5 金属复合成型技术自蔓延焊接：SHS welding热等静压：HIP准热等静压：PHIP5.1 液态成型技术与固态成型技术的复合高压铸造：high-pressure casting电磁泵：magnetic-pump压射成型：injection molding柱塞：plunger piston冲头：drift pin凝固法：freezing method挤压法：extrusion method转向节：knuckle pivot制动器：arresting gear5.2 金属半凝固、半熔融成型技术凝固：freezing半熔融：semi-vitreous触变铸造：thixotropy casting触变锻造：thixotropy forging注射成型：injection molding5.3 其他金属成型新技术快速凝固：flash set非晶态：amorphous溢流法：press over system喷射沉积：ejecting deposit爆炸复合法：explosion cladding method 扩散焊接：diffusion welding挤压：extruding轧制：roll down6 非金属材料成型技术6.1 高分子材料成型技术高分子材料：non-metal material 耐腐蚀：resistant material绝缘：insulation老化：ageing耐热性：heat-durability粘弹性：viscoelasticity塑料：plastic material橡胶：rubber合成纤维：synthetic fibre涂料：covering material粘结剂：agglomerant粘度：viscosity热塑性塑料：thermoplastic plastics 热固性塑料：thermosetting plastic 通用塑料：general-purpose plastics 工程塑料：engineering plastic薄膜：thin film增强塑料：reinforced plastics浇注塑料：pouring plastics注射塑料：injiection plastics挤出塑料：extrusion plastics吹塑塑料：blowing plastics模压塑料：die pressing plastics聚合物：ploymer semiconductor吸湿性：hygroscopic cargo定向作用：directional action生胶：green glue stock填料：carrier丁苯橡胶：SBR顺丁橡胶：BR氯丁橡胶：CR丁腈橡胶：NBR硅橡胶：Q聚氨酯橡胶：U压延：calender硫化：sulfuration胶粘剂：adhesive胶接：glue joint刹车片：brake block零件修复：parts renewal蜂窝夹层：honeycomb core material 6.2 工业陶瓷制品的成型技术干燥：drying润滑剂：anti-friction结合剂：binder热压铸：hot injiection moulding 6.3 非金属材料成型技术的新进展热压烧结：hot pressed sintering7 复合材料的成型技术复合材料：composite material树脂：resin7.1 金属复合材料的成型技术硼纤维：boron fiber钛合金：titanium alloy碳纤维：carbon filter等离子喷涂：plasma spraying浸渍法：immersion method锭坯：ingot blank7.2 聚合物基复合材料的成型技术晶须：whisker缠绕成形：enwind forming湿法缠绕：wet method enwind 7.3 陶瓷复合材料成型技术溶胶-凝胶法：sol-gel method化学气相沉积：chemical vapor deposition (CVD) 原位：in situ8 材料成型方法的选择粉末冶金：powder metallurgy工程塑料：engineering plastics工程陶瓷：engineering ceramics。

材料成型工艺基础部分0 绪论金属材料：metal material (MR)高分子材料：high-molecular material 陶瓷材料：ceramic material复合材料：composition material成形工艺：formation technology1 铸造铸造工艺：casting technique铸件：foundry goods （casting）机器零件：machine part毛坯：blank力学性能：mechanical property砂型铸造：sand casting process型砂：foundry sand1.1 铸件成形理论基础合金：alloy铸造性能：casting property工艺性能：processing property 收缩性：constringency偏析性：aliquation氧化性：oxidizability吸气性：inspiratory铸件结构：casting structure使用性能：service performance浇不足：misrun冷隔：cold shut夹渣：cinder inclusion 粘砂：sand fusion缺陷：flaw, defect, falling流动性：flowing power 铸型：cast (foundry mold) 蓄热系数：thermal storage capacity浇注：pouring凝固：freezing收缩性：constringency逐层凝固：layer-by-layer freezing糊状凝固：mushy freezing结晶：crystal缩孔：shrinkage void缩松：shrinkage porosity顺序凝固：progressive solidification冷铁：iron chill补缩：feeding等温线法：constant temperature line method内接圆法：inscribed circle method铸造应力：casting stress变形：deforming裂纹：crack机械应力：mechanical stress热应力：heat stress相变应力：transformation stress气孔：blow hole 铸铁：ingot铸钢：cast steel非铁合金：nonferrous alloy灰铸铁：gray cast-iorn孕育处理：inoculation 球墨铸铁：spheroidal球化处理：sheroidisation可锻铸铁：ductile cast iron石墨：graphite蠕墨铸铁：vermicular cast iron热处理：heat processing熔炼：fusion metallurgy铜合金：copper alloy氢脆：hydrogen brittleness1.2 铸造方法（casting method）手工造型：hand moulding机器造型：machine moulding金属型：metal mold casting金属模：permanent mould压力铸造：press casting熔模铸造：investment moulding蜡膜：cere离心铸造：centrifugal casting低压铸造：casting under low pressure差压铸造：counter-pressure casting陶瓷型铸造：shaw process 1.3 铸造工艺设计浇注位置：pouring position分型面：mould joint活块：loose piece起模：patter drawing型芯：core型芯撑：chaplet工艺参数：processing parameter下芯：core setting合型：mould assembly冒口：casting head 尺寸公差：dimensional tolerance尺寸公差带：tolerance zone机械加工余量：machining allowance铸孔：core hole非标准：nonstandard label 收缩率：rate of contraction线收缩：linear contraction体收缩：volume contraction起模斜度：pattern draft铸造圆角：curvingof castings芯头：core register芯头间隙：clearance芯座：core print seat 分型线：joint line分模线：die parting line1.4 铸造结构工艺性加强筋：rib reinforcement撒砂：stuccoing内腔：entocoele2 金属塑性加工塑性加工：plastic working塑性：plastic property锻造：forge work冲压：punching轧制：rolling拉拔：drawing挤压：extruding细化晶粒：grain refinement热锻：hit-forging温锻：warm forging 2.1 金属塑性加工理论基础塑性变形：plastic yield加工硬化：work-hardening韧性：ductility回复温度：return temperature再结晶：recrystallize再结晶退火：full annealing冷变形：cold deformation热变性：heat denaturation锻造比：forging ratio镦粗：upset拔长：pull out纤维组织：fibrous tissue 锻造性能：forging property可锻性：forgeability变形抗力：resistance of deformation化学成分：chemical constitution热脆性：hot brittleness 冷脆性：cold-shortness变形速度：deformation velocity应力状态：stress condition变形温度：deformation temperature过热：overheating过烧：burning脱碳：carbon elimination始锻温度：initiation forging temperature终锻温度：final forging temperature2.2 金属塑性加工方法自由锻：flat-die hammer冲孔：jetting弯曲：bend弯曲半径：bending radius切割：cut扭转：twist rotation错移：offsetting锻接：percussion基本工序：basic process辅助工序：auxiliary process精整工序：finishing process模锻：contour forging锻模：forging die 胎膜锻：fetal membrane forging剪床：shearing machine冲床：backing-out punch冲裁：blanking弹性变形：elastic distortion塑性变形：plastic yield剪切变形：shearing deformation最小弯曲半径：minimum bending radius曲率：angularity弯裂：rupture 回弹：rebound辊轧：roll forming辊锻：roll forging斜轧：oblique rolling 横轧：transverse rolling辗压：tamping drum挤压：extruding拉拔：draft2.3 塑性加工工艺设计工艺规程：process specification锻件图：forging drawing敷料：dressing锻件余量：forging allowance锻件公差：forging tolerance 工夹具：clamping apparatus加热设备：firing equipment加热规范：heating schedule冷却规范：cooling schedule后续处理：after treatment分模面：die parting face冲孔连皮：punching the wad模锻斜度：draft angle圆角半径：radius of corner圆饼类锻件：circumcresent cake-like forging长轴类锻件：long axis-like forging2.4 锻件结构工艺性锥体：cone斜面：cant空间曲线：curve in space粗糙度：degree of roughness2.5 冲压件结构工艺性3 焊接焊接：welding铆接：riverting熔焊：fusion welding压焊：press welding 钎焊：braze welding3.1 焊接理论基础冶金：metallurgy电弧焊：arc welding气焊：acetylene welding电渣焊：electro-slag welding高能束焊：high energy welding电子焊：electronic welding激光焊：laser welding等离子焊：plasma welding 电弧：electric arc阳极区：anode region阴极区：negative polarity弧柱区：arc stream正接法：electrode negative method反接法：opposition method脱氧剂：deoxidizing agent焊缝：welded seam 焊缝区：weld zone熔合区：fusion area热影响区：heat-affected zone 脆性断裂：brittle fracture过热区：overheated zone正火区：normalized zone相变区：phase change zone焊接应力：welding stress收缩变形：contraction distortion角变形：angular deformation弯曲变形：bend deformation扭曲变形：warping deformation波浪变形：wave transformation反变形法：reversible deformation method刚性固定法：rigid fixing method预热：warming-up缓冷：slow cool焊后热处理：postweld heat treatment 矫形处理：shape-righting3.2 焊接方法埋弧焊：hidden arc welding气体保护焊：gas shielded arc welding氩弧焊：argon welding熔化极氩弧焊：consumable electrode argon welding钨极氩弧焊：argon tungsten-arc welding二氧化碳气体保护焊：CO2 gas shielded arc welding碳弧焊：carbon arc welding碳弧气刨：carbon arc air gouging电渣焊：electro-slag welding 高能焊：high grade energy welding等离子弧切割：plasma arc cutting (PAC)堆焊：bead weld电阻焊：resistance welding电焊：electric welding缝焊：seam welding压焊：press welding多点凸焊：multiple projection welding对焊：welding neck摩擦焊：friction welding扩散焊：diffusion welding硬钎料：brazing alloy软钎料：soft solder3.3 常用金属材料的焊接焊接性：weldability焊接方法：welding method焊接材料：welding material焊条：electrode焊剂：flux material碳素钢：carbon steel低碳钢：low carbon steel中碳钢：medium carbon steel高碳钢：high carbon steel低合金钢：lean alloy steel不锈钢：non-corrosive steel有色金属：nonferrous metal3.4 焊接工艺设计型材：sectional bar药皮：coating焊丝：soldering wire连续焊缝：continuous weld断续焊缝：intermittent weld应力集中：stress concentration焊接接头：soldered joint坡口：groove对接：abutting joint搭接：lap joint角接：corner joint 4 粉末冶金（power metallurgy）粉末冶金成品：finished power metallurgical product铁氧体：ferrite硬质合金：sintered-carbide高熔点金属：high-melting metal陶瓷：ceramic4.1 粉末冶金工艺理论基础压坯：pressed compact扩散：diffusion烧结：agglomeration固溶：solid solubility化合：combination4.2 粉末冶金的工艺流程制备：preparation预处理：anticipation还原法：reduction method电解法：electrolytic method雾化法：atomization松装密度：loose density 流动性：flowing power压缩性：compressibility筛分：screen separation 混合：compounding制粒：pelletization过烧：superburning欠烧：underburnt5 金属复合成型技术自蔓延焊接：SHS welding热等静压：HIP准热等静压：PHIP5.1 液态成型技术与固态成型技术的复合高压铸造：high-pressure casting电磁泵：magnetic-pump压射成型：injection molding柱塞：plunger piston冲头：drift pin凝固法：freezing method挤压法：extrusion method转向节：knuckle pivot制动器：arresting gear5.2 金属半凝固、半熔融成型技术凝固：freezing半熔融：semi-vitreous触变铸造：thixotropy casting触变锻造：thixotropy forging注射成型：injection molding5.3 其他金属成型新技术快速凝固：flash set非晶态：amorphous溢流法：press over system喷射沉积：ejecting deposit爆炸复合法：explosion cladding method扩散焊接：diffusion welding挤压：extruding轧制：roll down6 非金属材料成型技术6.1 高分子材料成型技术高分子材料：non-metal material耐腐蚀：resistant material绝缘：insulation老化：ageing耐热性：heat-durability粘弹性：viscoelasticity塑料：plastic material橡胶：rubber合成纤维：synthetic fibre涂料：covering material粘结剂：agglomerant 粘度：viscosity热塑性塑料：thermoplastic plastics热固性塑料：thermosetting plastic通用塑料：general-purpose plastics 工程塑料：engineering plastic薄膜：thin film增强塑料：reinforced plastics浇注塑料：pouring plastics注射塑料：injiection plastics挤出塑料：extrusion plastics吹塑塑料：blowing plastics模压塑料：die pressing plastics聚合物：ploymer semiconductor吸湿性：hygroscopic cargo定向作用：directional action生胶：green glue stock填料：carrier丁苯橡胶：SBR顺丁橡胶：BR 氯丁橡胶：CR丁腈橡胶：NBR硅橡胶：Q聚氨酯橡胶：U压延：calender硫化：sulfuration胶粘剂：adhesive胶接：glue joint刹车片：brake block零件修复：parts renewal蜂窝夹层：honeycomb core material6.2 工业陶瓷制品的成型技术干燥：drying坯料：blank润滑剂：anti-friction结合剂：binder热压铸：hot injiection moulding6.3 非金属材料成型技术的新进展热压烧结：hot pressed sintering7 复合材料的成型技术复合材料：composite material树脂：resin7.1 金属复合材料的成型技术硼纤维：boron fiber钛合金：titanium alloy碳纤维：carbon filter等离子喷涂：plasma spraying浸渍法：immersion method锭坯：ingot blank7.2 聚合物基复合材料的成型技术晶须：whisker缠绕成形：enwind forming湿法缠绕：wet method enwind 7.3 陶瓷复合材料成型技术料浆：slurry溶胶-凝胶法：sol-gel method化学气相沉积：chemical vapor deposition (CVD)原位：in situ8 材料成型方法的选择粉末冶金：powder metallurgy工程塑料：engineering plastics工程陶瓷：engineering ceramics。

材料成型工艺基础部分中英文词汇对照模板材料成型工艺基础部分0 绪论金属材料: metal material (MR)高分子材料: high-molecular material陶瓷材料: ceramic material复合材料: composition material成形工艺: formation technology1 铸造铸造工艺: casting technique铸件: foundry goods ( casting)机器零件: machine part毛坯: blank力学性能: mechanical property砂型铸造: sand casting process型砂: foundry sand1.1 铸件成形理论基础合金: alloy铸造性能: casting property工艺性能: processing property收缩性: constringency偏析性: aliquation氧化性: oxidizability吸气性: inspiratory铸件结构: casting structure使用性能: service performance浇不足: misrun冷隔: cold shut夹渣: cinder inclusion粘砂: sand fusion缺陷: flaw, defect, falling流动性: flowing power铸型: cast (foundry mold)蓄热系数: thermal storage capacity 浇注: pouring凝固: freezing收缩性: constringency逐层凝固: layer-by-layer freezing 糊状凝固: mushy freezing结晶: crystal缩孔: shrinkage void缩松: shrinkage porosity顺序凝固: progressive solidification 冷铁: iron chill补缩: feeding等温线法: constant temperature line method 内接圆法: inscribed circle method铸造应力: casting stress变形: deforming裂纹: crack机械应力: mechanical stress热应力: heat stress相变应力: transformation stress气孔: blow hole铸铁: ingot铸钢: cast steel非铁合金: nonferrous alloy灰铸铁: gray cast-iorn孕育处理: inoculation球墨铸铁: spheroidal球化处理: sheroidisation可锻铸铁: ductile cast iron石墨: graphite蠕墨铸铁: vermicular cast iron热处理: heat processing铝合金: Al-alloy熔炼: fusion metallurgy铜合金: copper alloy氢脆: hydrogen brittleness1.2 铸造方法 ( casting method)手工造型: hand moulding机器造型: machine moulding金属型: metal mold casting金属模: permanent mould压力铸造: press casting熔模铸造: investment moulding蜡膜: cere离心铸造: centrifugal casting低压铸造: casting under low pressure 差压铸造: counter-pressure casting 陶瓷型铸造: shaw process1.3 铸造工艺设计浇注位置: pouring position分型面: mould joint活块: loose piece起模: patter drawing型芯: core型芯撑: chaplet工艺参数: processing parameter下芯: core setting合型: mould assembly冒口: casting head尺寸公差: dimensional tolerance尺寸公差带: tolerance zone机械加工余量: machining allowance 铸孔: core hole非标准: nonstandard label收缩率: rate of contraction线收缩: linear contraction体收缩: volume contraction起模斜度: pattern draft铸造圆角: curving of castings芯头: core register芯头间隙: clearance芯座: core print seat分型线: joint line分模线: die parting line1.4 铸造结构工艺性加强筋: rib reinforcement撒砂: stuccoing内腔: entocoele。

注塑英语大全成型工艺流程及条件介绍Molding technique procedure and parameter introduction 第一节成型工艺Section 1 molding technique.1.成型工艺参数类型Sorts of molding parameter.(1).注塑参数ction parameter.a.注射量ction rate.b.计量行程Screw back positionc.余料量Cushiond.防诞量Sucking back ratee.螺杆转速Screw speedf.塑化量Plastic0 rateg.预塑背压Screw back pressureh.注射压力和保压压力ction pressure and holding pressurei.注射速度ction speed(2)合模参数Clamping parametera.合模力Clamping forceb.合模速度Clamping speedc.合模行程.Clamping stroked.开模力Opening force e.开模速度Opening speed f.开模行程Opening positiong.顶出压力Ejector advance pressureh.顶出速度Ejector advance speedi.顶出行程Ejector advance position2.温控参数Temperature parametera.烘料温度Dry resin material temperatureb.料向与喷嘴温度Cylinder temperature and nozzle temperaturec.模具温度Mold temperatured.油温Oil temperature3.成型周期Molding cyclea.循环周期Cycle timeb.冷却时间Cool timec.注射时间ction timed.保压时间Holding pressure timee.塑化时间Plant timf.顶出及停留时间Knocking out and delay timeg.低压保护时间Mold protect time成型工艺参数的设定须根据产品的不同设置. Molding technique parameter setting differs depending on type of product第二节成型条件设定Section 2 Molding parameter Setting按成型步骤:可分为开锁模,加热,射出,顶出四个过程.Molding steps: mold opening/closing, heating ction and knocking out.开锁模条件: Mold opening parameter:快速段中速度High-speedmid-speed低压高压速度Low pressure high pressure speed锁模条件设定: Mold closing parameter setting1锁模一般分:快速→中速→低压→高压Mold closing: high-speed →low-speed →low pressure→high pressure。

成型工艺流程及条件介绍Molding technique procedure and parameter introduction第一節成型工艺Section 1 molding technique.1.成型工艺参数类型Sorts of molding parameter.(1). 注塑参数Injection parameter.a.注射量Injection rate.b.计量行程Screw back positionc.余料量Cushiond.防诞量Sucking back ratee.螺杆转速Screw speedf.塑化量Plastic0 rateg.预塑背压Screw back pressureh.注射压力和保压压力Injection pressure and holding pressurei.注射速度Injection speed(2)合模参数Clamping parametera.合模力Clamping forceb.合模速度Clamping speedc.合模行程.Clamping stroked.开模力Opening forcee.开模速度Opening speedf.开模行程Opening positiong.顶出压力Ejector advance pressureh.顶出速度Ejector advance speedi.顶出行程Ejector advance position2.温控参数Temperature parametera.烘料温度Dry resin material temperatureb.料向与喷嘴温度Cylinder temperature and nozzle temperaturec.模具温度Mold temperatured.油温Oil temperature3.成型周期Molding cyclea.循环周期Cycle timeb.冷却时间Cool timec.注射时间Injection timed.保压时间Holding pressure timee.塑化时间Plant timef.顶出及停留时间Knocking out and delay timeg.低压保护时间Mold protect time成型工艺参数的设定须根据产品的不同设置.Molding technique parameter setting differs depending on type of product第二节成型条件设定Section 2 Molding parameter Setting按成型步骤:可分为开锁模,加热,射出,顶出四个过程.Molding steps: mold opening/closing, heating injection and knocking out.开锁模条件:Mold opening parameter:快速段中速度低压高压速度High-speedmid-speedLow pressure high pressure speed锁模条件设定:Mold closing parameter setting1锁模一般分: 快速→中速→低压→高压Mold closing: high-speed →low-speed →low pressure→high pressure2.快锁模一般按模具情况分,如果是平面二板模具,快速锁模段可用较快速度,甚至于用到特快,当用到一般快速时,速度设到55-75%,完全平面模可设定到80-90%,如果用到特快就只能设定在45-55%,压力则可设定于50-75%,位置段视产品的深浅(或长短)不同,一般是开模宽度的1/3.In high-speed section, Mold closing speed depends on type of mold. For two –pla te mold it can set quick and even especially quick usually, it set speed within 55-75%. For full-plate mold it set speed within80-90% while using especially high sp eed it set speed within 45-55% and pressure within 50-75% position distance setti ng differs depending on the volume of product and usually it can be set 1/3 of m old opening position.3.中速段,在快速段结束后即转换成中速,中速的位置一般是到模板(包括三板模,二板模)合在一块为止,具体长度应视模板板间隔,速度一般设置在30%-50%间,压力则是2 0%-45%间.In mid-speed section: Mold closing speed changes into mid-speed after high-speed section finish. Mid-speed start position is where two plates meet (include three-plat e mold and two-plate mold ) Distance of mid-speed is up to distance of two plate s plate it speed within 30-50% and pressure 20-45%.4.低压设定,低速设定一般是在模板接触的一瞬间,具体位置就设在机台显示屏显示的一瞬间的数字为准,这个数字一般是以这点为标准,,即于此点则起不了高压,高于此点则大,轻易起高压.设定的速度一般是15%-25%,视乎不同机种而定,压力一般设定于1-2%,有些机则可设于5-15%,也是视乎不同机种不同.Low-pressure section: Mold closing sets low-pressure when plates meeting. This po sition is set to the data of machine screen on this time. This point is the gage of the data. Data lower the point there is no high-pressure. Data higher the point th ere is high-pressure easily. It set speed within 15-25% and pressure within 1-2% d epending on type within 1-2% depending on type of injection molding machine. 5.高压设定,按一般机台而言,高压位置机台在出厂时都已作了设定,相对来讲,是不可以随便更改的,比如震雄机在50P.速度相对低压略高,大约在30-35%左右,而压力则视乎模具而定,可在55-85%中取,比如完全平面之新模,模具排气良好,甚至于设在55%即可,如果是滑块较多,原来生产时毛边也较多,甚至于可设在90%还略显不足.High-pressure section: To normal injection molding machine, high-pressure position had been set before they were sent to customer. It can not be modified. For exa mple high-pressure position of CHENHSONG machine is 50P.The speed of high-pr essure section is about 30-35% and higher than that of low-pressure. The pressure is up to mold, it can set within 55-85% For full-plate mold, it’s eject air well, it can set pressure 55% .If mold has a lot of slides and flash rate high in producti on, pressure can set 90%.加热工艺条件设定Heating technique parameter setting1.加热段温度设定必须按照产品所使用的原料的不同而不同,但却必须遵循一个这样的规则,即由射口筒到进科段温度是逐步递减的.且递减温度是以10.度为单位.The proper temperature setting differs depending on type of resin material, but it must be abide by a rule that temperature setting should diminish in step 1０.C fr om nozzle to feeding resin material position.2特殊情况下.如料头抽丝,则射口筒温度应降低,如果是比较特殊的原料冷凝比较快的.则射口筒温度则不止比第二节法兰温度高10度.比如PPS. 尼龙等.Nozzle temperature setting should low if product line. If resin material such as PP S, PA, cool very soon , Nozzle temperature should higher more 10.C than the sec ond cylinder temperature.3.机台马达启动温度视乎机台不同而不同,一般出于对机台油路中的油封保护需要,油温最好能控制在40度-60度,以免油封长期高压而变化,缩短使用寿命,造成成型不稳定.Pump turning on temperature is different depending on type of injection molding machine. To protect oil seal of machine it set oil temperature within 40.C-60.C, Ifoil seal work on condition that high pressure and damaged It’s work time will be shorter, it can cause molding stable.第三节注射及熔胶(加料)工艺条件设定Injection and plastic Technique parameter setting一.注射Injection第四节常见塑料原料的有关温度值.原料Resin名称Name熔点℃Melt’s成型温度℃Molding Temperature(’c)分解温度℃Decomposing Temperature(‘C)模具温度℃Mold Temperature(‘c)干燥温度℃Resin dry temperature(‘c)注射是把塑料原料经加热后射进模腔的过程,它一般可分为第一级,第二级,第三级,第四级及保压几段:Injection is a step which inject melt resin material into mold. It consists of stepl,s tep2 ,step3,step4 and holding pressure step:1.第一级注射一般是注射料头段.具注射量一般可根据料头的轻重来估计其行程,当然也可以依据公式来计算,如公式:Step l injects usually tunnel material, Injection V olume can be estimated accordingto the weight of course it can be calculated by formula:L=Si=Vi/0.785Ds2L:注射行程; Si: 注射行程;L: injection stroke Si: injection strokeVi:理论注射容积; Ds:螺杆直径;Vi: injection volume of theoretical Ds: diameter of screw0.785:是Ω/4的值.0. 785: value of Ω/4.当然,如果我们在成型时每设定一个参数都要计算一次,要成型出一个产品就要几个小时才能完成了.But it cost a lot of time to produce one product if every time molding parameter is setting by calculation.2.第二级是注塑产品约2/3的阶段,当然,根据产品特殊需要,也允许成型不到2/3阶段,比如避免结合线问题,这一阶段的成型速度及压力一般是整个成型段的最大值段,如果排的产品与机台基本是相吻合的.模具结构合理,排气良好,这一段的压力一般也不会超过80%.速度侧视产品需变,可能大到95%也可,自然一般都是在55%-80%间. Step 2 inject 2/3 of product. It can lower 2/3 of product according to requirement of product. For example to prevent weld line. Molding speed and pressure on thi s step is the maximum of whole molding section. If Mold suit the injection moldi ng machine and mold structure reasonable and eject air well, pressure of this step should lower 80%. Molding speed setting within 55-80% but it may setting 95% for especial product.3.第三段是注射余下的1/3段,其速度和压力根据产品的需要,一般是小于第二段,速度和压力存在于一个往下降的过程.主要是为了防止产品毛边的产生,但同时又必须把产品充填饱满.Step3 inject remain 1/3 of product. According to product molding speed and press ure lower than that of step2 To prevent flash speed and pressure should decrease but it can’t shot short.4.第四段:一般有机台还有第五,第六段,这段的成型速度和压力相同前,都存在两段一个递减过程.其作用都是起到一个再次充满的作用.Step4 section: Some injection machines have step5,step6 which are same as former molding speed and pressure this step should diminish and inject once more.5.保压段:不论成型什么产品,都存在一个保压过程.任何产品都不同程度的存在一个厚薄不一的问题,正常情况下,较厚的部分都可能存在一个收缩凹陷的现象,为了解决这种现象,就应应用到保压,保压一般来讲都应用较慢的射速,而压力的设置则应看缩水的情况如何,小到25%,大到80%都有可能.Holding pressure step: No matter what product there is a holding pressure step. A ny product can’t molding a same thickness. Usually the deeper section may sink mark . To prevent this defect it should set holding pressure, The injection speed o f holding pressure step is slow but holding pressure setting within 25-80% dependi ng on sink mark.二.熔胶段工艺Plastic Technique1.再复杂的熔胶旋转过程最多不会超过三段,因为熔胶本身就是存在于把胶熔进料筒的过程,如果原料粘度大,熔胶压力则大,但速度则应取决于原料的分解温度,熔胶速度越快,原料中的剪切力则会越大,料管温度则越高,局部原料产生分解的可能性则会越大,故一般熔胶会采用中速为宜,如45%-75%,熔胶同时会碰到一个比较重要的环节,那就是背压的使用,产品精度要求越大,背压的使用则更大,背压可使原料分子间结构更紧密,成型出的产品则尺寸更稳定,外观越好.当然,背压太大,则会产生流涎,所以背压的使用又应考虙到其它原因.Plastic should lower 3 steps, because plastic is a step to add melt resin material t o cyclinder , Higher stick of resin material ,higher screw back pressure. Screw sp eed differs depending on decomposing temperature of resin material ,Higher screw speed ,Higher trim force of resin, higher cyclinder temperature. Some resin mater ial may decomposes so it set screw speed in mid-speed such as 45-75%, In plasti c step setting screw back pressure is very important, Higher screw back pressure , higher quality of product screw back pressure make resin structure order, Molding product is beautiful and volume stable. But ,it maybe flow if screw back pressure too high . So all factors should be considered when using screw back pressure.2.熔胶过程还有一个比较重要的环节,那就是松退,松退分前松退和后松退,其作用一般是为了防止流涎和抽丝,设定值速度和压力都在20%-50%间,设定的行程一般在2-5cm间,太长的行程可能会使料筒里面贮存空气,导致下一模出现不期望的气泡.In plastic step sucking back is very important too. Sucking back include front suc king back and back sucking back It setting sucking back to prevent flow and line. It sets sucking back speed and pressure within 20-50% and distance within 2-5c m. TOO long distance make cyclinder reserve air and cause bubble at next moldin g.顶出的工艺设定knocking out technique setting产品经冷却定型后则有一个开模的过程,开模基本上是合模的反过程.开模的未段则有一个慢速设置,开模完成后,产品必须顶出的过程.There is a mold opening step after product cooling taking shape. Mold opening is a reverse step of mold closing. The last step of mold opening speed set slow. Pr oduct should be knocked out after mold opened.一.顶前:Knocking out顶前最好分两个阶级,第一阶可分为中压慢速,即是把产品轻轻顶出一部分,然后是中压中速顶,中压中速一般指的是35%-55%,而低速则有可能低到5%,这需视产品不同而言,顶出行程设定是顶出长度稍比产品垂直深度大1-2cm即可.Knocking out includes two steps, Step1 section setting mid-speed, knocks product out partly step2 section setting mid-pressure and mid-speed . Depending on differe nt product, mid-pressure and mid-speed sets within 35-55% but low-speed can set 5%. Distance of knocking out longer 1-2cm than the vertical thickness of product.二.退针Back顶退包括两个过程与顶落的过程基本一致,顶退的终点应预留1-3cm的空间,以保护顶针油管不被顶坏.The same as knocking out, ejector back includes 2 steps. To protect the ejector oi l jar, it should make a 1-3mm distance in the ending point of ejector back.三.顶针方式还包括一个多次顶,单次顶及顶针停留的选择,机械手取产品,脱模顺利的情况都采取多项,为了顶针油缸寿命的延长,多次顶就以不超过三次为宜,顶针停留一般用在顶针带着产品退回有可能对增品产生损伤的模具,同时为配合机械手使用,有时也需要较短的顶针停留.The way of knocking out includes knocking out once, Knocking out repeat and ej ector delay. Take product by manipulator or take product easy, it should select kn ocking out once. To longer the work time of ejector oiljar, times of knocking out lower 3 times. Ejector delay used when product will be damaged if ejector back or suit manipulator.成型时间的设定Molding time setting在保证产品质量的前提下,周期时间是越短越好,周期时间又包括如下几项:射胶时间,保压时间,熔胶时间,冷却时间,顶出时间,锁模低压时间,甚至乎关系到时间因素的还有还开模与锁模,及顶出的快慢.Cycle time should shorter on condition that product quality well. Cycle time inclu des: injection time , holding pressure time, plastic time, cure time, knocking out ti me and mold protect time. Even mold opening closing sopeed and knocking out s peed affect cycle.1. 射胶时间包含保压时间,一般看起来,射胶时间越长,产品越饱和,但我们在讲求质量时,同时也须考虑产能,更何况,射胶时间过长,有可能会造成产品过于饱满而寻致粘模顶的变形呎寸偏大等一系列问题,故我们在设置射胶时间时应综合考虑,尽量在合乎质量要求时缩短射胶时间.Injection time consists holding pressure time. Longer injection time, fuller product, we should consider production quantity when we suit for quality. If injection tim e too long, it may cause a series of defects suck as flash strain. So all sorts of f actors should be considered, injection time should be shout if quality suit for requ irement.2. 熔胶时间的长短取决于熔胶速度设定的快慢,背压设定的大小,但有一点,熔胶时间控制的长短一定要比冷却时间短.Plastic time depends on plastic speed and screw back pressure, but plastic time m ust shorter than cure time.3. 冷却时间:冷却时间的长短直接影响到成型的周期,冷却时间越长,成型时间就越长,造成产能就越低,故我们在设定高压冷却时间时,只要能保证到产品成型顺利,不会直接影响到变形等问题,设定的时间也是越短越好.Cure time: Cure time affects molding cycle. Longer cure time, longer molding cyc le, lower production quantity. So it sets cure time short on condition that product molding succed and can’t deformation..4. 在大量使用机械手的塑胶公司,我们的顶出时间一般是与机械手配合为宜,全自动使用机械手时顶出停留时间一般保持1.5-2秒,半自动生产,如因顶针退回会导致产品掉落或卡紧,而取不下产品,停留时间则应保持5秒左右.In PCE company, for using manipulator in abundence , knocking out time suits m anipulator, Knocking out delay keeps 1.5-2 second when using manipulator full-ma nipulator, knocking out delay keeps about 5 second when using manipulator semi-manipulator and product will fall or can’t be taken off if ejector back.5. 低压保护时间对保护我们人身安全,模具安全起很大作用,配合好模具低压位置和低压压力的调整,低压保护的时间应取1-3秒,保护时间越短,可能造成的危害则越小. Low-pressure protect is very important for safety and protect mold, Mold protect t ime should adjust within 1-3 second suit low pressure and position of mold protect, shorter protect time, make damaged.。

材料成型工艺基础部分中英文词汇对照Document serial number【NL89WT-NY98YT-NC8CB-NNUUT-NUT108】材料成型工艺基础部分0绪论金属材料：metalmaterial(MR)高分子材料：high-molecularmaterial陶瓷材料：ceramicmaterial复合材料：compositionmaterial成形工艺：formationtechnology1铸造铸造工艺：castingtechnique铸件：foundrygoods（casting）机器零件：machinepart毛坯：blank力学性能：mechanicalproperty砂型铸造：sandcastingprocess型砂：foundrysand1.1铸件成形理论基础合金：alloy铸造性能：castingproperty工艺性能：processingproperty收缩性：constringency偏析性：aliquation氧化性：oxidizability吸气性：inspiratory铸件结构：castingstructure使用性能：serviceperformance浇不足：misrun冷隔：coldshut夹渣：cinderinclusion粘砂：sandfusion缺陷：flaw,defect,falling流动性：flowingpower铸型：cast(foundrymold)蓄热系数：thermalstoragecapacity浇注：pouring凝固：freezing收缩性：constringency逐层凝固：layer-by-layerfreezing糊状凝固：mushyfreezing结晶：crystal缩孔：shrinkagevoid缩松：shrinkageporosity顺序凝固：progressivesolidification冷铁：ironchill补缩：feeding等温线法：constanttemperaturelinemethod内接圆法：inscribedcirclemethod 铸造应力：castingstress变形：deforming裂纹：crack机械应力：mechanicalstress热应力：heatstress相变应力：transformationstress 气孔：blowhole铸铁：ingot铸钢：caststeel非铁合金：nonferrousalloy灰铸铁：graycast-iorn孕育处理：inoculation球墨铸铁：spheroidal球化处理：sheroidisation可锻铸铁：ductilecastiron石墨：graphite蠕墨铸铁：vermicularcastiron热处理：heatprocessing铝合金：Al-alloy熔炼：fusionmetallurgy铜合金：copperalloy氢脆：hydrogenbrittleness1.2铸造方法（castingmethod）手工造型：handmoulding机器造型：machinemoulding金属型：metalmoldcasting金属模：permanentmould压力铸造：presscasting熔模铸造：investmentmoulding蜡膜：cere离心铸造：centrifugalcasting低压铸造：castingunderlowpressure 差压铸造：counter-pressurecasting 陶瓷型铸造：shawprocess1.3铸造工艺设计浇注位置：pouringposition分型面：mouldjoint活块：loosepiece起模：patterdrawing型芯：core型芯撑：chaplet工艺参数：processingparameter下芯：coresetting合型：mouldassembly冒口：castinghead尺寸公差：dimensionaltolerance 尺寸公差带：tolerancezone机械加工余量：machiningallowance 铸孔：corehole非标准：nonstandardlabel收缩率：rateofcontraction线收缩：linearcontraction体收缩：volumecontraction起模斜度：patterndraft铸造圆角：curvingofcastings芯头：coreregister芯头间隙：clearance芯座：coreprintseat分型线：jointline分模线：diepartingline1.4铸造结构工艺性加强筋：ribreinforcement撒砂：stuccoing内腔：entocoele2金属塑性加工塑性加工：plasticworking塑性：plasticproperty锻造：forgework冲压：punching轧制：rolling拉拔：drawing挤压：extruding细化晶粒：grainrefinement热锻：hit-forging温锻：warmforging2.1金属塑性加工理论基础塑性变形：plasticyield加工硬化：work-hardening韧性：ductility回复温度：returntemperature再结晶：recrystallize再结晶退火：fullannealing冷变形：colddeformation热变性：heatdenaturation锻造比：forgingratio镦粗：upset拔长：pullout纤维组织：fibroustissue锻造性能：forgingproperty可锻性：forgeability变形抗力：resistanceofdeformation化学成分：chemicalconstitution热脆性：hotbrittleness冷脆性：cold-shortness变形速度：deformationvelocity应力状态：stresscondition变形温度：deformationtemperature过热：overheating过烧：burning脱碳：carbonelimination始锻温度：initiationforgingtemperature 终锻温度：finalforgingtemperature2.2金属塑性加工方法自由锻：flat-diehammer冲孔：jetting弯曲：bend弯曲半径：bendingradius切割：cut扭转：twistrotation错移：offsetting锻接：percussion基本工序：basicprocess辅助工序：auxiliaryprocess精整工序：finishingprocess模锻：contourforging锻模：forgingdie胎膜锻：fetalmembraneforging剪床：shearingmachine冲床：backing-outpunch冲裁：blanking弹性变形：elasticdistortion塑性变形：plasticyield剪切变形：shearingdeformation最小弯曲半径：minimumbendingradius 曲率：angularity弯裂：rupture回弹：rebound辊轧：rollforming辊锻：rollforging斜轧：obliquerolling横轧：transverserolling辗压：tampingdrum挤压：extruding拉拔：draft2.3塑性加工工艺设计工艺规程：processspecification锻件图：forgingdrawing敷料：dressing锻件余量：forgingallowance锻件公差：forgingtolerance工夹具：clampingapparatus加热设备：firingequipment加热规范：heatingschedule冷却规范：coolingschedule后续处理：aftertreatment分模面：diepartingface冲孔连皮：punchingthewad模锻斜度：draftangle圆角半径：radiusofcorner圆饼类锻件：circumcresentcake-likeforging 长轴类锻件：longaxis-likeforging2.4锻件结构工艺性锥体：cone斜面：cant空间曲线：curveinspace粗糙度：degreeofroughness2.5冲压件结构工艺性3焊接焊接：welding铆接：riverting熔焊：fusionwelding压焊：presswelding钎焊：brazewelding3.1焊接理论基础冶金：metallurgy电弧焊：arcwelding气焊：acetylenewelding电渣焊：electro-slagwelding高能束焊：highenergywelding电子焊：electronicwelding激光焊：laserwelding等离子焊：plasmawelding电弧：electricarc阳极区：anoderegion阴极区：negativepolarity弧柱区：arcstream正接法：electrodenegativemethod 反接法：oppositionmethod脱氧剂：deoxidizingagent焊缝：weldedseam焊缝区：weldzone熔合区：fusionarea热影响区：heat-affectedzone脆性断裂：brittlefracture过热区：overheatedzone正火区：normalizedzone相变区：phasechangezone焊接应力：weldingstress收缩变形：contractiondistortion角变形：angulardeformation弯曲变形：benddeformation扭曲变形：warpingdeformation波浪变形：wavetransformation反变形法：reversibledeformationmethod刚性固定法：rigidfixingmethod预热：warming-up缓冷：slowcool焊后热处理：postweldheattreatment矫形处理：shape-righting3.2焊接方法埋弧焊：hiddenarcwelding气体保护焊：gasshieldedarcwelding氩弧焊：argonwelding熔化极氩弧焊：consumableelectrodeargonwelding 钨极氩弧焊：argontungsten-arcwelding二氧化碳气体保护焊：CO2gasshieldedarcwelding碳弧焊：carbonarcwelding碳弧气刨：carbonarcairgouging电渣焊：electro-slagwelding高能焊：highgradeenergywelding等离子弧切割：plasmaarccutting(PAC)堆焊：beadweld电阻焊：resistancewelding电焊：electricwelding缝焊：seamwelding压焊：presswelding多点凸焊：multipleprojectionwelding 对焊：weldingneck摩擦焊：frictionwelding扩散焊：diffusionwelding硬钎料：brazingalloy软钎料：softsolder3.3常用金属材料的焊接焊接性：weldability焊接方法：weldingmethod焊接材料：weldingmaterial焊条：electrode焊剂：fluxmaterial碳素钢：carbonsteel低碳钢：lowcarbonsteel中碳钢：mediumcarbonsteel高碳钢：highcarbonsteel低合金钢：leanalloysteel不锈钢：non-corrosivesteel有色金属：nonferrousmetal3.4焊接工艺设计型材：sectionalbar药皮：coating焊丝：solderingwire连续焊缝：continuousweld断续焊缝：intermittentweld应力集中：stressconcentration焊接接头：solderedjoint坡口：groove对接：abuttingjoint搭接：lapjoint角接：cornerjoint4粉末冶金（powermetallurgy）粉末冶金成品：finishedpowermetallurgicalproduct 铁氧体：ferrite硬质合金：sintered-carbide高熔点金属：high-meltingmetal陶瓷：ceramic4.1粉末冶金工艺理论基础压坯：pressedcompact扩散：diffusion烧结：agglomeration固溶：solidsolubility化合：combination4.2粉末冶金的工艺流程制备：preparation预处理：anticipation还原法：reductionmethod电解法：electrolyticmethod 雾化法：atomization粒度：grainsize松装密度：loosedensity流动性：flowingpower压缩性：compressibility筛分：screenseparation混合：compounding制粒：pelletization过烧：superburning欠烧：underburnt5金属复合成型技术自蔓延焊接：SHSwelding热等静压：HIP准热等静压：PHIP5.1液态成型技术与固态成型技术的复合高压铸造：high-pressurecasting电磁泵：magnetic-pump压射成型：injectionmolding柱塞：plungerpiston冲头：driftpin凝固法：freezingmethod挤压法：extrusionmethod转向节：knucklepivot制动器：arrestinggear5.2金属半凝固、半熔融成型技术凝固：freezing半熔融：semi-vitreous触变铸造：thixotropycasting触变锻造：thixotropyforging注射成型：injectionmolding5.3其他金属成型新技术快速凝固：flashset非晶态：amorphous溢流法：pressoversystem喷射沉积：ejectingdeposit爆炸复合法：explosioncladdingmethod 扩散焊接：diffusionwelding挤压：extruding轧制：rolldown6非金属材料成型技术6.1高分子材料成型技术高分子材料：non-metalmaterial耐腐蚀：resistantmaterial绝缘：insulation老化：ageing耐热性：heat-durability粘弹性：viscoelasticity塑料：plasticmaterial橡胶：rubber合成纤维：syntheticfibre涂料：coveringmaterial粘结剂：agglomerant粘度：viscosity热塑性塑料：thermoplasticplastics 热固性塑料：thermosettingplastic通用塑料：general-purposeplastics 工程塑料：engineeringplastic薄膜：thinfilm增强塑料：reinforcedplastics 浇注塑料：pouringplastics注射塑料：injiectionplastics 挤出塑料：extrusionplastics 吹塑塑料：blowingplastics模压塑料：diepressingplastics 聚合物：ploymersemiconductor 吸湿性：hygroscopiccargo定向作用：directionalaction 生胶：greengluestock填料：carrier丁苯橡胶：SBR顺丁橡胶：BR氯丁橡胶：CR丁腈橡胶：NBR硅橡胶：Q聚氨酯橡胶：U压延：calender硫化：sulfuration胶粘剂：adhesive胶接：gluejoint刹车片：brakeblock零件修复：partsrenewal蜂窝夹层：honeycombcorematerial 6.2工业陶瓷制品的成型技术干燥：drying坯料：blank润滑剂：anti-friction结合剂：binder热压铸：hotinjiectionmoulding 6.3非金属材料成型技术的新进展热压烧结：hotpressedsintering 7复合材料的成型技术复合材料：compositematerial树脂：resin7.1金属复合材料的成型技术硼纤维：boronfiber钛合金：titaniumalloy碳纤维：carbonfilter等离子喷涂：plasmaspraying浸渍法：immersionmethod锭坯：ingotblank7.2聚合物基复合材料的成型技术晶须：whisker缠绕成形：enwindforming湿法缠绕：wetmethodenwind7.3陶瓷复合材料成型技术料浆：slurry溶胶-凝胶法：sol-gelmethod化学气相沉积：chemicalvapordeposition(CVD)原位：insitu8材料成型方法的选择粉末冶金：powdermetallurgy工程塑料：engineeringplastics工程陶瓷：engineeringceramics。

材料成型工艺基础部分0 绪论金属材料：metal material (MR)高分子材料：high-molecular material 陶瓷材料：ceramic material复合材料：composition material成形工艺：formation technology1 铸造铸造工艺：casting technique铸件：foundry goods （casting）机器零件：machine part毛坯：blank力学性能：mechanical property砂型铸造：sand casting process型砂：foundry sand1.1 铸件成形理论基础合金：alloy铸造性能：casting property工艺性能：processing property 收缩性：constringency偏析性：aliquation氧化性：oxidizability吸气性：inspiratory铸件结构：casting structure使用性能：service performance浇不足：misrun冷隔：cold shut夹渣：cinder inclusion 粘砂：sand fusion缺陷：flaw, defect, falling流动性：flowing power 铸型：cast (foundry mold) 蓄热系数：thermal storage capacity浇注：pouring凝固：freezing收缩性：constringency逐层凝固：layer-by-layer freezing糊状凝固：mushy freezing结晶：crystal缩孔：shrinkage void缩松：shrinkage porosity顺序凝固：progressive solidification冷铁：iron chill补缩：feeding等温线法：constant temperature line method内接圆法：inscribed circle method铸造应力：casting stress变形：deforming裂纹：crack机械应力：mechanical stress热应力：heat stress相变应力：transformation stress气孔：blow hole 铸铁：ingot铸钢：cast steel非铁合金：nonferrous alloy灰铸铁：gray cast-iorn孕育处理：inoculation 球墨铸铁：spheroidal球化处理：sheroidisation可锻铸铁：ductile cast iron石墨：graphite蠕墨铸铁：vermicular cast iron热处理：heat processing熔炼：fusion metallurgy铜合金：copper alloy氢脆：hydrogen brittleness1.2 铸造方法（casting method）手工造型：hand moulding机器造型：machine moulding金属型：metal mold casting金属模：permanent mould压力铸造：press casting熔模铸造：investment moulding蜡膜：cere离心铸造：centrifugal casting低压铸造：casting under low pressure差压铸造：counter-pressure casting陶瓷型铸造：shaw process 1.3 铸造工艺设计浇注位置：pouring position分型面：mould joint活块：loose piece起模：patter drawing型芯：core型芯撑：chaplet工艺参数：processing parameter下芯：core setting合型：mould assembly冒口：casting head 尺寸公差：dimensional tolerance尺寸公差带：tolerance zone机械加工余量：machining allowance铸孔：core hole非标准：nonstandard label 收缩率：rate of contraction线收缩：linear contraction体收缩：volume contraction起模斜度：pattern draft铸造圆角：curvingof castings芯头：core register芯头间隙：clearance芯座：core print seat 分型线：joint line分模线：die parting line1.4 铸造结构工艺性加强筋：rib reinforcement撒砂：stuccoing内腔：entocoele2 金属塑性加工塑性加工：plastic working塑性：plastic property锻造：forge work冲压：punching轧制：rolling拉拔：drawing挤压：extruding细化晶粒：grain refinement热锻：hit-forging温锻：warm forging 2.1 金属塑性加工理论基础塑性变形：plastic yield加工硬化：work-hardening韧性：ductility回复温度：return temperature再结晶：recrystallize再结晶退火：full annealing冷变形：cold deformation热变性：heat denaturation锻造比：forging ratio镦粗：upset拔长：pull out纤维组织：fibrous tissue 锻造性能：forging property可锻性：forgeability变形抗力：resistance of deformation化学成分：chemical constitution热脆性：hot brittleness 冷脆性：cold-shortness变形速度：deformation velocity应力状态：stress condition变形温度：deformation temperature过热：overheating过烧：burning脱碳：carbon elimination始锻温度：initiation forging temperature终锻温度：final forging temperature2.2 金属塑性加工方法自由锻：flat-die hammer冲孔：jetting弯曲：bend弯曲半径：bending radius切割：cut扭转：twist rotation错移：offsetting锻接：percussion基本工序：basic process辅助工序：auxiliary process精整工序：finishing process模锻：contour forging锻模：forging die 胎膜锻：fetal membrane forging剪床：shearing machine冲床：backing-out punch冲裁：blanking弹性变形：elastic distortion塑性变形：plastic yield剪切变形：shearing deformation最小弯曲半径：minimum bending radius曲率：angularity弯裂：rupture 回弹：rebound辊轧：roll forming辊锻：roll forging斜轧：oblique rolling 横轧：transverse rolling辗压：tamping drum挤压：extruding拉拔：draft2.3 塑性加工工艺设计工艺规程：process specification锻件图：forging drawing敷料：dressing锻件余量：forging allowance锻件公差：forging tolerance 工夹具：clamping apparatus加热设备：firing equipment加热规范：heating schedule冷却规范：cooling schedule后续处理：after treatment分模面：die parting face冲孔连皮：punching the wad模锻斜度：draft angle圆角半径：radius of corner圆饼类锻件：circumcresent cake-like forging长轴类锻件：long axis-like forging2.4 锻件结构工艺性锥体：cone斜面：cant空间曲线：curve in space粗糙度：degree of roughness2.5 冲压件结构工艺性3 焊接焊接：welding铆接：riverting熔焊：fusion welding压焊：press welding 钎焊：braze welding3.1 焊接理论基础冶金：metallurgy电弧焊：arc welding气焊：acetylene welding电渣焊：electro-slag welding高能束焊：high energy welding电子焊：electronic welding激光焊：laser welding等离子焊：plasma welding 电弧：electric arc阳极区：anode region阴极区：negative polarity弧柱区：arc stream正接法：electrode negative method反接法：opposition method脱氧剂：deoxidizing agent焊缝：welded seam 焊缝区：weld zone熔合区：fusion area热影响区：heat-affected zone 脆性断裂：brittle fracture过热区：overheated zone正火区：normalized zone相变区：phase change zone焊接应力：welding stress收缩变形：contraction distortion角变形：angular deformation弯曲变形：bend deformation扭曲变形：warping deformation波浪变形：wave transformation反变形法：reversible deformation method刚性固定法：rigid fixing method预热：warming-up缓冷：slow cool焊后热处理：postweld heat treatment 矫形处理：shape-righting3.2 焊接方法埋弧焊：hidden arc welding气体保护焊：gas shielded arc welding氩弧焊：argon welding熔化极氩弧焊：consumable electrode argon welding钨极氩弧焊：argon tungsten-arc welding二氧化碳气体保护焊：CO2 gas shielded arc welding碳弧焊：carbon arc welding碳弧气刨：carbon arc air gouging电渣焊：electro-slag welding 高能焊：high grade energy welding等离子弧切割：plasma arc cutting (PAC)堆焊：bead weld电阻焊：resistance welding电焊：electric welding缝焊：seam welding压焊：press welding多点凸焊：multiple projection welding对焊：welding neck摩擦焊：friction welding扩散焊：diffusion welding硬钎料：brazing alloy软钎料：soft solder3.3 常用金属材料的焊接焊接性：weldability焊接方法：welding method焊接材料：welding material焊条：electrode焊剂：flux material碳素钢：carbon steel低碳钢：low carbon steel中碳钢：medium carbon steel高碳钢：high carbon steel低合金钢：lean alloy steel不锈钢：non-corrosive steel有色金属：nonferrous metal3.4 焊接工艺设计型材：sectional bar药皮：coating焊丝：soldering wire连续焊缝：continuous weld断续焊缝：intermittent weld应力集中：stress concentration焊接接头：soldered joint坡口：groove对接：abutting joint搭接：lap joint角接：corner joint 4 粉末冶金（power metallurgy）粉末冶金成品：finished power metallurgical product铁氧体：ferrite硬质合金：sintered-carbide高熔点金属：high-melting metal陶瓷：ceramic4.1 粉末冶金工艺理论基础压坯：pressed compact扩散：diffusion烧结：agglomeration固溶：solid solubility化合：combination4.2 粉末冶金的工艺流程制备：preparation预处理：anticipation还原法：reduction method电解法：electrolytic method雾化法：atomization松装密度：loose density 流动性：flowing power压缩性：compressibility筛分：screen separation 混合：compounding制粒：pelletization过烧：superburning欠烧：underburnt5 金属复合成型技术自蔓延焊接：SHS welding热等静压：HIP准热等静压：PHIP5.1 液态成型技术与固态成型技术的复合高压铸造：high-pressure casting电磁泵：magnetic-pump压射成型：injection molding柱塞：plunger piston冲头：drift pin凝固法：freezing method挤压法：extrusion method转向节：knuckle pivot制动器：arresting gear5.2 金属半凝固、半熔融成型技术凝固：freezing半熔融：semi-vitreous触变铸造：thixotropy casting触变锻造：thixotropy forging注射成型：injection molding5.3 其他金属成型新技术快速凝固：flash set非晶态：amorphous溢流法：press over system喷射沉积：ejecting deposit爆炸复合法：explosion cladding method扩散焊接：diffusion welding挤压：extruding轧制：roll down6 非金属材料成型技术6.1 高分子材料成型技术高分子材料：non-metal material耐腐蚀：resistant material绝缘：insulation老化：ageing耐热性：heat-durability粘弹性：viscoelasticity塑料：plastic material橡胶：rubber合成纤维：synthetic fibre涂料：covering material粘结剂：agglomerant 粘度：viscosity热塑性塑料：thermoplastic plastics热固性塑料：thermosetting plastic通用塑料：general-purpose plastics 工程塑料：engineering plastic薄膜：thin film增强塑料：reinforced plastics浇注塑料：pouring plastics注射塑料：injiection plastics挤出塑料：extrusion plastics吹塑塑料：blowing plastics模压塑料：die pressing plastics聚合物：ploymer semiconductor吸湿性：hygroscopic cargo定向作用：directional action生胶：green glue stock填料：carrier丁苯橡胶：SBR顺丁橡胶：BR 氯丁橡胶：CR丁腈橡胶：NBR硅橡胶：Q聚氨酯橡胶：U压延：calender硫化：sulfuration胶粘剂：adhesive胶接：glue joint刹车片：brake block零件修复：parts renewal蜂窝夹层：honeycomb core material6.2 工业陶瓷制品的成型技术干燥：drying坯料：blank润滑剂：anti-friction结合剂：binder热压铸：hot injiection moulding6.3 非金属材料成型技术的新进展热压烧结：hot pressed sintering7 复合材料的成型技术复合材料：composite material树脂：resin7.1 金属复合材料的成型技术硼纤维：boron fiber钛合金：titanium alloy碳纤维：carbon filter等离子喷涂：plasma spraying浸渍法：immersion method锭坯：ingot blank7.2 聚合物基复合材料的成型技术晶须：whisker缠绕成形：enwind forming湿法缠绕：wet method enwind 7.3 陶瓷复合材料成型技术料浆：slurry溶胶-凝胶法：sol-gel method化学气相沉积：chemical vapor deposition (CVD)原位：in situ8 材料成型方法的选择粉末冶金：powder metallurgy工程塑料：engineering plastics工程陶瓷：engineering ceramics。

材料成型工艺基础部分中英文词汇对照材料成型工艺基础部分中英文词汇对照Document serial number【NL89WT-NY98YT-NC8CB-NNUUT-NUT108】材料成型工艺基础部分0绪论金属材料：metalmaterial(MR)高分子材料：high-molecularmaterial陶瓷材料：ceramicmaterial复合材料：compositionmaterial成形工艺：formationtechnology1铸造铸造工艺：castingtechnique铸件：foundrygoods（casting）机器零件：machinepart毛坯：blank力学性能：mechanicalproperty砂型铸造：sandcastingprocess型砂：foundrysand1.1铸件成形理论基础合金：alloy铸造性能：castingproperty工艺性能：processingproperty收缩性：constringency偏析性：aliquation氧化性：oxidizability吸气性：inspiratory铸件结构：castingstructure使用性能：serviceperformance浇不足：misrun冷隔：coldshut夹渣：cinderinclusion粘砂：sandfusion缺陷：flaw,defect,falling流动性：flowingpower铸型：cast(foundrymold)蓄热系数：thermalstoragecapacity浇注：pouring凝固：freezing收缩性：constringency逐层凝固：layer-by-layerfreezing糊状凝固：mushyfreezing结晶：crystal缩孔：shrinkagevoid缩松：shrinkageporosity顺序凝固：progressivesolidification冷铁：ironchill补缩：feeding等温线法：constanttemperaturelinemethod内接圆法：inscribedcirclemethod 铸造应力：castingstress 变形：deforming裂纹：crack机械应力：mechanicalstress热应力：heatstress相变应力：transformationstress 气孔：blowhole铸铁：ingot铸钢：caststeel非铁合金：nonferrousalloy灰铸铁：graycast-iorn孕育处理：inoculation球墨铸铁：spheroidal球化处理：sheroidisation可锻铸铁：ductilecastiron石墨：graphite蠕墨铸铁：vermicularcastiron热处理：heatprocessing铝合金：Al-alloy熔炼：fusionmetallurgy铜合金：copperalloy氢脆：hydrogenbrittleness1.2铸造方法（castingmethod）手工造型：handmoulding机器造型：machinemoulding金属型：metalmoldcasting金属模：permanentmould压力铸造：presscasting熔模铸造：investmentmoulding蜡膜：cere离心铸造：centrifugalcasting低压铸造：castingunderlowpressure 差压铸造：counter-pressurecasting 陶瓷型铸造：shawprocess1.3铸造工艺设计浇注位置：pouringposition分型面：mouldjoint活块：loosepiece起模：patterdrawing型芯：core型芯撑：chaplet工艺参数：processingparameter下芯：coresetting合型：mouldassembly冒口：castinghead尺寸公差：dimensionaltolerance 尺寸公差带：tolerancezone 机械加工余量：machiningallowance 铸孔：corehole非标准：nonstandardlabel收缩率：rateofcontraction线收缩：linearcontraction体收缩：volumecontraction起模斜度：patterndraft铸造圆角：curvingofcastings芯头：coreregister芯头间隙：clearance芯座：coreprintseat分型线：jointline分模线：diepartingline1.4铸造结构工艺性加强筋：ribreinforcement撒砂：stuccoing内腔：entocoele2金属塑性加工塑性加工：plasticworking塑性：plasticproperty锻造：forgework冲压：punching轧制：rolling拉拔：drawing挤压：extruding细化晶粒：grainrefinement热锻：hit-forging温锻：warmforging2.1金属塑性加工理论基础塑性变形：plasticyield加工硬化：work-hardening韧性：ductility回复温度：returntemperature再结晶：recrystallize再结晶退火：fullannealing冷变形：colddeformation热变性：heatdenaturation锻造比：forgingratio镦粗：upset拔长：pullout纤维组织：fibroustissue锻造性能：forgingproperty可锻性：forgeability变形抗力：resistanceofdeformation化学成分：chemicalconstitution热脆性：hotbrittleness冷脆性：cold-shortness变形速度：deformationvelocity应力状态：stresscondition变形温度：deformationtemperature过热：overheating过烧：burning脱碳：carbonelimination始锻温度：initiationforgingtemperature 终锻温度：finalforgingtemperature2.2金属塑性加工方法自由锻：flat-diehammer冲孔：jetting弯曲：bend弯曲半径：bendingradius切割：cut扭转：twistrotation错移：offsetting锻接：percussion基本工序：basicprocess辅助工序：auxiliaryprocess精整工序：finishingprocess模锻：contourforging锻模：forgingdie胎膜锻：fetalmembraneforging剪床：shearingmachine冲床：backing-outpunch冲裁：blanking弹性变形：elasticdistortion塑性变形：plasticyield剪切变形：shearingdeformation最小弯曲半径：minimumbendingradius 曲率：angularity 弯裂：rupture回弹：rebound辊轧：rollforming辊锻：rollforging斜轧：obliquerolling横轧：transverserolling辗压：tampingdrum挤压：extruding拉拔：draft2.3塑性加工工艺设计工艺规程：processspecification锻件图：forgingdrawing敷料：dressing锻件余量：forgingallowance锻件公差：forgingtolerance工夹具：clampingapparatus加热设备：firingequipment加热规范：heatingschedule冷却规范：coolingschedule后续处理：aftertreatment分模面：diepartingface冲孔连皮：punchingthewad模锻斜度：draftangle圆角半径：radiusofcorner圆饼类锻件：circumcresentcake-likeforging 长轴类锻件：longaxis-likeforging2.4锻件结构工艺性锥体：cone斜面：cant空间曲线：curveinspace粗糙度：degreeofroughness2.5冲压件结构工艺性3焊接焊接：welding铆接：riverting熔焊：fusionwelding压焊：presswelding钎焊：brazewelding3.1焊接理论基础冶金：metallurgy电弧焊：arcwelding气焊：acetylenewelding电渣焊：electro-slagwelding高能束焊：highenergywelding电子焊：electronicwelding激光焊：laserwelding等离子焊：plasmawelding电弧：electricarc阳极区：anoderegion阴极区：negativepolarity弧柱区：arcstream正接法：electrodenegativemethod 反接法：oppositionmethod脱氧剂：deoxidizingagent焊缝：weldedseam焊缝区：weldzone熔合区：fusionarea热影响区：heat-affectedzone脆性断裂：brittlefracture过热区：overheatedzone正火区：normalizedzone相变区：phasechangezone焊接应力：weldingstress收缩变形：contractiondistortion角变形：angulardeformation弯曲变形：benddeformation扭曲变形：warpingdeformation波浪变形：wavetransformation反变形法：reversibledeformationmethod刚性固定法：rigidfixingmethod预热：warming-up缓冷：slowcool焊后热处理：postweldheattreatment矫形处理：shape-righting3.2焊接方法埋弧焊：hiddenarcwelding气体保护焊：gasshieldedarcwelding氩弧焊：argonwelding熔化极氩弧焊：consumableelectrodeargonwelding 钨极氩弧焊：argontungsten-arcwelding二氧化碳气体保护焊：CO2gasshieldedarcwelding碳弧焊：carbonarcwelding碳弧气刨：carbonarcairgouging电渣焊：electro-slagwelding高能焊：highgradeenergywelding等离子弧切割：plasmaarccutting(PAC)堆焊：beadweld电阻焊：resistancewelding电焊：electricwelding缝焊：seamwelding压焊：presswelding多点凸焊：multipleprojectionwelding 对焊：weldingneck摩擦焊：frictionwelding扩散焊：diffusionwelding硬钎料：brazingalloy软钎料：softsolder3.3常用金属材料的焊接焊接性：weldability焊接方法：weldingmethod焊接材料：weldingmaterial焊条：electrode焊剂：fluxmaterial碳素钢：carbonsteel低碳钢：lowcarbonsteel中碳钢：mediumcarbonsteel高碳钢：highcarbonsteel低合金钢：leanalloysteel不锈钢：non-corrosivesteel有色金属：nonferrousmetal3.4焊接工艺设计型材：sectionalbar药皮：coating焊丝：solderingwire连续焊缝：continuousweld断续焊缝：intermittentweld应力集中：stressconcentration焊接接头：solderedjoint坡口：groove对接：abuttingjoint搭接：lapjoint角接：cornerjoint4粉末冶金（powermetallurgy）粉末冶金成品：finishedpowermetallurgicalproduct 铁氧体：ferrite硬质合金：sintered-carbide高熔点金属：high-meltingmetal陶瓷：ceramic4.1粉末冶金工艺理论基础压坯：pressedcompact扩散：diffusion烧结：agglomeration固溶：solidsolubility化合：combination4.2粉末冶金的工艺流程制备：preparation预处理：anticipation还原法：reductionmethod电解法：electrolyticmethod 雾化法：atomization粒度：grainsize松装密度：loosedensity流动性：flowingpower压缩性：compressibility筛分：screenseparation混合：compounding制粒：pelletization过烧：superburning欠烧：underburnt5金属复合成型技术自蔓延焊接：SHSwelding热等静压：HIP准热等静压：PHIP5.1液态成型技术与固态成型技术的复合高压铸造：high-pressurecasting电磁泵：magnetic-pump压射成型：injectionmolding柱塞：plungerpiston冲头：driftpin凝固法：freezingmethod挤压法：extrusionmethod转向节：knucklepivot制动器：arrestinggear5.2金属半凝固、半熔融成型技术凝固：freezing半熔融：semi-vitreous触变铸造：thixotropycasting触变锻造：thixotropyforging注射成型：injectionmolding5.3其他金属成型新技术快速凝固：flashset非晶态：amorphous溢流法：pressoversystem喷射沉积：ejectingdeposit爆炸复合法：explosioncladdingmethod 扩散焊接：diffusionwelding挤压：extruding轧制：rolldown6非金属材料成型技术6.1高分子材料成型技术高分子材料：non-metalmaterial耐腐蚀：resistantmaterial绝缘：insulation老化：ageing耐热性：heat-durability粘弹性：viscoelasticity塑料：plasticmaterial橡胶：rubber合成纤维：syntheticfibre涂料：coveringmaterial粘结剂：agglomerant粘度：viscosity热塑性塑料：thermoplasticplastics 热固性塑料：thermosettingplastic通用塑料：general-purposeplastics 工程塑料：engineeringplastic薄膜：thinfilm增强塑料：reinforcedplastics 浇注塑料：pouringplastics注射塑料：injiectionplastics 挤出塑料：extrusionplastics 吹塑塑料：blowingplastics模压塑料：diepressingplastics 聚合物：ploymersemiconductor 吸湿性：hygroscopiccargo定向作用：directionalaction 生胶：greengluestock填料：carrier丁苯橡胶：SBR顺丁橡胶：BR氯丁橡胶：CR丁腈橡胶：NBR硅橡胶：Q聚氨酯橡胶：U压延：calender硫化：sulfuration胶粘剂：adhesive胶接：gluejoint刹车片：brakeblock。

材料成型工艺基础部分0 绪论金属材料:metal material (MR)高分子材料:high-molecular material陶瓷材料:ceramic material复合材料:composition material成形工艺:formation technology1 铸造铸造工艺:casting technique铸件:foundry goods (casting)机器零件:machine part毛坯:blank力学性能:mechanical property砂型铸造:sand casting process型砂:foundry sand1、1 铸件成形理论基础合金:alloy铸造性能:casting property工艺性能:processing property收缩性:constringency偏析性:aliquation氧化性:oxidizability吸气性:inspiratory铸件结构:casting structure使用性能:service performance浇不足:misrun冷隔:cold shut夹渣:cinder inclusion粘砂:sand fusion缺陷:flaw, defect, falling流动性:flowing power铸型:cast (foundry mold)蓄热系数:thermal storage capacity 浇注:pouring凝固:freezing收缩性:constringency逐层凝固:layer-by-layer freezing 糊状凝固:mushy freezing结晶:crystal缩孔:shrinkage void缩松:shrinkage porosity顺序凝固:progressive solidification 冷铁:iron chill补缩:feeding等温线法:constant temperature line method 内接圆法:inscribed circle method铸造应力:casting stress变形:deforming裂纹:crack机械应力:mechanical stress热应力:heat stress相变应力:transformation stress气孔:blow hole铸铁:ingot铸钢:cast steel非铁合金:nonferrous alloy灰铸铁:gray cast-iorn孕育处理:inoculation球墨铸铁:spheroidal球化处理:sheroidisation可锻铸铁:ductile cast iron石墨:graphite蠕墨铸铁:vermicular cast iron热处理:heat processing铝合金:Al-alloy熔炼:fusion metallurgy铜合金:copper alloy氢脆:hydrogen brittleness1、2 铸造方法(casting method)手工造型:hand moulding机器造型:machine moulding金属型:metal mold casting金属模:permanent mould压力铸造:press casting熔模铸造:investment moulding蜡膜:cere离心铸造:centrifugal casting低压铸造:casting under low pressure 差压铸造:counter-pressure casting 陶瓷型铸造:shaw process1、3 铸造工艺设计浇注位置:pouring position分型面:mould joint活块:loose piece起模:patter drawing型芯:core型芯撑:chaplet工艺参数:processing parameter下芯:core setting合型:mould assembly冒口:casting head尺寸公差:dimensional tolerance尺寸公差带:tolerance zone机械加工余量:machining allowance 铸孔:core hole非标准:nonstandard label收缩率:rate of contraction线收缩:linear contraction体收缩:volume contraction起模斜度:pattern draft铸造圆角:curving of castings芯头:core register芯头间隙:clearance芯座:core print seat分型线:joint line分模线:die parting line1、4 铸造结构工艺性加强筋:rib reinforcement撒砂:stuccoing内腔:entocoele2 金属塑性加工塑性加工:plastic working塑性:plastic property锻造:forge work冲压:punching轧制:rolling拉拔:drawing挤压:extruding细化晶粒:grain refinement热锻:hit-forging温锻:warm forging2、1 金属塑性加工理论基础塑性变形:plastic yield加工硬化:work-hardening韧性:ductility回复温度:return temperature 再结晶:recrystallize再结晶退火:full annealing冷变形:cold deformation热变性:heat denaturation锻造比:forging ratio镦粗:upset拔长:pull out纤维组织:fibrous tissue锻造性能:forging property可锻性:forgeability变形抗力:resistance of deformation化学成分:chemical constitution热脆性:hot brittleness冷脆性:cold-shortness变形速度:deformation velocity应力状态:stress condition变形温度:deformation temperature过热:overheating过烧:burning脱碳:carbon elimination始锻温度:initiation forging temperature 终锻温度:final forging temperature 2、2 金属塑性加工方法自由锻:flat-die hammer冲孔:jetting弯曲:bend弯曲半径:bending radius切割:cut扭转:twist rotation错移:offsetting锻接:percussion基本工序:basic process辅助工序:auxiliary process精整工序:finishing process模锻:contour forging锻模:forging die胎膜锻:fetal membrane forging剪床:shearing machine冲床:backing-out punch冲裁:blanking弹性变形:elastic distortion塑性变形:plastic yield剪切变形:shearing deformation最小弯曲半径:minimum bending radius 曲率:angularity弯裂:rupture回弹:rebound辊轧:roll forming辊锻:roll forging斜轧:oblique rolling横轧:transverse rolling辗压:tamping drum挤压:extruding拉拔:draft2、3 塑性加工工艺设计工艺规程:process specification锻件图:forging drawing敷料:dressing锻件余量:forging allowance锻件公差:forging tolerance工夹具:clamping apparatus加热设备:firing equipment加热规范:heating schedule冷却规范:cooling schedule后续处理:after treatment分模面:die parting face冲孔连皮:punching the wad模锻斜度:draft angle圆角半径:radius of corner圆饼类锻件:circumcresent cake-like forging 长轴类锻件:long axis-like forging2、4 锻件结构工艺性锥体:cone斜面:cant空间曲线:curve in space粗糙度:degree of roughness2、5 冲压件结构工艺性3 焊接焊接:welding铆接:riverting熔焊:fusion welding压焊:press welding钎焊:braze welding3、1 焊接理论基础冶金:metallurgy电弧焊:arc welding气焊:acetylene welding电渣焊:electro-slag welding 高能束焊:high energy welding 电子焊:electronic welding激光焊:laser welding等离子焊:plasma welding电弧:electric arc阳极区:anode region阴极区:negative polarity弧柱区:arc stream正接法:electrode negative method反接法:opposition method脱氧剂:deoxidizing agent焊缝:welded seam焊缝区:weld zone熔合区:fusion area热影响区:heat-affected zone脆性断裂:brittle fracture过热区:overheated zone正火区:normalized zone相变区:phase change zone焊接应力:welding stress收缩变形:contraction distortion角变形:angular deformation弯曲变形:bend deformation扭曲变形:warping deformation波浪变形:wave transformation反变形法:reversible deformation method 刚性固定法:rigid fixing method预热:warming-up缓冷:slow cool焊后热处理:postweld heat treatment矫形处理:shape-righting3、2 焊接方法埋弧焊:hidden arc welding气体保护焊:gas shielded arc welding氩弧焊:argon welding熔化极氩弧焊:consumable electrode argon welding 钨极氩弧焊:argon tungsten-arc welding二氧化碳气体保护焊:CO2 gas shielded arc welding 碳弧焊:carbon arc welding碳弧气刨:carbon arc air gouging电渣焊:electro-slag welding高能焊:high grade energy welding等离子弧切割:plasma arc cutting (PAC)堆焊:bead weld电阻焊:resistance welding电焊:electric welding缝焊:seam welding压焊:press welding多点凸焊:multiple projection welding对焊:welding neck摩擦焊:friction welding扩散焊:diffusion welding硬钎料:brazing alloy软钎料:soft solder3、3 常用金属材料的焊接焊接性:weldability焊接方法:welding method 焊接材料:welding material 焊条:electrode焊剂:flux material碳素钢:carbon steel低碳钢:low carbon steel中碳钢:medium carbon steel 高碳钢:high carbon steel低合金钢:lean alloy steel不锈钢:non-corrosive steel 有色金属:nonferrous metal 3、4 焊接工艺设计型材:sectional bar药皮:coating焊丝:soldering wire连续焊缝:continuous weld断续焊缝:intermittent weld应力集中:stress concentration焊接接头:soldered joint坡口:groove对接:abutting joint搭接:lap joint角接:corner joint4 粉末冶金(power metallurgy)粉末冶金成品:finished power metallurgical product 铁氧体:ferrite硬质合金:sintered-carbide高熔点金属:high-melting metal陶瓷:ceramic4、1 粉末冶金工艺理论基础压坯:pressed compact扩散:diffusion烧结:agglomeration固溶: solid solubility化合:combination4、2 粉末冶金的工艺流程制备:preparation预处理:anticipation电解法:electrolytic method雾化法:atomization粒度:grain size松装密度:loose density流动性:flowing power压缩性:compressibility筛分:screen separation混合:compounding制粒:pelletization过烧:superburning欠烧:underburnt5 金属复合成型技术自蔓延焊接:SHS welding热等静压:HIP准热等静压:PHIP5、1 液态成型技术与固态成型技术的复合高压铸造:high-pressure casting电磁泵:magnetic-pump压射成型:injection molding柱塞:plunger piston冲头:drift pin挤压法:extrusion method转向节:knuckle pivot制动器:arresting gear5、2 金属半凝固、半熔融成型技术凝固:freezing半熔融:semi-vitreous触变铸造:thixotropy casting触变锻造:thixotropy forging注射成型:injection molding5、3 其她金属成型新技术快速凝固:flash set非晶态:amorphous溢流法:press over system喷射沉积:ejecting deposit爆炸复合法:explosion cladding method 扩散焊接:diffusion welding挤压:extruding轧制:roll down6 非金属材料成型技术6、1 高分子材料成型技术高分子材料:non-metal material耐腐蚀:resistant material绝缘:insulation老化:ageing耐热性:heat-durability粘弹性:viscoelasticity塑料:plastic material橡胶:rubber合成纤维:synthetic fibre涂料:covering material粘结剂:agglomerant粘度:viscosity热塑性塑料:thermoplastic plastics 热固性塑料:thermosetting plastic 通用塑料:general-purpose plastics 工程塑料:engineering plastic薄膜:thin film增强塑料:reinforced plastics浇注塑料:pouring plastics注射塑料:injiection plastics挤出塑料:extrusion plastics吹塑塑料:blowing plastics模压塑料:die pressing plastics聚合物:ploymer semiconductor吸湿性:hygroscopic cargo定向作用:directional action生胶:green glue stock填料:carrier丁苯橡胶:SBR顺丁橡胶:BR氯丁橡胶:CR丁腈橡胶:NBR硅橡胶:Q聚氨酯橡胶:U压延:calender硫化:sulfuration胶粘剂:adhesive胶接:glue joint刹车片:brake block零件修复:parts renewal蜂窝夹层:honeycomb core material 6、2 工业陶瓷制品的成型技术干燥:drying坯料:blank润滑剂:anti-friction结合剂:binder热压铸:hot injiection moulding6、3 非金属材料成型技术的新进展热压烧结:hot pressed sintering7 复合材料的成型技术复合材料:composite material树脂:resin7、1 金属复合材料的成型技术硼纤维:boron fiber钛合金:titanium alloy碳纤维:carbon filter等离子喷涂:plasma spraying浸渍法:immersion method锭坯:ingot blank7、2 聚合物基复合材料的成型技术晶须:whisker缠绕成形:enwind forming湿法缠绕:wet method enwind7、3 陶瓷复合材料成型技术料浆:slurry溶胶-凝胶法:sol-gel method化学气相沉积: chemical vapor deposition (CVD)原位:in situ8 材料成型方法的选择粉末冶金:powder metallurgy 工程塑料:engineering plastics 工程陶瓷:engineering ceramics。

工艺流程中英文对照1. 引言本文档旨在提供一份工艺流程的中英文对照，以帮助读者更好地了解和实施该工艺流程。

2. 工艺流程的定义工艺流程是指将原材料或半成品转化为可使用的最终产品的一系列步骤和操作。

3. 工艺流程的步骤下面是工艺流程的详细步骤和对应的中英文对照：1. 原材料准备（Raw Material Preparation）2. 清洗（Cleaning）3. 切割（Cutting）4. 排列组装（Assembly）5. 焊接（Welding）6. 喷涂（Coating）7. 检验（Inspection）8. 包装（Packaging）9. 质量控制（Quality Control）10. 出厂（Shipping）4. 每个步骤的说明下面是每个步骤的详细说明和对应的中英文对照：4.1 原材料准备（Raw Material Preparation）该步骤包括选择和准备用于生产的原材料。

4.2 清洗（Cleaning）该步骤涉及清洗原材料，以去除表面的污垢和杂质。

4.3 切割（Cutting）该步骤用于将原材料切割成所需的尺寸和形状。

4.4 排列组装（Assembly）该步骤将切割好的部件按照设计要求进行排列组装。

4.5 焊接（Welding）该步骤使用焊接技术将组件连接在一起。

4.6 喷涂（Coating）该步骤涉及给产品表面进行喷涂，以提供保护和美观效果。

4.7 检验（Inspection）该步骤涉及对成品进行检查和测试，以确保其质量符合要求。

4.8 包装（Packaging）该步骤将成品进行包装，以便存储和运输。

4.9 质量控制（Quality Control）该步骤包括对整个工艺流程进行质量控制，以确保产品符合质量标准。

4.10 出厂（Shipping）该步骤将成品运送到客户或销售点。

5. 总结本文档提供了工艺流程的中英文对照，通过了解每个步骤的含义和操作，读者可以更好地理解和实施该工艺流程。

成型工藝流程及條件介紹Molding technique procedure and parameter introduction 第一節成型工藝Section 1 molding technique.1.成型工藝參數類型Sorts of molding parameter.(1). 注塑參數Injection parameter.a.注射量Injection rate.b.計量行程Screw back positionc.餘料量Cushiond.防誕量Sucking back ratee.螺杆轉速Screw speedf.塑化量Plastic rateg.預塑背壓Screw back pressureh.注射壓力和保壓壓力Injection pressure and holding pressure i.注射速度Injection speed(2)合模參數Clamping parametera.合模力Clamping forceb.合模速度Clamping speedc.合模行程.Clamping stroked.開模力Opening forcee.開模速度Opening speedf.開模行程Opening positiong.頂出壓力Ejector advance pressureh.頂出速度Ejector advance speedi.頂出行程Ejector advance position2.溫控參數Temperature parametera.烘料溫度Dry resin material temperatureb.料筒與噴嘴溫度Cylinder temperature and nozzle temperature c.模具溫度Mold temperatured.油溫Oil temperature3.成型周期Molding cyclea.循環周期Cycle timeb.冷卻時間Cool timec.注射時間Injection timed.保壓時間Holding pressure timee.塑化時間Plant timef.頂出及停留時間Knocking out and delay timeg.低壓保護時間Mold protect time成型工藝參數的設定須根據產品的不同設置.Molding technique parameter setting differs depending on type of product第二節成型條件設定Section 2 Molding parameter Setting按成型步驟:可分為開鎖模,加熱,射出,頂出四個過程.Molding steps: mold opening/closing, heating injection and knocking out.開鎖模條件:Mold opening parameter:低壓高壓速度Low pressure high pressure speed鎖模條件設定:Mold closing parameter setting1.鎖模一般分: 快速→中速→低壓→高壓Mold closing: high-speed →low-speed →low pressure→high pressure2.快鎖模一般按模具情況分,如果是平面二板模具,快速鎖模段可用較快速度,甚至於用到特快,當用到一般快速時,速度設到55-75%,完全平面模可設定到80-90%,如果用到特快就只能設定在45-55%,壓力則可設定於50-75%,位置段視產品的深淺(或長短)不同,一般是開模寬度的1/3.In high-speed section, Mold closing speed depends on type of mold. For two –plate mold it can set quick and even especially quick usually, it set speed within 55-75%. For full-plate mold it set speed within80-90% while using especially high speed it set speed within 45-55% and pressure within 50-75% position distance setting differs depending on the volume of product and usually it can be set 1/3 of mold opening position.3.中速段,在快速段結束后即轉換成中速,中速的位置一般是到模板(包括三板模,二板模)合在一塊為止,具體長度應視模板板間隔,速度一般設置在30%-50%間,壓力則是20%-45%間.In mid-speed section: Mold closing speed changes into mid-speed after high-speed section finish. Mid-speed start position is where two plates meet (include three-plate mold and two-plate mold ) Distance of mid-speed is up to distance of two plates plate it speed within30-50% and pressure 20-45%.4.低壓設定,低速設定一般是在模板接觸的一瞬間,具體位置就設在機臺顯示屏顯示的一瞬間的數字為準,這個數字一般是以這點為標準,,即於此點則起不了高壓,高於此點則大,輕易起高壓.設定的速度一般是15%-25%,視乎不同機种而定,壓力一般設定於1-2%,有些機則可設於5-15%,也是視乎不同機种不同.Low-pressure section: Mold closing sets low-pressure when plates meeting. This position is set to the data of machine screen on this time. This point is the gage of the data. Data lower the point there is no high-pressure. Data higher the point there is high-pressure easily. It set speed within 15-25% and pressure within 1-2% depending on type within 1-2% depending on type of injection molding machine. 5.高壓設定,按一般機臺而言,高壓位置機臺在出廠時都已作了設定,相對來講,是不可以隨便更改的,比如震雄機在50P.速度相對低壓略高,大約在30-35%左右,而壓力則視乎模具而定,可在55-85%中取,比如完全平面之新模,模具排氣良好,甚至於設在55%即可,如果是滑塊較多,原來生產時毛邊也較多,甚至於可設在90%還略顯不足.High-pressure section: To normal injection molding machine,high-pressure position had been set before they were sent to customer. It can not be modified. For example high-pressure position of CHENHSONG machine is 50P.The speed of high-pressure section is about 30-35% and higher than that of low-pressure. The pressure is up to mold, it can set within 55-85% For full-plate mold, it’s eject air well, it can set pressure 55% .If mold has a lot of slides and flash rate high in production, pressure can set 90%.加熱工藝條件設定Heating technique parameter setting1.加熱段溫度設定必須按照產品所使用的原料的不同而不同,但卻必須遵循一個這樣的規則,即由射口筒到進科段溫度是逐步遞減的.且遞減溫度是以100C為單位.The proper temperature setting differs depending on type of resin material, but it must be abide by a rule that temperature setting should diminish in step 1０.C from nozzle to feeding resin material position.2.特殊情況下.如料頭抽絲,則射口筒溫度應降低,如果是比較特殊的原料冷凝比較快的.則射口筒溫度則不止比第二節法蘭溫度高100C.比如PPS. 尼龍等.Nozzle temperature setting should low if product line. If resin material such as PPS, PA, cool very soon , Nozzle temperature should higher more 10.C than the second cylinder temperature.3.机台馬達啟動溫度視乎機臺不同而不同,一般出於對機台油路中的油封保護需要,油溫最好能控制在400C-600C,以免油封長期高壓而變化,縮短使用壽命,造成成型不穩定.Pump turning on temperature is different depending on type of injection molding machine. To protect oil seal of machine it set oil temperature within 40.C-60.C, If oil seal work on condition that high pressure and damaged It’s work time will be shorter, it can cause molding stable.注射及熔膠(加料)工藝條件設定Injection and plastic Technique parameter setting一.注射Injection常見塑膠原料的有關溫度值.注射是把塑膠原料經加熱後射進模腔的過程,它一般可分為第一級,第二級,第三級,第四級及保壓幾段:Injection is a step which inject melt resin material into mold. Itconsists of stepl,step2 ,step3,step4 and holding pressure step:1.第一級注射一般是注射料頭段.具注射量一般可根据料頭的輕重來估計其行程,當然也可以依据公式來計算,如公式:Step l injects usually tunnel material, Injection Volume can be estimated according to the weight of course it can be calculated by formula:L=Si=Vi/0.785D s2L:注射行程; Si: 注射行程;L: injection stroke Si: injection strokeVi:理論注射容積; Ds:螺杆直徑;Vi: injection volume of theoretical Ds: diameter of screw0.785:是Ω/4的值.0.785: value of Ω/4.當然,如果我們在成型時每設定一個參數都要計算一次,要成型出一個產品就要幾個小時才能完成了.But it cost a lot of time to produce one product if every time molding parameter is setting by calculation.2.第二級是注塑產品約2/3的階段,當然,根据產品特殊需要,也允許成型不到2/3階段,比如避免結合線問題,這一階段的成型速度及壓力一般是整個成型段的最大值段,如果排的產品與機台基本是相吻合的.模具結構合理,排气良好,這一段的壓力一般也不會超過80%.速度側視產品需變,可能大到95%也可,自然一般都是在55%-80%間.Step 2 inject 2/3 of product. It can lower 2/3 of product according to requirement of product. For example to prevent weld line.Molding speed and pressure on this step is the maximum ofwhole molding section. If Mold suit the injection molding machine and mold structure reasonable and eject air well, pressure of this step should lower 80%. Molding speed setting within 55-80% but it may setting 95% for especial product.3.第三段是注射餘下的1/3段,其速度和壓力根据產品的需要,一般是小于第二段,速度和壓力存在於一個往下降的過程.主要是為了防止產品毛邊的產生,但同時又必須把產品充填飽滿.Step3 inject remain 1/3 of product. According to product molding speed and pressure lower than that of step2 To prevent flash speed and pressure should decrease but it can’t shot short.4.第四段:一般有機臺還有第五,第六段,這段的成型速度和壓力相同前,都存在兩段一個遞減過程.其作用都是起到一個再次充滿的作用.Step4 section: Some injection machines have step5,step6 which are same as former molding speed and pressure this step should diminish and inject once more.5.保壓段:不論成型什麼產品,都存在一個保壓過程.任何產品都不同程度的存在一個厚薄不一的問題,正常情況下,較厚的部分都可能存在一個收縮凹陷的現象,為了解決這種現象,就應應用到保壓,保壓一般來講都應用較慢的射速,而壓力的設置則應看縮水的情況如何,小到25%,大到80%都有可能.Holding pressure step: No matter what product there is a holding pressure step. Any product can’t molding a same thickness. Usually the deeper section may sink mark . To prevent this defect it should set holding pressure, The injection speed of holding pressure step is slow but holding pressure setting within 25-80% depending on sink mark.二.熔膠段工藝Plastic Technique1.再復雜的熔膠旋轉過程最多不會超過三段,因為熔膠本身就是存在於把膠熔進料筒的過程,如果原料粘度大,熔膠壓力則大,但速度則應取決於原料的分解溫度,熔膠速度越快,原料中的剪切力則會越大,料管溫度則越高,局部原料產生分解的可能性則會越大,故一般熔膠會采用中速為宜,如45%-75%,熔膠同時會碰到一個比較重要的環節,那就是背壓的使用,產品精度要求越大,背壓的使用則更大,背壓可使原料分子間結构更緊密,成型出的產品則尺寸更穩定,外觀越好.當然,背壓太大,則會產生流涎,所以背壓的使用又應考虙到其它原因.Plastic should lower 3 steps, because plastic is a step to add melt resin material to cyclinder , Higher stick of resin material ,higher screw back pressure. Screw speed differs depending on decomposing temperature of resin material ,Higher screwspeed ,Higher trim force of resin, higher cyclinder temperature. Some resin material may decomposes so it set screw speed in mid-speed such as 45-75%, In plastic step setting screw back pressure is very important, Higher screw back pressure ,higher quality of product screw back pressure make resin structure order, Molding product is beautiful and volume stable. But ,it maybe flow if screw back pressure too high . So all factors should be considered when using screw back pressure.2.熔膠過程還有一個比較重要的環節,那就是松退,松退分前松退和后松退,其作用一般是為了防止流涎和抽絲,設定值速度和壓力都在20%-50%間,設定的行程一般在2-5cm間,太長的行程可能會使料筒里面貯存空气,導致下一模出現不期望的气泡.In plastic step sucking back is very important too. Sucking back include front sucking back and back sucking back It settingsucking back to prevent flow and line. It sets sucking backspeed and pressure within 20-50% and distance within 2-5cm.TOO long distance make cyclinder reserve air and causebubble at next molding.頂出的工藝設定knocking out technique setting產品經冷卻定型後則有一個開模的過程,開模基本上是合模的反過程.開模的未段則有一個慢速設置,開模完成后,產品必須頂出的過程.There is a mold opening step after product cooling taking shape. Mold opening is a reverse step of mold closing. The last step of mold opening speed set slow. Product should be knocked out after mold opened.一.頂前:Knocking out頂前最好分兩個階級,第一階可分為中壓慢速,即是把產品輕輕頂出一部分,然后是中壓中速頂,中壓中速一般指的是35%-55%,而低速則有可能低到5%,這需視產品不同而言,頂出行程設定是頂出長度稍比產品垂直深度大1-2cm即可.Knocking out includes two steps, Step1 section setting mid-speed, knocks product out partly step2 section setting mid-pressure and mid-speed . Depending on different product, mid-pressure andmid-speed sets within 35-55% but low-speed can set 5%.Distance of knocking out longer 1-2cm than the vertical thickness of product.二.退針Back頂退包括兩個過程與頂落的過程基本一致,頂退的終點應預留1-3cm 的空間,以保護頂針油管不被頂坏.The same as knocking out, ejector back includes 2 steps. Toprotect the ejector oil jar, it should make a 1-3mm distance in the ending point of ejector back.三.頂針方式還包括一個多次頂,單次頂及頂針停留的選擇,機械手取產品,脫模順利的情況都采取多項,為了頂針油缸壽命的延長,多次頂就以不超過三次為宜,頂針停留一般用在頂針帶著產品退回有可能對增品產生損傷的模具,同時為配合機械手使用,有時也需要較短的頂針停留.The way of knocking out includes knocking out once, Knocking out repeat and ejector delay. Take product by manipulator or take product easy, it should select knocking out once. To longer the work time of ejector oiljar, times of knocking out lower 3 times. Ejector delay used when product will be damaged if ejector back or suit manipulator.成型時間的設定Molding time setting在保証產品品質的前提下,周期時間是越短越好,周期時間又包括如下几項:射膠時間,保壓時間,熔膠時間,冷卻時間,頂出時間,鎖模低壓時間,甚至乎關系到時間因素的還有還開模與鎖模,及頂出的快慢.Cycle time should shorter on condition that product quality well.Cycle time includes: injection time , holding pressure time, plastic time, cure time, knocking out time and mold protect time. Even mold opening closing sopeed and knocking out speed affect cycle.1.射膠時間包含保壓時間,一般看起來,射膠時間越長,產品越飽和,但我們在講求品質時,同時也須考量產能,更何況,射膠時間過長,有可能會造成產品過於飽滿而尋致粘模頂的變形呎寸偏大等一系列問題,故我們在設置射膠時間時應綜合考慮,盡量在合乎品質要求時縮短射膠時間.Injection time consists holding pressure time. Longer injection time, fuller product, we should consider production quantity when we suit for quality. If injection time too long, it may cause a series of defects suck as flash strain. So all sorts of factors should be considered, injection time should be shout if quality suit for requirement.2.熔膠時間的長短取決於熔膠速度設定的快慢,背壓設定的大小,但有一點,熔膠時間控制的長短一定要比冷卻時間短.Plastic time depends on plastic speed and screw back pressure, but plastic time must shorter than cure time.3.冷卻時間:冷卻時間的長短直接影響到成型的周期,冷卻時間越長,成型時間就越長,造成產能就越低,故我們在設定高壓冷卻時間時,只要能保證到產品成型順利,不會直接影響到變形等問題,設定的時間也是越短越好.Cure time: Cure time affects molding cycle. Longer cure time, longer molding cycle, lower production quantity. So it sets cure time shorton condition that product molding succed and can’t deformation.. 4.在大量使用機械手的富金公司,我們的頂出時間一般是與機械手配合為宜,全自動使用機械手時頂出停留時間一般保持1.5-2秒,半自動生產,如因頂針退回會導致產品掉落或卡緊,而取不下產品,停留時間則應保持5秒左右.In PCE company, for using manipulator in abundence , knocking out time suits manipulator, Knocking out delay keeps 1.5-2 second when using manipulator full-manipulator, knocking out delay keeps about 5 second when using manipulator semi-manipulator and product will fall or can’t be taken off if ejector back.5.低壓保護時間對保護我們人身安全,模具安全起很大作用,配合好模具低壓位置和低壓壓力的調整,低壓保護的時間應取1-2秒,保護時間越短,可能造成的危害則越小.Low-pressure protect is very important for safety and protect mold, Mold protect time should adjust within 1-2 second suit low pressure and position of mold protect, shorter protect time, make damaged.。