铸造工艺(英文)

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。

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。

英文原文CastingCasting is a metal smelting meet certain requirements of the liquid and poured into the mold, solidified by cooling, the whole-are scheduled to be dealt with after the shape, size and performance of the casting process. Casting hair due to the near embryo forming, and machining to avoid or reduce a small amount of the purpose of processing costs and to a certain extent, reduce the time. Casting modern machinery manufacturing industry is the basis of one.Casting many different types, according to the customary method of modeling is divided into: ①ordinary sand casting, including wet sand, dry sand and chemical hardening Sand three categories. ②special casting, by modeling materials can be divided into natural mineral sand as the main form of special casting material (such as mold, mud-casting, casting workshop shell casting, vacuum casting, it is type casting, ceramic mold casting , etc.) and metal casting for the main special casting material (such as metal-casting, pressure die casting, continuous casting, low-pressure casting, centrifugal casting, etc.) two. Casting Process usually include: ①mold (the liquid metal into solid casting containers) prepared by casting materials used can be divided into sand, metal, ceramic, clay, graphite type, and so on, by frequency of use can be divided into one-time type, semi-permanent and permanent-type, and thepros and cons of the mould for casting quality is the impact of the main factors; ②melting and casting metal casting, metal casting (casting alloys) main cast iron, cast steel and non-ferrous foundry alloy castings deal with ③and testing and treatment, including removal of casting and casting surface core foreign body, with pouring riser, and shovels and grinding burr Prix joints, and other protrusions and heat treatment, surgery, such as anti-rust treatment and rough.Casting process can be divided into three basic parts, namely casting metal preparation, preparation and casting mold processing. Metal Casting is casting for the production of metal castings casting materials, it is a metal elements as the main component, and joined other metal or non-metallic element composition of the alloy and, as customary casting alloys, the main cast iron , cast steel and non-ferrous alloy casting.Metal smelting is not just a simple melting, smelting process also included, pouring the metal into the mold, temperature, chemical composition and purity aspects are in line with expectations. Therefore, in the melting process, we need to conduct quality control checks for the purpose of testing liquid metal to the provisions in order to allow indicators after pouring. Sometimes, in order to meet higher demands, after the release of liquid metal in the furnace, to deal with, such as the desulfurization, vacuum degassing, the refining furnace, such as modification or bred. Melting metal commonly used equipment is Cupola,electric arc furnace, induction furnace, resistance heaters, such as reverberatory furnace.The different methods have different casting mold for content. The application of the most extensive example of sand casting, casting, including modeling material for the preparation and modeling made two core functions. Sand Casting modeling used to create the core of raw materials, such as sand casting, sand binder and other accessories, as well as from the preparation of their sand, the core sand, paint and other materials collectively known as the shape modeling material in accordance with the task of preparing for Casting requirements, the nature of metal, the original choice of suitable sand, binders and accessories, and then by a certain proportion of them into a certain properties of mixed sand and core sand. Mixer equipment is commonly used roller wheel Mixer, and the counter-Mixer leaves trench Mixer. The latter is designed for the hard sand mixed chemical design, continuous mixing, fast.Modeling made casting process is based on core requirements identified in good shape, ready to form the material basis. Casting accuracy, and the entire production process of economic effects depends largely on this procedure. In many modern foundry workshop, modeling core are made to achieve a mechanized or automated. Sand commonly used modeling core equipment made a high, medium and low pressure molding machine,the machine throwing sand, no me-pressure molding machine, radio batteries, cold and hot-box machines.Since casting mold pouring out of the cooling, a gate, riser joints and metal burr Prix, the Sand Casting also adhesion of sand casting, it must be clear processes. Such is the work of the equipment throwing machine, gate riser cutting machines. Sand casting is charged sand liquidation of a poor working conditions processes, in the choice of modeling methods, should be taken into account for loading sand to create convenience for liquidation. Casting for some special requirements, but also the casting post-processing such as heat treatment, plastic surgery, anti-rust treatment, such as roughing.Casting is more economical method of forming the rough, more complex shape parts demonstrated its economy. If the car's engine block and cylinder head, ship propellers, as well as exquisite works of art,. Cutting some of the difficult parts, such as gas turbine parts of the nickel-based alloy casting methods can not not forming.In addition, the casting of parts of the size and weight to a wide range of metal species almost unlimited; parts of a general mechanical properties, it is also a wear-resistant, corrosion-resistant, shock absorption, such as overall performance, other methods such as forging metal forming , rolling, welding, etc.-can do. Therefore, in the machine building industry, casting methods used in the production of rough parts, in terms ofquantity and the tonnage is the largest to date.Casting Production of materials often use a variety of metals, coke, wood, plastics, gas and liquid fuels, such as modeling materials. Have the necessary equipment of various metal smelting furnace, with the various Mixer Mixer, a shape made of various core molding machine, machine-made batteries, cleaning sand casting charged with the machine, throwing machine etc.. Casting also used for special machinery and equipment, as well as many transportation and material handling equipment.Casting production and the different characteristics of other, mainly wide adaptability, needed materials and equipment, pollution of the environment. Casting Production will produce dust, toxic gases and noise pollution on the environment, compared to other machinery manufacturing processes to become more serious measures are needed to control.Casting product development requirements of the trend is casting a better overall performance, higher accuracy and less cushion and clean the surface. In addition, energy-saving and the requirements of social calls to restore the natural environment is getting higher and higher. To meet these requirements, the new cast alloy will be developed, refining new techniques and equipment will be corresponding.Casting production mechanization degree of automation has beenimproving at the same time, will be more flexible to production development, to expand the volume and variety of different production adaptability. Conservation of energy and raw materials of new technologies will be giving priority to the development, produce or do not produce less pollution in new technology and equipment will be the first to be taken seriously. Quality control procedures in the detection and nondestructive testing, stress determination, there will be a new development.There is much more to casting than selecting a process and making the appropriate pattern .During the past decade ,research and production experiences have provided scientific principles for better casting techniques .Important considerations are the rate at which a mold cavity is filled ,gate placement ,riser design ,the use of chill blocks, and padding. FILLING THE MOLD CA VITY .the velocity with which the molten metal fills the mold is determined by the cross-sectional area of the gating system and the mold-pouring rate. Too slow a mold-pouring rate means solidification before filling some parts, allowing surface oxidation. Too high a pouring rate caused by too large a gating system causes sand inclusions by erosion ,particularly in green-sand molding ,and turbulence. The minimum cross section in the gating system is called a choke .In the strict sense, the choke is the section in the gating system where the cross-sectional area times the potential linear velocity is at a minimum.When the gate system is choked at the bottom of the sprue ,it is called a nonpressurized system. This system is somewhat less reliable than a pressurized system in which the choke is at the gate.The first metal in the pouring basin and down the sprue usually has some turbulence that carries slag into the runner .To avoid slag in the casting, the runner should extend past the last gate to trap the initial slag. By the time the gate become operative, the liquid level should be high enough so that no slag can enter the casting cavity .The runner should be laid out to minimize turbulence, that is it should be as straight and as smooth as possible. The gate that was shown in Fig.7-3 is made to enter the cavity at the parting line. Gating arrangements may also be made at the top or bottom of the cavity. The parting line gate is the easiest for the pattern maker to make; however, the metal drops into the cavity, which may cause some erosion of the sand and some turbulence of the metal .For nonferrous metals, this drop aggravates the dross and entraps air in the metal.Top-gating is used for simple designs in gray iron, but not for nonferrous alloys, since excessive dross would be formed by the agitation.Bottom-gating provides a smooth flow of metal into the mold. However ,if does have the disadvantage of an unfavorable temperature gradient. It cools as it rises, resulting in cold metal in the riser and hot metal at the gate.Casting For example, there are many ways:Centrifugal CastingLiquid metal will be poured into the mold rotation, the centrifugal force under the filling and solidification of the casting-casting method. Centrifugal casting machine called centrifugal casting machine. According to the rotation axis mold a different direction, centrifugal casting machine is divided into horizontal and vertical tilt of three kinds. Horizontal centrifugal casting machine is mainly used for casting various tubular castings, such as grey cast iron and ductile iron water mains gas pipes, the smallest diameter of 75 mm, 3000 mm Maximum Pouring In addition to the paper machine's large diameter copper roller, various carbon steel, steel pipes, as well as internal and external requirements of the different components of the double-material steel roll. Vertical centrifugal casting machine is mainly used for the production of castings and smaller ring-round casting.Centrifugal Casting by the mold, according to casting shape, size and production quantities different, the choice of non-metallic type (such as sand, shell or shell-Investment), the type of metal or metal-deposited within a layer or coating resin sand the mold. Mold is centrifugal casting to a few of the important parameters, we have enough to increase the centrifugal force of the dense metal casting, centrifugal force is not too big so as not to hinder the metal contraction. For those of lead bronze, toomuch centrifugal force will produce castings components inside and outside intramural segregation. General dozens per minute speed in 1500 to go around.Centrifugal Casting is characterized by centrifugal force in the liquid metal under the filling and solidification, metal Feeding good effect, castings organizations dense, good mechanical properties; casting hollow castings without pouring riser, metal utilization can be increased substantially. Therefore certain shape casting, centrifugal casting is a material-saving, energy-saving, cost-effective techniques, but special attention should be to take effective security measures.Fan Casting mudFoundry Industry in China Ancient metal processing in a prominent position, and have a tremendous impact on society. Today, we are living in often use a "model", "Casting" and "succumb" vocabulary, from the ancient foundry industry terminology. Ancient Chinese working people in the long-term production practice, and created a Daofan, lost wax casting process of the two major traditions. Casting technology is the first to use Shifan. Because stone is not easy processing, without high temperature, along with making the development of the industry, I have to switch to block mud Fan. Sand Casting in modern times before 3,000 years, mud Fan Casting has been one of the most important casting method.Mud Fan Casting Process: 1. Tooling. According to prototype objectswith soil carved into mud-2. Fan up outside. A uniform will be transferred into the soil-mud-flap on the outside in the mud-force, make pressure, the mud-ornamentation on the anti-Indian in the mud-chip. Semi-after films such as soil, in accordance with the objects ears, feet, Pan, at the end of the border areas, Kok or symmetrical objects, divided into several blocks with a knife norm, and then the two dump adjacent to Fan of the triangle forward Stitching Mao, then dry, or baking Weihuo repaired Fan inside tick fill patterns, which has become used by the foundry Fan 3. Fan within the system. Fan of the system will be used by the mud mode, taking advantage of a wet Guaqu TLC, and then dry-roast, made in the Fan. Guaqu Suozhu Bronze is the thickness of the thickness of 4. A Fan. Fan will be inverted in the base, then placed in the block, Fan Fan around. Fan after the closure, a closure of the above-Fan Fan covered with at least leave a pouring hole 5. Casting. Bronze solution will be melted along pouring into the hole, such as copper-cooled, break the norm, the norm out, the bronze will be removed Suozhu, after polishing finishing, an exquisite bronze on the production completed.Modeling complex in the production of bronze, the ancients also used the casting process as a basic principle of law. Or first-body cast, then a norm in the pouring annex (such as Shoutou, columns, etc.); cast in the first or annex (such as tripod ear, feet, etc.) and then pouring time for the casting industry are integrated.Early Shang Dynasty in China there will be a mud Fan casting, to reach its peak during the mid-1980s. Use this method, the ancient craftsmen who created a home as Secretary E-ding, four sheep this side of the statue Kuangshi treasures.China's ancient mud Fan Casting another outstanding achievements, the law is stacked cast early emergence and widely used. Kevin is the so-called Permian many months or block paired Fan Fan-composite assembly, by a shared runner for casting, one by dozens or even hundreds of items. My earliest Permian casting is the Warring States period, the coin-knife. This method because of its high productivity, low cost comparison is still widely used.Pressure CastingUnder the high pressure liquid or semi-liquid metal mold filling high-speed, and solidified under pressure into the foundry casting method. Adopted by the pressure of 4 to 500 MPa, metal filling speed of 0.5 to 120 m / sec. 1838 Americans G. Bruce pressure casting the first time in India on the type production, a pressure casting patent next year. 19 in the 1960s, the pressure casting been great development, not only can produce tin-lead alloy die castings and zinc alloy die castings, but also capable of producing aluminum, copper alloys and magnesium alloy die castings. 20 in the 1930s and then to the iron and steel casting pressure on the pilot. Pressure Casting (casting), in essence, is under high pressure, liquid orsemi-liquid metal to high-speed casting cavity filling and solidification under pressure molding and casting and access methods. Characteristics of high-pressure die casting and high-speed filling casting of the two major characteristics of the die casting. It commonly used than the pressure-pressure from the thousands to tens of thousands of kPa, and even as high as 2 × 105kPa. Filling in the speed of about 10 to 50 m / s, sometimes even up to 100 m / s and above.中文译文铸造铸造是将金属熔炼成符合一定要求的液体并浇进铸型里，经冷却凝固、清整处理后得到有预定形状、尺寸和性能的铸件的工艺过程。

制作工艺的英文单词制作工艺是指在制造过程中所采用的方法、技术和步骤，用于将原材料转化为最终产品。

不同的制作工艺对产品的质量、外观和性能有着重要的影响。

在本文中，我们将介绍一些与制作工艺相关的英文单词。

首先，让我们了解一些常见的制作工艺单词：1.Casting（铸造）：一种将熔融金属或其他物质倒入模具中，并冷却后制成特定形状的工艺。

2.Forging（锻造）：一种通过加热金属至其可塑性温度，然后用力敲打，使其改变形状的工艺。

3.Machining（机械加工）：一种通过切削，磨削，钻孔，铣削等手段，从原材料中去除一部分物质，以形成所需的形状和尺寸的工艺。

4.Welding（焊接）：将两个或多个金属或热塑性材料加热至熔化温度，并将它们连接在一起的工艺。

5.Stamping（冲压）：一种利用模具，在金属或非金属材料上施加压力，以形成所需形状的工艺。

6.3D printing（三维打印）：一种通过连续堆积薄层材料，逐层构建物体的工艺。

7.Assembly（组装）：将多个零件或部件按照设计要求进行连接或组合的工艺。

8.Coating（涂覆）：在产品表面涂覆一层涂料或薄膜，以改变其外观、性能或保护其表面的工艺。

接下来，让我们深入探讨一些与制作工艺相关的专业术语：1.Tolerance（公差）：制造过程中允许的尺寸或形状偏离设计规范的范围。

2.Surface finish（表面光洁度）：指产品表面的质量和光洁度程度，通常用于描述表面的光滑度、粗糙度和细节。

3.Heat treatment（热处理）：通过控制材料的加热和冷却过程，改变其组织结构和性能的工艺。

4.Annealing（退火）：通过加热材料至高温后缓慢冷却，以消除材料内部的应力和改善其机械性能的工艺。

5.Hardening（硬化）：通过加热材料至高温，然后迅速冷却，使其达到更高的硬度和强度的工艺。

6.Tempering（回火）：对已经淬火的材料进行加热，然后缓慢冷却，以增加其韧性和减轻其脆性的工艺。

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。

铸造工艺英语
铸造工艺是一种传统的金属加工工艺，其基本原理是将金属材料熔化后，借助模具进行注入、凝固、成型等操作，最终得到所需的零件或工件。

在工业生产中，铸造工艺被广泛应用于汽车制造、航空航天、机械制造等领域。

铸造工艺需要涉及到多种技术和工具，包括模具设计、熔炼设备、铸造材料和工艺参数等。

同时，铸造工艺也需要严格控制各种因素，如温度、压力、流量等，以确保铸造零件的质量和性能。

在国际贸易和合作中，铸造工艺的相关术语和表达方式通常采用英语。

因此，掌握铸造工艺英语对于从事铸造工艺相关的人员具有重要意义。

以下是一些与铸造工艺相关的英语术语：
- Casting: 铸造
- Mold: 模具
- Foundry: 铸造厂
- Melting furnace: 熔炉
- Pouring: 浇注
- Solidification: 凝固
- Cooling: 冷却
- Defect: 缺陷
- Tolerance: 公差
- Dimension: 尺寸
- Core: 芯子
- Die casting: 压铸
- Investment casting: 精密铸造
- Sand casting: 砂铸
- Gravity casting: 重力铸造
- Pressure casting: 压力铸造
总之，铸造工艺英语是一个颇具实用性的语言技能，对于从事铸造工艺的工程师、技术人员和相关专业人员都具有重要意义。

材料成型工艺根底局部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：position 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 铸件成形理论根底合金：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铸件构造：casting structure使用性能：service performance浇缺乏：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 铸造构造工艺性加强筋：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 金属塑性加工理论根底塑性变形：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根本工序：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加热标准：heating schedule冷却标准：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 锻件构造工艺性锥体：cone斜面：cant空间曲线：curve in space粗糙度：degree of roughness2.5 冲压件构造工艺性3 焊接焊接：welding铆接：riverting熔焊：fusion welding压焊：press welding钎焊：braze welding3.1 焊接理论根底冶金：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 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 粉末冶金工艺理论根底压坯：pressed pact扩散：diffusion烧结：agglomeration固溶： solid solubility化合：bination4.2 粉末冶金的工艺流程制备：preparation预处理：anticipation复原法：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：pressibility筛分：screen separation混合：pounding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：honeyb core material 6.2 工业陶瓷制品的成型技术枯燥：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：posite 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。