Fortron 1140L0
DIC-PPS-培训PPT课件
宝理
0220A9 0220U9
东丽
A900B A670X01
GR-01 GR-02 CPC
20%GF
30%GF
40%GF
FZ-820B(高接合) FZ-1130
FZ-1140
FZ-523
FZ-1135(高流动)
FZ-1140-B2
PS-107-897
FZ-1130-D5(低毛边) FZ-1140-D5
CZL-4033
PTFE & PAN-CF 30
FZ-825
防电晕
CZL-2070
PTFE& Pitch-CF & Mineral
FZ-8600
表面光滑低发气量
17
PS-109-420
直接涂层
纯树脂 LD-10P ZL-130(PTFE) Z-200-E5 Z-200-J1耐冻结 Z-200-A1耐冻结 FZ2200-A5 DIC
FZ-2130-D6
EC-10-A2
EC-40B(电子封装) FZ-2140
FZL-4033(PTFE耐磨) FZ-2140-B2
Z-230(高韧性)
FZ-2140-D5
Z-230B2(B)
Z-240(高韧性)
FZ-830B
SE-730
PV55G008
1130T6 1130A64 6345A4
A673 A503F1 A515
FZ-6600-B2
FZ-8600-B2
FZ-8600
6165A4
6150T6
6165A6
6565A7
6465A62
A610MX03
A390M60
A310MX04
A575W20B
1140L4_ISO
E107854制造商塞拉尼斯公司材料标示>PPS-GF40%-FR<颜色本色UL 档案号用途汽车行业,工程/工业配件,电气/电子应用,房屋材料特性阻燃,高刚度,高强度,高硬度材料形状颗粒状加工方式注射成型单位比重ISO 1183 1.65g/cm³收缩率MD ISO 294-40.40%收缩率TDISO 294-40.50%吸水率23°C, 24 hr ISO 620.02%单位洛氏硬度ISO 2039-2100M(Scale)单位拉伸强度23°C ISO 527-2195MPa 断裂伸长率23°C ISO 527-2 1.9%弯曲强度23°C ISO 178285MPa 弯曲模量23°C ISO 17814500MPa 简支梁缺口冲击强度23°C ISO 179/1eA 10kJ/m²简支梁缺口冲击强度-30°C ISO 179/1eA 10kJ/m²简支梁无缺口冲击强度23°C ISO 179/1eU 53kJ/m²简支梁无缺口冲击强度-30°C ISO 179/1eU 53kJ/m²悬臂梁缺口冲击强度23°C ISO 180/1A 10kJ/m²悬臂梁缺口冲击强度-30°C ISO 180/1A 10kJ/m²单位热变形温度 1.80MPa 未退火ISO 75-2/Af 270°C 玻璃转化温度ISO 11357-290°C 熔融温度ISO 11357-3280°C线膨胀系数MD ISO 11359-2 2.60E-5cm/cm/°C 线膨胀系数TD ISO 11359-2 4.20E-5cm/cm/°C 单位体积电阻IEC 60093> 1.0E+15Ω.cm 表面电阻IEC 60093> 1.0E+15Ω.cm 绝缘强度IEC 60243-128KV/mm 介电常数23°C IEC 60250 4.601MHz 耗散因数23°C IEC 60250 6.20E-31MHz 相对漏电起痕指数IEC 60112125V 单位防火等级全色UL-94V-00.38mm 防火等级全色UL-94V-00.81mm 防火等级全色UL-94V-01.50mm 防火等级全色UL-94V-0,5VA 3.00mm 氧指数ISO 4589-247%单位干燥温度90-160°C 干燥时间2.0-6.0HrFORTRON PPS 1140L4建议水份含量<=0.20%料筒后部温度270-310°C料筒中部温度280-320°C料筒前部温度290-330°C喷嘴温度300-340°C模具温度80-160°C免责声明:本网站所展示的资料是为了方便用户查阅,对于有关信息,比如牌号、数据、建议值等所有的数据及建议等给用户带来的不确定因素和后果概不负责。
Akzo Nobel Coatings Inc. Resicoat R4-ES HJF42R 防腐蚀
Functional Powder CoatingsProduct Datasheet20, Culvert Street T+1 855-294-8934Nashville, TN 37210F+1 615-564-4181USAResicoat ®R4-ESfor Electrostatic Spray Application on Preheated Surfaces Code: HJF42RProduct DescriptionResicoat ® R4 is a high quality thermosetting epoxy powder coating for the corrosion protection of valves and fittings, manufactured from cast iron or steel. The powder coating is available to be applied in one layer on a preheated surface by electrostatic spray application. Typical film thickness achieved is in the range of 250 – 500 µm. The resultant thermoset epoxy has a high mechanical resistance with excellent electrical insulation properties. Drinking water approvals are available to confirm the coatings suitability, as a hygienic and environmental friendly coating. The outstanding adhesion of Resicoat ® R4epoxy powders to the metal substrate provides long term protection of the coated component. It ensures a reliable conservation to the function and value of the parts for the common water and gasdistribution network. The applicator of Resicoat ®R4 benefits from a modern and environmentallyfriendly process. It is possible to overcoat Resicoat ®R4 with polyester powder and liquid coatings to achieve UV protection.Typical valueMethod Powder PropertiesBinder System Epoxy resinDensity1.45 – 1.55 g/cm³ASTM D5965Gel time at 392° F (200° C )25 – 40 sec.ASTM D4217Particle size distribution D10 = 10 – 15 µm D90 = 135 – 160 µm Malvern ISO 8130-1Storage stability 6 months at ≤ 74 °F (23 °C)Safety precautionsSee Material Safety Datasheet (MSDS)Application DataPreheating temperature object 392 – 428 °F (200 – 220 °C) object temperaturePost cure conditions objectThe coating is self curing, if the wall thickness of the steel/cast iron is greater than 8 mm. If the wall thickness of the steel/cast iron is less than 8 mm, additional curing of 3 to 8 minutes at 392 °F (200 °C) object temperature is required.1. Pre-cleaning The surface must be free of oil, grease, salt, and other impurities.2. BlastingMolding sand, rust and sharp edges must be removed with angular steel grit. The graphite from the cast iron must beremoved from the blasting material according NACE No.2/ SSPC-10/Sa 2.5. Recommended anchor profile of ≥60 µm should be stored max. 4 hours before pre-heating (dust-free and dry).3. Pre-heating This form of heating produces a uniform, defined temperature in the component. Any oxidation should be avoided.4. Coating applicationImmediately after preheating, the coating process starts without loosing any object temperature. The coating is done in the shortest possible time in a single pass with no interruptionFunctional Powder Coatings20, Culvert Street T+1 855-294-8934Nashville, TN 37210F+1 615-564-4181USATypical valueMethodCoating Process5. Coating cureCuring is achieved by the heat contained in the object. If the heating capacity of the work piece is sufficient. To confirm fully curing, MIBK is dropped for 30 sec. on the film surface with no visible change.Material PropertiesColorblueRecommended film thickness 10 – 14 mils (250 – 350 µm)Flowsmooth Gloss at 90° angle 70 – 90 units DIN 67530Cross cut test Gt 0DIN EN ISO 2409Impact resistance> 5 Joule > 2.26 Joule > 18 JouleDIN 30677-2ASTM D279420 inchpoundASTM G14 modified1/8 in (3.2 mm) steel plate Abrasion resistance < 40 mg ASTM D4060CS-17, 1000 g, 1000 cycles Dielectric strength≥ 30 kV/mm IEC 60243-1Volume resistivity (DC voltage) 1.1 x 1015ASTM D257Elongation> 5 %DIN 30671Indentation resistance 48 h, 158 °F (70 °C)24 h, 140 °F (60 °C)< 30 %< 10 %DIN 30677-2/DIN EN 14901ASTM G17Compressive strength > 100 MPa ASTM D695Shear adhesion> 35 MPa ASTM D1002Heat aging in air (90 d), water fulfilled DIN EN 14901Thermal stability under heat aging pass AS/NZS 4158:2003Weathering (Xenon test), 100 d pass ASTM D2596-99HardnessF Pencil Strain polarization pass WIS 4-52-01Cathodic disbonding 30 d, 74 °F (23 °C)≤ 10 mm DIN 30677-2, GSK Hot water immersion 90 d, 158 °F (70 °C)pass AWWA C550-05Adhesion> 20 MPa ASTM D4541Adhesion after 7 d,194 °F (90°C)water≥ 16 MPaISO 4624, GSK Tensile strength approx. 500 kg/cm³ASTM D2370Penetration< 5 %ASTM G17Functional Powder Coatings20, Culvert Street T+1 855-294-8934Nashville, TN 37210F+1 615-564-4181USATypical valueMethodMaterial PropertiesDisinfectant resistanceaccording DVGW work sheet W 291(chlorine dioxide, sodium hypochlorite)no change of surface,no chalkingafter 10 test stages à 15 h The following migration test with demineralised water showed no defects of the film. The concentration of the examined parameters in the tested water were below the limits of the epoxy guideline for ancillaries for pipes DN > 300 mm (in main trunks).Water condensation test (Cleveland test), 21 d no changeASTM D4585Salt spray resistance, 2000 h no blistering, no loss of adhesionBS 3900:F4Salt spray test, 4000 hno under-rusting on the cut DIN EN ISO 9227(steel substrate)Water absorption, 100 d, 74 °F (23 °C)pass AS/NZS 3862Chemical resistance (pH 3–13, 23° C)fulfilledEN 598Conformities ·AWWA C116·AWWA C550-05·EN 14901·ISO 12944-2, table 1(standard does not include powder coating systems)It is assumed that Resicoat ® R4 is suitable to meet the high atmospheric corrosivity category C4 (typically in industrial areas and coastal areas with moderate salinity) and the very high atmospheric- corrosivity -categories C5-I (industrial) and C5-M (marine) if applied as a holiday-free coating at a film thickness> 400 µm. A sufficient film thickness is highly required to ensure good edge coverage. For gloss and color stability a UV-resistant polyester topcoat has to be applied.Drinking Water ApprovalsUS: ANSI/NSF 61 Drinking Water System Components – Health Effects, NSF DE: UBA-Coatings Guideline, Approval no.: C-138801-06, Hygiene InstitutDE: DVGW directive work sheet W 270, Approval no. W-211795-11, Hygiene Institut UK: BS 6920, Approval No. 1112500, WRASDate of issue:July 10, 2015Authorized by:GK Revision No.:3Disclaimer: This Product Data Sheet is based on the present state of our knowledge and on current laws. The data referring to Powder Properties, Application Data and Physical Tests is based on lab based samples. Factors such as quality or condition of the substrate may have an effect on the use and application of the product. It remains the responsibility of the user to test thoroughly if the product is applicable for the intended use. The use of the product beyond our recommendation releases us from our responsibility, unless we have recommended the specific use in writing. It is always the responsibility of the user to take all necessary steps to fulfil the demands set out in the local rules and legislation. We are not liable for any application-technological advice. The Product Data Sheet shall be updated from time to time. Please ensure you have the latest version before using the product. All products and Product Data Sheets are subject to our standard terms and conditions of sale (GCS). You can receive the latest copy of GCS via internet or our post address. Brand names mentioned in this Product Data Sheet are trademarks of or are licensed to the AkzoNobel group.Resistance against chemical substances of Resicoat ®R4 at room temperature20, Culvert Street T+1 855-294-8934Nashville, TN 37210F+1 615-564-4181USA Chemical resistanceAugust 01, 2014Page 1 of 3Acetic acid 10 % 2 years no change Ammonia 10 % 2 years no change Ammonia 36 % 1.5 years no change Antifrogen L 50 % 1 year no change Antifrogen N 50 %1 year no change Benzol 1 month no change Bore oil 1 year no change Butanol6 months no change Carbon tetra chloride 1 yearno change Caustic soda solution 10 % 2 years no change Caustic soda solution50 %2 years no change Chlorine cleanser and disinfectant 1.5 years no change Citric acid2 years no change Deicer Safeway KF HOT 1 year no change Deicer Safeway SF (solid) 1 year no change Deicer Safewing MP II 1951 1 yearno change Dichromatic potassium 10 % 1 year no change Diesel2 years no change Engine oil SAE 20 1 year no change Ethanol 1 year no change Ethyleneglycole 1 yearno change Formaldehyde 37 % 6 months no change Formic acid 5 % 2 years no change Formic acid 10 %1.5 years no change Glycerol 1 year no change Glysantin 1 yearno change Hydrochloric acid concentrated1 week no change Hydrochloric acid 10 %2 years no change Hydrochloric acid 25 % 1.5 yearsno change Hydrofluoric acid 1 % 1 day no change Hydrogen peroxide 3 % 1 year no change Hydrogen peroxide10 %1 yearfadedLactic acid10 % 1 week no changeMethanol 1 week no changeMethyl tert-butyl ether (MTBE)100% 6 months softeningNitric acid10 % 1.5 years no changeNitric acid25 % 1 year no changeOxalic acid 5 % 6 months no changePalm oil at 90° C7 days no changePetrol 2 years no changePetroleum 1 year no changePhosphoric acid10 % 2 years no changePhosphoric acid50 % 2 years no changePotassium hydroxide10 % 1 year no changePotassium hydroxide25 % 1 year no changePotassium hydroxide50 % 1 year no changePropanol 1 year no changeSea water 2 years no changeSodium acetate10 % 1 year no changeSodium carbonate20 % 1 year no changeSodium hypochlorite (15 % Cl2)10 weeks no changeSodium chloride 2 % 1 year no changeSodium chloride20 % 1 year no changeSodium formiate10 % 1 year no changeSuds 1 % 1 year no changeSulphuric acid 2 % 2 years no changeSulphuric acid20 % 2 years no changeSulphuric acid50 % 2 years no changeTartaric acid 5 % 1 year no changeToluol 1 year no changeTurpentine oil 1 year no changeUrea10 % 1 year no changeUrine 1 year no changeXylol 1 year no change 20, Culvert Street T+1 855-294-8934Nashville, TN 37210F+1 615-564-4181USA Chemical resistance August 01, 2014Page 2 of 3Our printed literature and technical information Sheets as well as our advisory services are offered to facilitate andsupport decision-making processes. All specifications provided reflect the state of our knowledge at the time of print. Anytechnical data and measured values supplied have been tested for compliance with current applicable standards, ifavailable. The information provided is not legally binding upon the party supplying such information.20, Culvert Street T+1 855-294-8934Nashville, TN 37210F+1 615-564-4181USA Chemical resistance August 01, 2014Page 3 of 3。
常见塑胶产品外观缺陷
© 2006 Toyoplas Group. All rights reserved.
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熔合纹 (夹水线)
• (1)何谓熔合纹?(外观) • 熔合出现在树脂合流之处。如下图所示,在有开孔的部
© 2006 Toyoplas Group. All rights reserved.
※气体通常这样从排气口排出。
※因排气口堵塞而导致排气 不畅时,无处可逃的气体便 会受到压缩并形成高温,从 而导致树脂被烧焦。
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玻纤析出
• 玻纤析出的起因与“光泽不好”相同。 详情请参阅光泽不好页。
图2. □120平板表面上出现的光泽不好(玻纤析出)(材料为Fortron 1140A1)
© 2006 Toyoplas Group. All rights reserved.
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喷射纹
• (1)何谓喷射纹?(外观) 通常,溶融的树脂是以喷流的形式来流动的。不过,当 从狭窄处流到宽阔处时,如果流速偏快,有时就会呈带状 飞出,并且在不接触模具的情况下流动。这被称为喷射 纹。根据喷射纹在成品表面的表现方式,有的呈带状, 有的则呈雾状,但它们的原因都是一样的。
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成型品外观不良
BS(黑点) 成型品表面出现的黑点现象。这是由于在机筒内已分解的树脂 或被污染的杂物等混入到成型品中而造成的。
麻点 成型品表面形成小凹坑的现象。注射速度较慢时易于发生这种 现象
熔合纹 成型品上有开孔时必然会产生熔合纹。熔合纹是指该熔合部分 实际上看起来是一条线的现象。模具温度较低时容易出现这种 现象。
电子接插件塑料材料的选用
电子接插件塑料材料的选用电子接插件是电子产品中各组成部分之间的电气活动连接元件(固定连接件为接头或焊点,另一种活动连接元件为开关),广泛用于电子设备中。
如用于各分机间、分机与电声器材间的电气连接;用于电子管、氦气管等与其他电子元件间的电气连接;用于天线、高频电缆和仪器之间的电气连接。
电子接插件的优点在于插取自如、更换方便,只经过简单的拔插过程即可,取代搭接、焊接、螺丝连接和铆钉连接等固定连接方式;并可采用集中连接,可一次连接多组元件。
随着印刷线路板和电子元器件的不断更新换代,更换方便的电子接插件应用越来越广泛,对其要求也越来越高,正朝着更长、更紧凑、更精密的方向发展。
如电子接插件的插点间距由平均2.5mm降为0. 8mm,厚度已低于1.3mm,平整度为0.13mm。
电子接插件的结构分为接触件和绝缘件两部分组成。
接触件包括插针和插孔两种,起到电气接触的作用,所用材料为铜及其合金等电的良导体,其表面进行镀银或镀金处理以提高耐腐蚀性和防生锈。
绝缘件的作用为将接触件固定并保持绝缘状态,所用材料为耐热塑料。
电子接插件用塑料材料的性能要求对电子接插件的最大性能要求为满足组装电子器件用新型表面安装技术(SMT)的要求,此技术已占电子器件组装市场的50%左右。
它采用高温下自动化操作完成组装,要求材料具有更高的耐热性和尺寸稳定性。
表面安装技术采用气相焊和红外线再流焊,需要在250℃温度下工作5秒,除要求材料耐热外,还要求耐清洗溶剂的侵蚀。
综合起来,对接插件的具体性能要求如下:● 良好的介电性能对低频电子接插件,要求绝缘电阻高和介电强度高,一般接点间、接点间与接地间的绝缘电阻应大于1Ω;在0.44M Pa的低压下,试验电压为500V时,不应产生电弧和击穿现象。
对高频电子接插件,除满足上述要求外,好要求高频介电损耗小,介电常数小。
● 耐热温度高一般热变形温度要在200℃以上,以抵抗在表面安装技术或焊接时的高温,并可耐平时接插件本身的发热温度。
美国Eaton公司产品说明书:Eaton Moeller系列xPole - mRB4 6 RCBO
Eaton 120654Eaton Moeller series xPole - mRB4/6 RCBO - residual-current circuit breaker with overcurrent protection. RCD/MCB, 16A, 100mA, B-LS-Char, 3N pole, FI-Char: AGeneral specificationsEaton Moeller series xPole - mRB4/6 RCBO - residual-current circuit breaker with overcurrent protection120654401508118484280 mm 75.5 mm 70 mm 0.446 kg CE Marked RoHS conformCE mRB6-16/3N/B/01-AProduct NameCatalog Number EANProduct Length/Depth Product Height Product Width Product Weight Compliances Certifications Model CodeSwitchgear for residential and commercial applicationsmRB6Combined RCD/MCB devicesSwitchgear for industrial and advanced commercial applications Three-pole + N44BB16 A6 - 25 Ampere0.1 AType A, pulse-current sensitiveRCBO AC400 V230 V / 400 V400 V500 V4 kV30, 100, 300 MilliAmpere Partly surge-proof, 250 A 50 HzA6 kA6 kA6 kA0.5 x I∆n6 kA6 kA6 kAApplicationProduct rangeBasic functionProduct applicationNumber of polesNumber of poles (protected) Number of poles (total) Tripping characteristic Release characteristicRated currentRated current of product range Fault current rating Sensitivity typeType Voltage typeVoltage ratingVoltage rating at ACRated operational voltage (Ue) - maxRated insulation voltage (Ui)Rated impulse withstand voltage (Uimp)Rated fault currents of product rangeImpulse withstand currentFrequency ratingLeakage current typeRated switching capacityRated switching capacity (IEC/EN 60947-2)Rated switching capacity (IEC/EN 61009)Rated non-tripping currentRated short-circuit breaking capacity (EN 60947-2) Rated short-circuit breaking capacity (EN 61009) Rated short-circuit breaking capacity (EN 61009-1) Rated short-circuit breaking capacity (IEC 60947-2)0 kA 0.25 kAUndelayed Non-delayed 100 Ampere gL 3III245 mm480 mm70 mmTri-stable slide catch - enables removal from existing busbar combinationIP20IP40Twin-purpose1 - 25 Square MillimeterBusbar tag shroud to VBG41 mm²25 mm²1 mm²25 mm²2 mmIEC 68-2: 25 °C - 55 °C at 90 % - 95 % humiditySurge current capacityDisconnection characteristic TrippingBack-up fuseSelectivity class Overvoltage category Pollution degree FrameWidth in number of modular spacingsDevice heightBuilt-in depthMounting styleDegree of protectionDegree of protection (built in)Terminals (top and bottom)Solid terminal capacitiesTerminal protectionConnectable conductor cross section (solid-core) - min Connectable conductor cross section (solid-core) - max Connectable conductor cross section (multi-wired) - min Connectable conductor cross section (multi-wired) - max Material thicknessClimatic proofing16 A0 W 11.6 W 0 W0 W-25 °C 40 °C Meets the product standard's requirements.Meets the product standard's requirements.Meets the product standard's requirements.Meets the product standard's requirements.Meets the product standard's requirements.Does not apply, since the entire switchgear needs to be evaluated.Does not apply, since the entire switchgear needs to be evaluated.Meets the product standard's requirements.Does not apply, since the entire switchgear needs to be evaluated.Meets the product standard's requirements.Does not apply, since the entire switchgear needs to be evaluated.Does not apply, since the entire switchgear needs to be evaluated.Is the panel builder's responsibility.Is the panel builder's responsibility.Is the panel builder's responsibility.Rated operational current for specified heat dissipation (In) Heat dissipation per pole, current-dependentEquipment heat dissipation, current-dependentStatic heat dissipation, non-current-dependentHeat dissipation capacityAmbient operating temperature - minAmbient operating temperature - max 10.2.2 Corrosion resistance10.2.3.1 Verification of thermal stability of enclosures10.2.3.2 Verification of resistance of insulating materials to normal heat10.2.3.3 Resist. of insul. mat. to abnormal heat/fire by internal elect. effects10.2.4 Resistance to ultra-violet (UV) radiation10.2.5 Lifting10.2.6 Mechanical impact10.2.7 Inscriptions10.3 Degree of protection of assemblies10.4 Clearances and creepage distances10.5 Protection against electric shock10.6 Incorporation of switching devices and components10.7 Internal electrical circuits and connections10.8 Connections for external conductors10.9.2 Power-frequency electric strengthIs the panel builder's responsibility.Is the panel builder's responsibility.The panel builder is responsible for the temperature rise calculation. Eaton will provide heat dissipation data for the devices.Is the panel builder's responsibility. The specifications for the switchgear must be observed.Is the panel builder's responsibility. The specifications for the switchgear must be observed.The device meets the requirements, provided the information in the instruction leaflet (IL) is observed.3Concurrently switching N-neutralIEC/EN 61009eaton-xpole-mrb4-rcbo-catalog-ca019058en-en-us.pdfeaton-xpole-mrb6-rcbo-catalog-ca019057en-en-us.pdfDA-DC-03_mRB-3N03_mRB-3p_20041603_mRB-3N_281118eaton-mcb-xpole-mrb4-6-characteristic-curve.epseaton-xeffect-frbm6/m-characteristic-curve-002.jpgDimensions xPole mRB4/mRB6 3Neaton-xeffect-frbm6/m-dimensions-004.jpgeaton-mcb-xpole-mrb4-6-dimensions.eps3D Drawing xPole mRB4/mRB6 3Neaton-xpole-combined-mcb-rcd-device-rcbo-packaging-manual-multilingual.pdfIL019140ZUDA-CS-faz_3pn_4pDA-CD-faz_3pn_4pCharacteristics xPole mRB4/mRB6 3Neaton-mcb-xpole-mrb4-6-wiring-diagram.epsContact Sequence xPole mRB4/mRB6 3N10.9.3 Impulse withstand voltage10.9.4 Testing of enclosures made of insulating material 10.10 Temperature rise10.11 Short-circuit rating10.12 Electromagnetic compatibility10.13 Mechanical function Current limiting class FeaturesStandards Catalogues Certification reports Characteristic curve DrawingsInstallation instructions mCAD modelTime/current curves Wiring diagramsEaton Corporation plc Eaton House30 Pembroke Road Dublin 4, Ireland © 2023 Eaton. All rights reserved. Eaton is a registered trademark.All other trademarks areproperty of their respectiveowners./socialmediaeaton-xeffect-frbm6/m-wiring-diagram-002.jpg。
1140L7 PPS 美国泰科纳 物性表
PPS的介绍PPS为一种白色粉末,平均分子量为0.4-0.5万,密度为1.3-1.8克每立方厘米,pps有十分优异的热性能。
添加玻璃纤维增强后的热性能指标更高,在232摄氏度经5000h的热老化后,如玻璃纤维、碳纤维、填料等来增强其力学性能,改性后的PPS能在长期工作负荷和热负荷的作用下保持高的力学性能和尺寸稳定性,因而可应用于温度高的受力环境中。
PPS的介电常数很小,介电损耗相当低,表面电阻率和体积电阻率对频率、温度、湿度的变化不敏感,是优良的电绝缘材料,它的耐电弧时间也较长,pps的化学稳定性相当好,除了受强氧化酸,如浓硫酸、浓硝酸和王水的侵蚀外,它不受绝大多数酸碱盐的侵蚀,具有接近于PTFE的化学稳定性。
在低于175摄氏度时不溶于任何已知的有机溶剂,pps与一般有机溶剂接触时不会出现塑件开裂现象。
PPS的耐辐射性好,耐辐射达到Gy 1×108,是其它工程塑料无法比拟的新材料,在电子、电气、机械、仪器、航空、航天、军事等特别是原子弹、中子弹领域,是作为耐辐射唯一理想的优良材料。
塞拉尼斯FORTRON 1140L7 PPS,40%玻纤增强分类:聚合物,热塑性,聚苯硫醚(PPS),聚苯硫醚(PPS),用40%玻璃纤维填料材质备注:一个最简单的流动40%玻璃增强的聚苯硫醚Fortron产品线档次。
这种材料可以在由于独特的结晶特性快速循环时间进行处理。
该产品提供良好的耐热和耐化学性,以及,咕FORTRON原则上应预干燥。
因为必要的最大残留低水分含量,建议采用干式空气干燥机。
露点应该是= < - 30°C干燥和处理之间的时间应尽可能短。
对于后续存储材料应存放在干燥烘干机,直到加工(<= 60小时)。
塞拉尼斯公司提供的资料。
关键词:40%玻璃纤维增强,快速循环,易流动,V-0卖方:宝瑞塑胶原料有限公司,服-务-热-线15 81 41 19 531硬度计,洛氏M 100 100 ISO 2039-2 103 103 ASTM D785拉伸断裂强度 170兆帕 24700磅 5mm/min; ISO 527-2/1A145兆帕@温度22.8°C21000磅@温度73.0°FASTM D638断裂伸长率 1.6% 1.6% 5mm/min; ISO 527-2/1A1.2%@温度22.8°C1.2%@温度73.0°FASTM D638拉伸模量 14.5 GPA 2100 KSI 1mm/min 时,ISO 527-2/1A弯曲强度 260兆帕 37700磅 ISO 178 弯曲模量 14.5 GPA 2100 KSI ISO 178 14.5 GPA@温度22.8°C2100 KSI@温度73.0°FASTM D790 抗弯刚度 207兆帕@温度22.8°C30000磅@温度73.0°FASTM D790 Izod 冲击,缺口 0.747焦耳/平方厘米@温度22.8°C1.40 ft-lb/in@温度73.0°FASTM D256 悬臂梁冲击强度,无缺口 3.68焦耳/平方厘米@温度22.8°C6.90 ft-lb/in@温度73.0°FASTM D256悬臂梁缺口冲击强度(ISO ) 8.00千焦耳/平方米 3.81 ft-lb/in² ISO 180/1A8.00千焦耳/平方米@温度30.0°C3.81 ft-lb/in²@温度86.0°FISO 180/1A电性能 公英语评论 体积电阻率 > = 1.00E 13欧姆-厘米> = 1.00E 13欧姆-厘米IEC 60093 表面电阻 > = 1.00E +15欧姆> = 1.00E +15欧姆IEC 60093 介电常数 3.7@频率1000赫兹3.7@频率1000赫兹ASTM D150 3.7@频率1.00E +6赫兹3.7@频率1.00E +6赫兹ASTM D1504.0 4.0IEC 60250@频率10000赫兹@频率10000赫兹介电强度26.0千伏/毫米660千伏/中IEC 60243-1耗散因数0.0010@频率1000赫兹0.0010@频率1000赫兹ASTM D1500.0010 @频率1.00E +6赫兹0.0010@频率1.00E +6赫兹ASTM D150耐电弧性134秒134秒ASTM D495 漏电起痕指数125 V 125 V IEC 60112150 V 150 V ASTM D3638 热性能公英语评论熔点280 °C 536 °F。
PPS公司简介
电子电器领域
由于PPS的耐热性高,电性能好,尺寸 由于PPS的耐热性高,电性能好,尺寸 稳定性和加工流动性好等特点,大量用于 电子电器部件、接插件、立体印刷电路板、 熔断丝夹具、绕线管、继电器、电熨斗、 吹风机、卷发器、灯头、暖风机、微波炉、 超纯水设备、光学部件。
连接器 电子产品配件 激光头
微波炉配件
物理性能
23℃在水中24小时吸水率 23℃在水中24小时吸水率 在水中24
测试 标准 D570 D792 D955 D955 D638 D638 D790 D790 D256 D789 D648 D648 UL94 UL94
参
单 位 PPS BF1130 百富) (百富) 0.02 1.56 0.3 0.7 145 2.2 230 13500 10 260 V-0 PPSRPPSR-3 菲利浦) (菲利浦) 0.05 1.57 0.25 0.8 140 1.3 225 8 260 V-0
0.02 1.45 0.4 0.7 145 4.1 200 14 250 V-0
0.02 1.65 0.3 0.7 135 2.2 180 10 260 V-0
密度 垂直成型收缩率 平行成型收缩率 机械性能 抗拉强度 断裂伸长率 弯曲强度 弯曲模量 缺口冲击强度 热性能 熔点 热变形温度 (1.82MPa) 热变形温度264psi 热变形温度264psi 阻燃等级UL阻燃等级UL-94 UL 阻燃等级UL阻燃等级UL-94 UL
密度 垂直成型收缩率 平行成型收缩率 机械性能 抗拉强度 断裂伸长率 弯曲强度 弯曲模量 缺口冲击强度 热性能 熔点 热变形温度 66psi 热变形温度(1.82MPa) 热变形温度(1.82MPa) 阻燃等级UL阻燃等级UL-94 UL 阻燃等级UL阻燃等级UL-94 UL
材料物性一览表
0.40-0.70% 0.40-0.60% 0.40-0.70% 0.40-0.70% 0.40-0.70% 0.40-0.70% 0.50-0.80% 0.50-0.80% 0.40-0.60% 0.40-0.60% 0.40-0.60% 0.40-0.60% 0.40-0.70% 流动1.9% 横向1.9% 流动1.9% 横向1.9% 1.8-2.2% 流动1.7% 横向1.8% 流动1.9% 横向1.9% 2.00% 2.10% 2.00% 流动0.4-0.7%横向0.8-1.5% 流动0.7-0.9%横向1.2-1.5% 1.5-2.3% 1.8-2.1% 1.80% 1.30% 1.90% 1.80% 1.90% 1.90% 流动2.0% 横向2.1% 1.8-2.2% 1.6-2.0% 1.6-2.0% 0.25-0.35% 0.15-0.25% 0.20-0.25% 0.5-0.7% 0.4-0.6% 0.1-0.3% 0.05-0.25% 0.05-0.2% 0.05-0.2% 0.4-0.6% 流动0.1-0.3%横向0.3-0.5%
E50075
MEP/三菱 住友DOW 住友 出光兴产 帝人化成
1.2 1.2 1.42 1.18
0.5%-0.7% 0.5%-0.7% 流动0.15% 横向0.6% 0.5-0.7%
0.20% 0.20% 0.11% -
110-115(4-5)
60-80
250-300 E123529 Nhomakorabea90-100(4-8h)
1.05 1.05 1.09 1.14 1.16 1.15 1.14 1.22 1.1 1.06 1.16 1.15 1.06 1.36 1.42 1.42 1.39 1.41 1.41 1.41 1.41 1.59 1.59 1.36 1.41 1.42 1.41 1.53 1.37 1.42 1.41 1.39 1.42 1.42 1.41 1.41 1.31 1.43 1.53 1.34 1.30 1.34 1.42 1.52 1.63 1.28 1.42 1.61 1.29
耐高温塑料物性对比
LCP 液晶化合物制造商密度热性能拉伸强度弯曲强度缺口强度应用简述产地杜邦 DUPONT ZENITE®6130L 1.62 HDT265度VO/0.19mm 151 197 18.5 连接器系列烫发电发器美国7130L 1.66 HDT295度VO/0.20mm 173 215 20 耐高温电子系列美国9140HT 1.71 HDT356度VO/0.20mm 175 250 22.5 BOBBIN 美国住友 SUMITOMO SUMIKASUPER®E4008 1.70 HDT313度VO/0.30mm 150 139 11 BOBBIN 日本E5006L 1.60 HDT355度VO/0.30mm 151 152 11 超耐温线圈/激光头内件日本E5008L 1.69 HDT339度VO/0.30mm 111 127 9 BOBBIN 日本E6006L 1.61 HDT284度VO/0.30mm 164 153 14 FPC/FFC 日本E6008L 1.70 HDT279度VO/0.31mm 147 143 11 CF卡/MS卡/SLIM卡日本E6807LHF 1.67 HDT275度VO/0.30mm 134 145 12 PGA478 日本宝理POLYPLASTICS VECTRA®A130 1.61 HDT230度VO/0.40mm 210 270 35 CF卡/MS卡/SLIM卡日本C130 1.61 HDT255度VO/0.40mm 160 240 35 CF卡/MS卡/SLIM卡日本E130i 1.61 HDT280度VO/0.75mm 175 220 35 连接器系列日本E471i 1.67 HDT265度VO/0.80mm 140 195 20 PGA478 日本S135 1.66 HDT340度VO/0.28mm 155 220 12 超耐温电子系列日本苏威SOLVAY新日本石油化学 ENEOS XYDAR®G-930 1.6 HDT271度VO/0.75mm 135 172 9.5 连接器IC PCMCIA卡座比利时MG-350 1.78 HDT256度VO/0.75mm 102 140 10.1 连接器系列日本HM-402 1.70 HDT313度VO/0.18mm 144 211 10 BOBBIN 日本[PPS]制造商密度热性能拉伸强度弯曲强度缺口强度应用简述产地雪佛龙菲利普CHEVRON PHILLIPS RYTON®R4-230 1.67 HDT260度VO/0.71 170 235 9 PLCC/478背板美国R7-120 1.98 HDT260度VO/0.75 140 220 6 电气/器具/汽车美国宝理POLYPLASTICS FORTRON®1140A6 1.66 HDT270度VO/0.38mm 210 290 11 FPC/478背板日本6165A6 1.98 HDT272度VO/0.75mm 130 190 4.5 相机配件日本日本油墨 DICFZ-1140 1.66 HDT>260度VO/0.36 170 265 10 PLCC/478背板日本FZ-3600 1.96 HDT>260度VO/0.73 130 200 7 DVD激光头日本出光 IDEMITSUK531A 1.93 HDT>260度VO/UL-94 97 165 12.5 CD -ROM拾音器、轴承等日本K532P1 1.90 HDT>260度VO/UL-94 97 160 12.5 相机配件日本东丽 TORAY TORELINA®A504-X90 1.65 HDT>265度VO/0.28 194 305 11 插座、线圈骨架日本A310MX04 1.97 HDT>265度VO/0.28 146 236 9 泵壳、泵轮、瓦轮、齿轮、滑轮日本[PA46]制造商密度热性能拉伸强度弯曲强度缺口强度应用简述产地帝斯曼 DSM STANYL®TE/S250F6 1.68 HDT290度VO/1.5mm 180 260 11 连接器骨架水壶的温度调节器荷兰TE/S250F8 1.77 HDT290度VO/1.5mm 180 260 14 小USB隔离器连接器微开关骨架荷兰TE250F9 1.82 HDT290度VO/1.5mm 200 270 15 移动电话I/O连接器微开关骨架荷兰TS200F6 1.41 HDT295度HB/1.5mm 210 275 19 动力转向线圈换气冷却器端盖日本46HF5040 1.77 HDT290度V0/0.25mm 180 250 14 DDR DIMM FPC连接器打印线轴日本TW341 1.18 HDT190度V2/1.5mm 100 160 40 汽车配件微电机端盖电刷架日本[PA6T]制造商密度热性能拉伸强度弯曲强度缺口强度应用简述产地三井 MITSUI ARLENTM®C430N 1.66 HDT295度VO/0.8mm 170 250 8.5 0.5 Pitch FPC B to B 连接器日本CH230N 1.63 HDT290度VO/0.8mm 160 240 8 1.0 Pitch FPC B to B耐高温电子电器日本E430N 1.66 HDT305度VO/0.8mm 170 250 8 高温无铅制程产品日本E630N 1.66 HDT305度VO/0.75mm 170 250 8.5 高温无铅制程产品日本[PA9T]制造商密度热性能拉伸强度弯曲强度缺口强度应用简述产地可乐丽 KURARAY GENESTAR®G2330 1.68 HDT285度VO/0.75mm 185 222 10 内存连接器,FPC,B to B连接器日本GN2330 1.62 HDT285度VO/0.75mm 190 225 10 薄壁及窄间距连接器日本G2450 1.77 HDT285度VO/0.75mm 190 240 11 FPC上盖滑片(Slider),IC-Socket 日本GW2458HF 1.73 HDT285度VO/0.75mm 175 222 10 耐高温电子电器日本[HTN]制造商密度热性能拉伸强度弯曲强度缺口强度应用简述产地杜邦DUPONT ZYTEL® HTN51G35HSL 1.47 HDT260度VO/0.70mm 226 253 11.4 连接器电机端盖汽车配件美国FR52G30BL 1.60 HDT278度VO/0.70mm 173 220 11.7 连接器电机端盖汽车配件美国。
常见塑胶缺陷分类
成型品外观不良
2020/7/18
波纹:浇口附近出现波纹状皱纹的现象。射速过慢会产生这种现象。
喷射纹 注射速度过快时树脂流动前端突出的现象。成型品表面会出现 各种花纹。
充填不足 成型品无法完全充填的现象。
docin/sundae_meng
C7
图2.在本公司的手柄型试样上形成的熔合纹(*手柄的大小约为7cm)
❖ (1)何谓烧焦?(外观)
烧焦是指在成型时成型品表面的烧焦现象。
图1. 手柄试样上出现的气体烧焦(*试样大小约为10cm)
2020/7/18
docin/sundae_meng
D8
❖ 当树脂填充模腔时,原有的空气会从排气口排出。此时, 树脂所产生的气体也会从排气口排出。但是,如果模具 的排气口被堵塞,或流动末端本来就没有排气口,气体 便无法排出,受到压缩后形成高温,从而导致树脂被烧 焦。
麻点 成型品表面形成小凹坑的现象。注射速度较慢时易于发生这种现 象
熔合纹 成型品上有开孔时必然会产生熔合纹。熔合纹是指该熔合部分实 际上看起来是一条线的现象。模具温度较低时容易出现这种现象。
气体烧焦 成型品充填末端烧焦的现象。排气不良时易于产生这种现象。
2020/7/18
玻纤析出 成型品表面浮出玻璃纤维的现象。
docin/sundae_meng
(图片中的凹坑的尺寸约为0.1~0.5mm)
B6
熔合纹 (夹水线)
❖ (1)何谓熔合纹?(外观)
❖ 熔合出现在树脂合流之处。如下图所示,在有开孔的部 分必然会现成熔合。
图1. 在本公司的外观评价用的试样上形成的熔合纹(*图片中的孔的大小约为 2mm)
路由器默认用户名和密码大全
路由器默认用户名和密码大全这些都是一些ADS L设备出厂时初始IP,默认用户名和密码,调试时必须要知道的,收集如下:艾玛701g192.168.101.1 192.168.0.1用户名:admin密码:a dmin用户名:S ZIM 密码:SZI M艾玛701H 192.168.1.1 10.0.0.2用户名:a dmin密码:ep icrou ter实达2110EH RO UTER192.168.10.1 用户名:use r 密码:passw ord 用户名:ro ot 密码:grou ter神州数码/华硕:用户名:ads l 密码:adsl1234 全向:用户名:roo t 密码:root普天:用户名:ad min 密码:dar ee-t ek 用户名:adm in 密码:12345zyx el 用户名:ano nymou s 密码:1234北电用户名:ano nymou s 密码:12345大恒用户名:ad min 密码:adm in大唐用户名:admin密码:1234斯威特用户名:roo t 密码:root用户名:u ser 密码:use r中兴用户名:a dsl 密码:ads l8311、全向Q L1680 IP地址10.0.0.2,用户名:ad min,密码:qxc omm1680,管理员密码:qxcom msupp ort。
全向QL1880 IP地址192.168.1.1,用户名:ro ot,密码:root 全向QL1688I P地址10.0.0.2,用户名为admi n;密码为qxcom m16882、TP-LINK TD-8800在I E输入192.168.1.1,户名adm in,密码admin3、合勤zyxel 642在运行输入telne t 192.168.1.1 密码12344、Ec om ED-802E G 在IE输入192.168.1.1,用户名和密码都为roo t5、神州数码6010RA,在IE输入192.168.1.1 用户名为ADSL,密码为A DSL1234 6、华为Sma rtAXMT800的初始IP是192.168.1.1,用户名和密码都为ADMI N,恢复默认配置的方法有两种,一种是连续按MODE M背后的R ESET键三次,另一种是在配置菜单的SA VE&RE BOOT里选择恢复默认配置。
塑胶材料的特性与应用
S )n (
S )n
(
S )n
HEAT
S
O
(
S )n (
S )n
PPS樹酯特性
物理機械性能﹕
1.與玻璃纖維復合增強后﹐具有極為優良的強度, 剛性﹐和耐疲勞性。
2.在高溫下強度保持率良好。 3.成型收縮率及線膨脹系數低。 4.尺寸穩定性優良﹐適于制備精密注塑品。
PPS材料特性
PPS材料的熱性能及其它性能
聚醯胺類材料特性
耐化學性佳 耐磨耗優良 氧氣透過率小 韌性佳 潤滑性 流動黏度對溫度敏感度高 高吸溼性,不適用於高頻,高濕環境
生產尼龍常見問題
吸水性 成形時含水率<0.1%
電器性質差 腐蝕氣體多
流動性 結晶度 韌性 常溫剛性 高溫剛性 耐熱性 成形週期 吸溼性 焊錫性 價格
尼龍特性比較表PA66源自• 優良的成形加工性 • 優於 ABS:耐熱性、耐衝擊性、尺寸安定性 • 優於 PC:流動性、降低成本 • 低溫(-350C)至室溫保有極佳之物性 • 隨 PC 含量不同,可彈性調整不同耐熱性及耐衝擊性 • 耐 UV、螢光、長時間色澤保持性優 • 耐磨性 • 環保性
ABS特性
丙烯腈提供耐熱及抗化性,丁二烯提供韌性及耐衝 擊性,苯乙烯提供挺性及加工性 1.良好的機械平衡特性 2.成型呎寸穩定性好 3.低吸水性 4.表面性佳 5.易染色 1.耐溶劑性差 低介電強度 低拉伸率 1.阻燃級ABS耐溫較底,易裂解。
2.各廠家LCP 主要成分
HO
A
O C OH
HO
B
HO
OH
C
O C OH
LCP液晶高分子都含有A組分.
1.結構中含有B組分,如 AMOCO,POLY,SUMITOMO的LCP耐熱性較高.
塑料注塑机的清机方法
一.什么是清机?所谓清机(purge)就是“驱逐”、“清除”之意,是指注塑成型中取代料筒内树脂的作业.在一般的注塑成型机中,只要不进行拆卸清扫之类的作业,就不能完全排除料筒内部的树脂.所以,改变材料时清机作业非常重要.具体的清机作业按以下程序进行:1.尽可能通过计量→注塑,从料筒前端排出前次树脂A.2.投入后次树脂B,反复进行同样的计量→注塑操作.随着树脂B的计量→注塑,将料筒内残留的树脂A一起排出.通过反复操作,渐渐将树脂A从料筒中排出.二.有些部位容易残留前次树脂但是,事实上如果只用后次树脂进行单纯的清机作业,是很难完全排出前次树脂的.因为成型机的料筒结构不是单一的,特别是在下图所示部位容易残留前次树脂.可以说,清机作业是通过机械力(螺杆的转动和前后移动),将这些部位的树脂进行有效的排出.三.适合清机的成型条件是什么?那么,怎样才能有效地进行清机呢?首先,从成型条件开始介绍.1.设定较快的注塑速度‧‧‧特别是对于喷嘴前端等处树脂的清机有效.2.设定较高的背压和螺杆转数‧‧‧对于螺杆上粘附塑料树脂的清机有效.3.设定较少的计量和较多的注塑次数‧‧‧这是因为开始注射的瞬间有加速度作用,对于粘附树脂的剥离效果强.与增加计量相比,增加次数对于清机更加有效.关于温度设定,请参照下项.四.这样设定温度!虽然在同系树脂的置换时没有问题,但在不同系树脂的清机时需要考虑各自的熔点.为了便于说明,我们假设前次树脂为A、其熔点为a℃,后次树脂为B、其熔点为b℃.1.当a℃<b℃时在可使用树脂B的温度范围内,设定较低的温度进行清机作业.由于温度较低,树脂B的粘度较高,从而清机效果良好.但是需要确认该温度下树脂A是否不分解.如果树脂A发生分解,则须使用清机料.否则,有可能料筒内产生大量BS,或粘付坚硬的炭化物而无法取出.2.当a℃�Pb℃时由于两者的可成型温度范围没有差异,所以不必介意温度即可进行清机.3.当a℃>b℃时如果树脂A与树脂B的可成型温度范围相重合,则在该温度下进行清机.但是树脂A粘度高、树脂B粘度低,清机效率不好.一般认为,此时最好使用清机料,这样还可降低成本.如果树脂A与树脂B的可成型温度范围不相重合,则几乎无法进行清机料,必须在两者之间使用清机材料.原则上,以前次树脂A的熔点a℃和后次树脂B的熔点b℃这两个温度进行熔融,而且将适合于树脂A、B的树脂C作为清机料,以A→C→B的方式进行清机作业,这是最理想而切实的清机方法.如果中间不插入清机料,则可能会发生各种问题.对此,敬请大家予以注意.五.前次树脂非常难以排出时有些树脂用单纯的清机方法难以排出.此时,请尝试使用以下方法:‧在喷嘴顶出的状态下,设定高背压(5Mpa以上)使螺杆转动.‧不仅使用大注塑量,而且使用大抽塑量.使螺杆剧烈进行前后运动.‧计量位置经常变化而不固定.‧如果使用填充玻璃纤维的清机料,由于玻璃纤维的切削作用,有希望获得剥落粘附树脂的效果.六.置换实例最后,介绍一下关于本公司树脂清机方法的实际用例,务请参照.1.从pps(Fortron1140A1)树脂切换到pom(夺钢M90S)树脂时‧Fortron1140A1成型温度范围:300~320℃‧夺钢M90S成型温度范围:190~210℃�@←两者完全不重合此时,两者中间必须使用清机料.假设Fortron成型完毕后,即使降低温度用夺钢进行清机,由于料筒内的Fortron已经固化也无法清除出来.这些Fortron有可能作为异物时常混入成型品中,或成为计量不良的因素正确的清机程序‧首先,尽可能排出料筒内的Fortron-料筒温度为310℃.‧然后,用填充玻璃纤维的聚碳酸酯作为清机料进行清机-料筒温度为310℃.由于玻璃纤维的切削作用,Fortron1140A1被排出机外.‧然后用聚乙烯作为清机料进行清机聚碳酸酯.‧再将料筒温度降低到200℃‧用夺钢M90S置换聚乙烯-料筒温度为200℃.2.从pom(夺钢M90S)树脂切换到lcp(VectraC130)树脂时‧夺钢M90S的成型温度范围:190~210℃‧VectraC130的成型温度范围:320~350℃←两者完全不重合此时,两者中间也必须使用清机料.假设在夺钢没有被完全清除的情况下即升高到Vectra的温度,夺钢就会分解,从而产生BS、气味、银纹、发泡等问题.正确的置换程序‧首先,尽可能排出料筒内的夺钢-料筒温度为200℃.‧然后,用聚乙烯作为清机料进行清机-料筒温度为200℃.‧再将料筒温度升高到320℃.‧用VectraA130置换聚乙烯-料筒温度为320℃。
PPS塑胶原料物性表
FORTRON®品级系列PPS(聚苯硫醚) FORTRON®客户注意事项●本资料所记载的物性值是按各种规格及实验方法规定的条件下制得的实验片的代表性测试值。
●本资料是根据本公司积累的经验及实验数据作的,本文所示数据对在不同的条件下使用的制品不一定能完全适用。
因此其内容并非能保证完全适用于客户的使用条件,引用或借用时请客户作最终判断。
●有关本资料所介绍的应用例、使用例等技术及数据、使用寿命、可能性等请客户自作考虑。
此外,本公司材料并没有考虑到在医疗和齿科方面的应用(用作移植组织片),故不推荐用在此方面。
●有关适当的操作规程,请根据使用目的参考相应材料的[技术资料]。
●有关本公司材料的安全使用,请参考与所用材料、品级相对应的制品安全数据表[MSDS]。
●本资料是根据现阶段搜集到的资料、信息、数据而作成的,如有新的见解时,有可能不加预告而作更改,敬请注意。
●对本公司制品的说明材料,或者是这里所说的注意事项等,如有任何不明白的地方,敬请与本公司联系商谈。
*[FORTRON®]是吴羽化学工业株式会社在日本及其他国家的注册商标,宝理塑料株式会社受权使用此商标。
1140A1的一般物性表1-1 一般物性(ISO)项目单位测试方法玻璃纤维增强1140A1高韧性颜色HF2000/HD9050ISO(JIS)材质表示ISO11469(JIS K6999)>PPS-GF40<密度g/cm3ISO 1183 1.66吸水率 (23℃、水中24小时)%ISO 620.01熔体粘度 (310℃、1,000/sec)Pa・s ISO 11443380拉伸强度MPa ISO 527-1,2185断裂应变%ISO 527-1,2 1.8弯曲强度MPa ISO 178260弯曲模量MPa ISO 17813000简支梁冲击强度 (有缺口)kJ/m2ISO 179/1eA10负荷变形温度 (1.8MPa)℃ISO 75-1,2265线性热膨胀系数 (常温、流动方向)x10-5/℃ISO 11359-2-线性热膨胀系数 (常温、垂直方向)x10-5/℃ISO 11359-2-绝缘破坏强度 (3mmt)kV/mm IEC 60243-115体积电阻率Ω・cm IEC 60093 1 × 1016介电常数 (1kHz)IEC 60250 4.6介电常数 (1MHz)IEC 60250 4.6介电损耗角正切 (1kHz)IEC 602500.002介电损耗角正切 (1MHz)IEC 602500.002耐导电径迹V IEC 60112150阻燃性UL94V-0UL发行的黄卡E109088「出口贸易管理法令」的该当项目番号附属表1 第16项※1) 断裂公称应变以上数值为材料的代表性测试值、并非该规格材料的最低值。
PPS塑胶原料物性表
FORTRON®品级系列PPS(聚苯硫醚) FORTRON®客户注意事项●本资料所记载的物性值是按各种规格及实验方法规定的条件下制得的实验片的代表性测试值。
●本资料是根据本公司积累的经验及实验数据作的,本文所示数据对在不同的条件下使用的制品不一定能完全适用。
因此其内容并非能保证完全适用于客户的使用条件,引用或借用时请客户作最终判断。
●有关本资料所介绍的应用例、使用例等技术及数据、使用寿命、可能性等请客户自作考虑。
此外,本公司材料并没有考虑到在医疗和齿科方面的应用(用作移植组织片),故不推荐用在此方面。
●有关适当的操作规程,请根据使用目的参考相应材料的[技术资料]。
●有关本公司材料的安全使用,请参考与所用材料、品级相对应的制品安全数据表[MSDS]。
●本资料是根据现阶段搜集到的资料、信息、数据而作成的,如有新的见解时,有可能不加预告而作更改,敬请注意。
●对本公司制品的说明材料,或者是这里所说的注意事项等,如有任何不明白的地方,敬请与本公司联系商谈。
*[FORTRON®]是吴羽化学工业株式会社在日本及其他国家的注册商标,宝理塑料株式会社受权使用此商标。
1140A1的一般物性表1-1 一般物性(ISO)项目单位测试方法玻璃纤维增强1140A1高韧性颜色HF2000/HD9050ISO(JIS)材质表示ISO11469(JIS K6999)>PPS-GF40<密度g/cm3ISO 1183 1.66吸水率 (23℃、水中24小时)%ISO 620.01熔体粘度 (310℃、1,000/sec)Pa・s ISO 11443380拉伸强度MPa ISO 527-1,2185断裂应变%ISO 527-1,2 1.8弯曲强度MPa ISO 178260弯曲模量MPa ISO 17813000简支梁冲击强度 (有缺口)kJ/m2ISO 179/1eA10负荷变形温度 (1.8MPa)℃ISO 75-1,2265线性热膨胀系数 (常温、流动方向)x10-5/℃ISO 11359-2-线性热膨胀系数 (常温、垂直方向)x10-5/℃ISO 11359-2-绝缘破坏强度 (3mmt)kV/mm IEC 60243-115体积电阻率Ω・cm IEC 60093 1 × 1016介电常数 (1kHz)IEC 60250 4.6介电常数 (1MHz)IEC 60250 4.6介电损耗角正切 (1kHz)IEC 602500.002介电损耗角正切 (1MHz)IEC 602500.002耐导电径迹V IEC 60112150阻燃性UL94V-0UL发行的黄卡E109088「出口贸易管理法令」的该当项目番号附属表1 第16项※1) 断裂公称应变以上数值为材料的代表性测试值、并非该规格材料的最低值。
活体科技 3人员专用 3 Megapixel 综合能力 D N 适应型红外 LED 基本 WDR 变
Basic WDR (74 dB); White balance: automatic, hold, and manual; Brightness; Contrast; Sharpness (auto); Auto gain control; Digital noise reduction; Flickerless
4 configurable regions User defined text on video User defined image layer on video
Image flip and mirror
• Audio
Compression Audio-In Audio-Out
8 kHz, Mono, PCM, 16 bit encoding; G.711 Cable with 3.5mm phone jack Cable with 3.5mm phone jack
Microsoft Internet Explorer 8.0 or newer (full functionality); Safari with QuickTime installed, and other browsers with VLC installed (partial functionality)
• Interface
Digital Input Digital Output Local Storage
1, cable without connector 1, cable without connector MicroSDHC/MicroSDXC memory card slot (card not included)
Parker Hannifin 400XR精密线性位器系列介绍说明书
Screw Driven TablesThe “400XR” precision linear positioners family hasachieved global recognition for consistent accuracy, reliable performance, high strength, and unmatched versatility. The XRs have excelled in industries such as life sciences, fiber optics and instrumentation, where the highest degree of precision is required. And yet, because of the rugged construction, strength, and sealed design, these units have been used extensively for industrial automation applications (packaging, automotive, etc).The XR family offers an unrivaled array of features and options which are easily matched to fit any application, from the very basic to the highly complex. Premierperformance, modular compatibility, and quick delivery have made these tables the perfect building blocks for precision multi-axis systems.400XR Series Precision Linear PositionersPre-engineered packagePerformance matched components Environmental protection Laser certified precision401XR402XR404XR406XR412XR Limit/home position sensors Multi-axis brackets & adapters 401XR402XR 404XR 406XR 412XR Travel (mm)30060060020002000Load (kg)501001706301470Acceleration (m/sec 2)2020202020S c r e w D r i v e n T a b l e sEncodersThe linear encoder option offers direct positional feedback of the carriage location. The rotary shaft encoder couples directly to the drive shaft to nullify any incurred mechanical error (particularly useful with the parallel motor mount). Not shown.Shaft BrakeThe electromagnetic shaft brake option couples directly to the drive screw and is employed primarily on vertical axes to halt carriage motion during a power loss. Not shown.Convenient Mounting SlotsContinuous T -slots along the side of the table body provide a convenient means of mounting the table to a worksurface as well as mounting accessories to the table.Positive Pressure PortA standard port (1/8 NPT) for pressurizing the interior to prevent particle intrusion.(Standard on 404XR, 406XR, 412XR units.)Easy Lube SystemA standard option on some models, enables easy access for ballscrew and bearing lubrication.High Strength Aluminum BodyExtruded aluminum housing is precision machined to provide outstanding straightness and flatness.Square Rail Linear BearingThese tables are equipped with square rail carriage support bearings which provide high load carrying capabilities, smooth precise motion and dependable performance.High Efficiency Ballscrew DrivePrecision ground, or rolled ballscrew drive (5, 10, 20, 25, 32 mm lead) offers high throughput, efficiency, accuracy and repeatability.Limit/Home SensorsProximity sensors establish “end of travel” and“home” location and are easily adjustable over entire length to restrict the travel envelope.Motor MountsA large selection of servo and stepper motor sizes plus selectable mounting configurations (in-line, parallel) permit a wide variety of motor mounting possibilities.IP30 Rated Strip SealsAn anodized aluminum cover combined withstainless steel strip seals provide IP30 protection to interior components as well as enhance the overall appearance.512364Screw Driven TablesCarriage equipped with dowel locating holes for repeatable positioning of tooling or payload.401XR (41 mm wide profile)402XR Series (58 mm wide profile)The 401XR and 402XR Series positioners enhance the 400XR family of precision linear positioners, addressing applications which involve precise positioning of smaller payloads within a very small space envelope.address the needs of industries such as photonics, life technology advancements dictate miniaturization of work envelopes.402XR401XRTravel/Screw Lead Dependent SpecificationsInput Inertia (10-5 kg-m 2)MaxScrew Speed (revs/sec)Unit Weight(kg)401XR 402XR2 mm 10 mm 5 mm 10 mm 401XR 402XR 401XR 402XR501020––20–0.6–––100– 1.0–1001020102020200.9–12.0–10090 1.2 2.3150122012202020 1.1–15.0–10090 1.3 2.6200163016302525– 4.720.0–10090 1.5 2.8300184018402525– 5.2–25.010090 1.7 3.2400––2140–30–––29.0–95– 3.8600––2550–30–––39.0–50–4.8*Accuracy stated is at 20°C utilizing slope correction factor provided.Common SpecificationsPrecision*Standard401XR402XR 401XR 402XR Bidirectional Repeatability 2 mm lead5 or 10 mm lead µm ±1.3 ±1.3– ±1.3±5 ±12– ±12Duty Cycle%100100100100Maximum Acceleration m/sec 2 (in/sec 2)20 (773)20 (773)20 (773)20 (773)Normal Load Capacity (1)kgf (lbs)50 (110)100 (220)50 (110)100 (220)Axial Load Capacity (1) 2 mm lead5 or 10 mm lead kgf (lbs) 5.5 (12.1)15.5 (34.2)–38 (84) 5.5 (12.1)15.5 (34.2)–38 (84)Drive Screw Efficiency %80808080Maximum Breakaway Torque Nm (in-oz)0.03 (4.2)0.086 (12.0)0.03 (4.2)0.086 (12.0)Maximum Running Torque (2)Nm (in-oz)0.028 (4.0)0.08 (11.3)0.028 (4.0)0.08 (11.3)Linear Bearing Coefficient of Friction 0.010.010.010.01Ballscrew Diameter 2 mm lead5 or 10 mm lead mm 68–1268–12Carriage Weightkg (lbs)0.045 (0.1)0.11 (0.25)0.045 (0.1)0.11 (0.25)* Requires linear encoder option E3 or E4. (1) Refer to life load charts found later in this section. (2) Ratings established at 2 rps.S c r e w D r i v e n T a b l e sParallel Motor Mount(with limit/home sensor pack option)Travel/Screw Lead Dependent SpecificationsTravel (mm)Positional Accuracy (4) (5)(µm)Straightness & FlatnessInput Inertia (10-5 kg-m 2)Max ScrewSpeed (6) (revs/sec)Unit Weight(kg)Precision Standard5 mm 10 mm 20 mm 508126 1.68 1.81 2.3460 2.81008126 1.93 2.07 2.6060 3.015010149 2.19 2.32 2.8560 3.3200122010 2.44 2.57 3.1160 3.6250122212 2.69 2.83 3.3660 3.9300142413 2.95 3.08 3.6160 4.2350142615 3.20 3.33 3.8760 4.5400162616 3.46 3.59 4.1260 4.8450192818 3.71 3.84 4.3760 5.1500213419 3.96 4.10 4.6360 5.4550233621 4.22 4.35 4.8860 5.76002540224.474.605.14546.0Screw Driven TablesParallel Motor Mount (with limit/home sensor pack option)406XR Series (150 mm wide profile)The 406XR can position high loads (up to 630 kgf) over distances up to two meters. Because of its size and strength (270 Nm, 200 lb-ft moment load capacity) this durable table is ideal as the base unit in a multi-axissystem. From high resolution to high throughput, selectable ballscrew leads (5, 10, 20, 25 mm) make the desiredresolution/velocity ratio easy to achieve, and stainless steel seal strips alleviate environmental concerns.Travel/Screw Lead Dependent SpecificationsInput Inertia (10-5 kg-m 2)Max ScrewSpeed (6) (revs/sec)Unit Weight (kg)10 mm 20 mm 25 mm1008126 3.34 3.85 5.90–608.7200122010 3.92 4.43 6.48–6010.0300142413 4.50 5.017.06–6011.3400162616 5.08 5.597.64–6012.6500213419 5.65 6.178.22–5513.9600254022 6.23 6.758.80–4415.2700–922536.5137.02–40.614719.2800–942939.9640.47–44.074720.7900–1033243.4143.93–47.524722.21000–1053546.8747.38–50.974723.71250–1184255.5056.01–59.613527.61500–1345064.1464.65–68.242631.41750–1545772.7773.28–76.882035.22000–1596581.4081.92–85.511639.1Common SpecificationsStandardBidirectional Repeatability (5)µm ±1.3±3Duty Cycle%100100Maximum Acceleration m/sec 2 (in/sec 2)20 (773)20 (773)Normal Load Capacity (1)kgf (lbs)630 (1390)630 (1390)Axial Load Capacity (2)0 to 600 mm Travel 700 to 2000 mm Travelkgf (lbs)90 (198)–90 (198)200 (440)Drive Screw Efficiency %9090Maximum Breakaway Torque 0 to 600 mm Travel 700 to 2000 mm Travel Nm (in-oz)0.13 (18)–0.18 (26)0.39 (55)Maximum Running Torque (3) 0 to 600 mm Travel 700 to 2000 mm TravelNm (in-oz)0.11 (16)–0.17 (24)0.34 (48)Linear Bearing Coefficient of Friction 0.010.01Ballscrew Diameter 0 to 600 mm Travel 700 to 2000 mm Travel mm 16–1625Carriage Weightkg (lbs)2.7 (5.94)2.7 (5.94)(1) Refer to life load charts found later in thissection.(2) Axial load for parallel mount is limited to:140 lbs for the 5, 10 and 20 mm lead drives:104 kg (230 lbs) for 25 mm lead drives (3) Ratings established at 2 rps.(4) Positional accuracy applies to in-line motorconfigurations only. Contact factory for parallel motor specifications.(5) Consult factory for specifications withlinear encoder.(6) Consult factory for higher screw speeds.S c r e w D r i v e n T a b l e s412XR Series (285 mm wide profile)The 412XR is a rugged heavy duty linear table (285 mm x 105 mm profile) that enables massive loads (up to1470 kgf) to be precisely positioned over distances up to two meters. Single point “easy lube” port is standard on carriage assembly for simple servicing and a convenient adapter plate (#100-6784-01) is available for easy X-Y configuration.An unrivaled array of options combined with mounting compatibility with the smaller 400XR tables makes the 412XR ideal as the base unit for multi-axis positioning of heavier payloads.Travel/Screw Lead Dependent SpecificationsInput Inertia (10-5 kg-m 2)Max Screw Speed (5)(revs/sec)Unit Weight (kg)5 mm 10 mm 25 mm 32 mm 5, 10, 25 mm 32 mm 5, 10, 25 mm 32 mm 15064927.2029.4546.7698.20474239.641.5250661230.2132.4649.78106.28474242.945.0350711533.2335.4852.79114.37474246.248.5650912442.2744.5261.83138.63474256.159.0800942946.7949.0466.35150.76474261.064.210001053552.8155.0672.37166.94454267.671.212501184258.8461.0978.40183.11344174.278.215001345067.8770.1287.44207.38243184.188.717501545775.4177.6694.97227.59182492.497.520001596582.9485.19102.50247.811519100.6106.2Common SpecificationsStandardScrew Leadmm 5, 10, 2532Bidirectional Repeatability (4)µm ±5±5Duty Cycle%100100Maximum Acceleration m/sec 2 (in/sec 2)20 (773)20 (773)Normal Load Capacity (1)kg (lbs)1470 (3241)1470 (3241)Axial Load Capacity kg (lbs)200 (441)460 (1014)Drive Screw Efficiency %9080Maximum Breakaway Torque Nm (in-oz)0.61 (86)0.76 (108)Maximum Running Torque (2)Nm (in-oz)0.55 (78)0.69 (98)Linear Bearing Coefficient of Friction 0.010.01Ballscrew Diameter mm 2532Carriage Weightkg (lbs)12 (27)13 (28)(1) Refer to life load charts found later in thissection.(2) Ratings established at 2 rps.(3) Positional accuracy applies to in-line motorconfigurations only. Contact factory for parallel motor specifications.(4) Consult factory for specifications withlinear encoder.(5) Consult factory for higher screw speeds.Screw Driven Tables400XR Series Life/LoadTh e following performance information is provided as asupplement to the product specifications pages. The following graphs are used to establish the table life relative to the applied loads. The useful life of a linear table at full catalog specifications is dependent on the forces acting upon it. These forces include both static components resulting from payload weight, and dynamic components due to acceleration/deceleration of the load. In multi-axes applications, the primary positioner at the bottom of the stack usually establishes theload limits for the combined axes. When determining life/load, it is critical to include the weight of all positioning elements that contribute to the load supported by the primary axis. Catalog load specifications are rated for 100 million inches of travel or 2,540 km.For final evaluation of life vs load, including off center, tension, and side loads refer to the charts and formulas found on our web site at .S c r e w D r i v e n T a b l e s400XR Series Bearing Life/Load*Refer to Parker’s website for moment loading and other engineering data.*For 401XR and 402XR moment loading capacities, please refer to the maintenance manual.d1d2da 404XR 805728406XR 11490.342.5412XR20519243These charts are to be used inconjunction with the corresponding formulas found in the product manuals at to establish the life/load for each bearing (4 per table).Several dimensions, which are specific to each linear positioning table model, and the load geometry are required for these computations. These dimensions are supplied in the catalog information for each positioner. The dimensions are referenced as follows:d1 bearing block center-to-center longitudinal spacingd2 bearing rail center-to-center lateral spacingda Rail center-to-carriage mounting surfaceScrew Driven TablesSensor / Bracket Detail401XR Limits and Home SensorHome or Limit Sensor OptionsEnd of Travel and Home Sensors for the 400XR series are available in a variety of styles. The sensors can be ordered as part of the table or as separate componentswith the associated mounting hardware or in an enclosed sensor pack. A 5 meter high-flex extension cable (Part No. 003-2918-01) is included for use with the 401XR thru 406XR models having the locking connector option.• NPN (Sinking) or PNP (Sourcing)• Normally Closed (N.C.) or Normally Open (N.O.)• Flying Leads or Locking ConnectorSwitch TypeLogic Cable LengthConnector OptionH2 or L2006-1639-01N.C.Sinking 3.0 mF lying Leads H3 or L3006-1639-02N.O.Sinking 3.0 mF lying Leads H4 or L4006-1639-03N.C.Sourcing 3.0 mF lying Leads H5 or L5006-1639-04N.O.Sourcing 3.0 mF lying Leads H6 or L6006-1639-09N.C.Sinking 150 mm Locking Connector H7 or L7006-1639-08N.O.Sinking 150 mmL ocking Connector H8 or L8006-1639-11N.C.Sourcing 150 mmL ocking Connector H9 or L9006-1639-10N.O.Sourcing150 mmL ocking Connector H11 or L11See chart below N.C.Sinking See chart below Sensor Pack H12 or L12See chart below N.O.Sinking See chart below Sensor Pack H13 or L13See chart below N.C.Sourcing See chart below Sensor Pack H14 or L14See chart belowN.O.SourcingSee chart belowSensor Pack* Applies to 401XR thru 406XR models. 412XR models have limits and homes internally mounted with a connector termination. Sensor triggers (targets)ordered separately.Input Power 5-30 VDC, 20 mA Output 100mA max Wire Color (+) Supply: Brown Code(–) Supply: Blue NO Output: BlackNC Output: WhiteSensor Pack CableDescription Part Number 3 Meters 006-1742-017.5 Meters006-1742-02Wire ColorFunction Pin NumberRed +5 to +24 VDC A Blue Limit 1 (LXR –)B Orange Limit 2 (LXR +)C Green HomeD Black GroundE Green/YellowShieldShield Case406XR with Limit and Home Sensor PackS c r e w D r i v e n T a b l e sLinear Encoder Options (Tape Scale)A linear position feedback device which mountsdirectly to the table carriage. (Factory installation required.)• 1.0 µm resolution • 0.5 µm resolution • 0.1 µm resolutionNote: Dimensions shown apply tofactory for 412XR dimensions.401XR with Linear Encoder plus Sensor Pack404XR with Brake OptionBrake Assembly OptionElectromagnetic brake assembly used to prevent“backdriving” in vertical applications. The brake option includes a 5 m extension cable. The brake option is easily field installed. The brake option cannot be installed with the rotary encoder option.Table Series Part NumberInput PowerHolding Torque Dimensions (mm)A B 401XR/402XR—————404XR 006-1627-0124 VDC, 0.46 A 2.0 Nm 41.546.0406XR 006-1656-0124 VDC, 0.5 A 4.5 Nm 49.957.5412XR002-1916-0124 VDC, 0.75 A9.0 Nm54.072.0Input Power 5 VDC, 150mAOutput A/B quadrature and reference mark, differential line drive output Resolution 1.0, 0.5, 0.1 micron Cable Length3 mRotary Encoder OptionModular rotary encoder couples directly to the drive screw for position feedback and is easily field installed. The rotary encoder cannot be installed with the brake assembly option.• 5000 counts/revSpecifications Input Power 5 VDC, 135 mAOutput A/B quadrature and reference mark, differential line drive outputResolution 1250 lines/rev equals 5000 counts post quadrature (1 µm with 5 mm lead ballscrew)Cable Length150 mmScrew DrivenTablesTwo locating dowel pins shown in carriageDowel Pinning Options*Standard dowel pin locating holes are offered on most 400XR units to facilitate repeatable mounting of tooling or payload.*In addition, pinning options are offered for precise orthogonal mounting of the second axis in a multi-axis system. In this case, the bottom side of the table base is match drilled and reamed to the first axis to provide exact orthogonal location. This convenient optioneliminates concerns regarding contamination or damage often associated with machining for locating pins in an assembled unit.*Not available with 401XR or 402XR or 50 mm travel 404XR.S c r e w D r i v e n T a b l e s(2) Mtg. Holes for 401XR/402XRPart Number: 002-2063-01/ 002-2064-01400XR Series AccessoriesRiser Plate AccessoryUsed to raise the table base to provide clearance for motors.401XR 002-2063-01402XR 002-2064-01404XR 002-3619-01406XR 002-3625-01412XR—(2) Mtg. Holes404XRPart Number: 002-3619-01406XRPart Number: 002-3625-01Dimensions (mm)A B C 401XR 65.050.417.0402XR90.075.410.0404XRPart Number: 002-3618-01Toe Clamp AccessoryUsed for convenient outboard mounting of table to a base plate, riser plates, Z-axis bracket, or other 400XR table. All hardware is included.404XR 002-3618-01406XR 002-3624-01412XR002-2160-01406XRPart Number: 002-3624-01412XRPart Number: 002-2160-01Screw DrivenTablesIf the Y-axis is 404XR with 50 mm stroke, a special plate or toe clamp option is required.400XR Multi Axis ConfigurationsS c r e w D r i v e n T a b l e s400XR Multi Axis ConfigurationsThese diagrams show the most popular variations of multi-axis configurations. Both standard and custom brackets are available. Standard X-Y orientation will place the X axis motor at the 6 o’clock position and the Y axis motor at the 3 o’clock position.Figure 1Two Axis (X-Y) Horizontal MountingTwo Axis (X-Z) Vertical Mounting Figure 3Two Axis (X-Y) Inverted MountingFigure 4Two Axis-Carriage to Carriage (Y Axis Inverted)Figure 5Two Axis (X-Y) Cartesian Horizontal Mounting Figure 6Three Axis (X-Y-Z) Cartesian Horizontal MountingFigure 7Three Axis (X-Z-Y) Horizontal Mounting Figure 8Three Axis (X-Y-Z) Horizontal MountingThree Axis (X-Y-Z) Inverted MountingTablesSM 16NEMA 17 BE 23SM 23 or NEMA 23In-Line Motor AdaptersUsed to easily accommodate the mounting of different servo Optional Encoder Enlarged End View(with Encoder and Limit/Home Sensor Pack Option)OptionalShaft 401XR DimensionsModel Travel (mm)Dimensions (mm)A B C D E J 401050XR 50209.382.880.0180.0123.0401100XR 100284.380.340.04160.0160.0401150XR 150334.385.340.05200.0185.0401200XR 200384.390.340.06240.0210.0401300XR300509.392.840.09360.0260.0Motor Size Order Code Dimensions (mm)F G H I SM 16M240.939.1– 6.5NEMA 23/SM 23M357.257.2 4.015.6NEMA 17M3740.939.1– 6.5BE 23M6157.257.28.015.6Dimensions (mm)S c r e w D r i v e n T a b l e s402XR DimensionsIn-Line Motor AdaptersSM 16NEMA 17 BE 23SM 23 or NEMA 23Model Travel (mm)Dimensions (mm)A B D J 402100XR 100320.583.54184.0402150XR 150370.583.55214.0402200XR 200420.583.56234.0402300XR 300520.583.58284.0402400XR 400620.583.510334.0402600XR600820.583.514434.0Motor Size Order Code Dimensions (mm)F G H SM 16M240.640.6–NEMA 23/SM 23M357.257.2 4.0NEMA 17M3740.640.6–BE 23M6157.257.28.0Enlarged End ViewOptional Limit/Home Dimensions (mm)TablesSlip Fit .022Slip Fit Top ViewFront ViewBottom View.022View showing slots in extruded baseEnd View404XR DimensionsModel Travel (mm)Dimensions (mm)A B C D E F 404050XR502594––––404100XR10030912175.050.085.0404150XR 150********.050.085.0404200XR 20040912175.050.085.0404250XR 250459162150.050.085.0404300XR 300509162150.050.085.0404350XR 350559162150.050.085.0404400XR 400609203225.050.085.0404450XR 450659203225.050.085.0404500XR 500709203225.050.085.0404550XR 550759244300.050.085.0404600XR600809244300.050.085.0Dimensions (mm)NEMA 23SM 16for M3 Screws on 46.69 bolt circlefor M4 Screws on 66.68 bolt circle404XR Parallel Motor MountingParallel motor mounting is employed whenever a shorter overall unit length is needed. The motor is positioned along the sides or bottom of the table as designated by position A, B, or C. (No coupling required.)TablesS c r e w D r i v e n T a b l e sNEO 70 / SMN060NEMA 34 or NEO 34MPP092406XR In-Line Motor MountingIn-line motor mounting allows the motor to be mounted directly to the drive screw via the selected motor coupling.Used to easily accommodate the mounting of different frame sizes. These adapter plates can be ordered separately by partnumber below.NEMA 23 or SM 23406XR Parallel Motor MountingParallel motor mounting is employed whenever a shorter overall unit length is needed. The motor is positioned along the sides or bottom of the table as designated by position A, B, or C. (No coupling required.)NEMA 23/SM 23M39.541.0–85.067.067.0NEMA 34M416.053.013.585.085.070.0NEO 34M1716.053.013.585.085.070.0NEO 70M2116.053.0–85.070.070.0NEO 92M2916.053.012.592.092.070.0for M5 Screws on 75.00 bolt circlefor M6 Screws on 100.00 bolt circleMotor Pilot66.68 bolt circle for M5 Screws on 98.43 bolt circleMotor PilotTablesX-Y Adapter Plate #100-6784(Used to mount any 404XR, 406XRor 412XR with toe clamps)0.0222 Holes (Top)Slip Fit412T10 and 412T12 are patternedfrom one hole on centerline Bottom ViewEnd ViewTop ViewFront ViewModelTravel(mm)Dimensions (mm)A B C D412T01150764122200412T02250864163300412T03350964163300412T046501264245500412T058001414245500412T0610001614286600412T0712001814327700412T0815002114409900412T091750236444101000412T102000261450121200Dimensions (mm)S c r e w D r i v e n T a b l e sNEMA 34 or NEO 34MPP092M105 / SMN100412XR In-Line Motor MountingIn-line motor mounting allows the motor to be mounted directly to the drive screw via the selected motor coupling.Used to easily accommodate the mounting of different frame sizes. These adapter plates can be ordered separately by part number below.NEO 70 / SMN060Motor Size Order CodeDimensions (mm)KLMNMPP092M9068.012.0115.097.0M105, SMN100M33100.0–115.0115.0NEMA 34M468.012.0115.097.0NEO 34M1768.012.0115.097.0NEO 70M2168.0–115.097.0NEO 92M2968.012.0115.097.0412XR Parallel Motor MountingParallel motor mounting is employed whenever a shorter overall unitlength is needed. The motor is positioned along the sides or bottom ofthe table as designated by position A, B, or C. (No coupling required.)98.43 bolt circle75.00 bolt circle115.11 bolt circleon75.00 bolt circle100.00 bolt circleScrew Driven TablesFill in an order code from each of the numbered fields to create a complete model order code.** 50 mm stroke 401XR may only allow room for 2 sensors in sensor pack.S c r e w D r i v e n T a b l e sFill in an order code from each of the numbered fields to create a complete model order code.Screw Driven TablesFill in an order code from each of the numbered fields to create a complete model order code.* Sensors with locking connector include 5 m extension cable. ** Sensor Pack includes 3 m cable.S c r e w D r i v e n T a b l e sScrew Driven TablesFill in an order code from each of the numbered fields to create a complete model order code.** Sensors with locking connector include 5 m extension cable. *** Sensor Pack includes 3 m cable.S c r e w D r i v e n T a b l e sScrew Driven TablesFill in an order code from each of the numbered fields to create a complete model order code.S c r e w D r i v e n T a b l e s。
常见塑胶产品缺陷及外观检验标准
❖ (1)何谓凹痕(外观)?
“凹痕”是指因树脂收缩而产生坑凹的一种现象。
结晶性树脂冷却固化后,体积会大幅度减少。凹痕便是因 此而产生的。因为收缩比率(收缩率)大致固定,且厚度 越厚收缩量越多,所以凹痕一般是在成型品的较厚部分产 生的。
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图1. 在外观评价用的试样上出现的凹痕(* 试样大小约为20cm)
图2. 喷射时的填充状况(采用充填不足法)
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亿和塑胶电子制品(深圳)有限公司
波纹 (皱纹)
(1)何谓 波纹(外观)?
波纹是指成型品表面出现皱纹状痕迹。 通常发生在注射速度慢、表层固化快于树脂填充的场合。
图1. 手柄试 验型表面上 出现的波纹
2021/7/4
图2. 手柄试验 型表面上出现 的波纹(2)
亿和塑胶电子制品(深圳)有限公司
压花不均匀 (蚀纹不匀)
❖ (1) 何谓压花不均匀?(外观) 压花不均匀是指模具上的压花图案未能干净利落地复制在成型品上。
图1. 压花外观评价试样上 出现的压花不均匀 (* 试样长度约为10cm)
(2)压花不均匀的生成原因
❖ (2-1) 保压力不足
压花不均匀是由于将树脂粘着在模腔时所需的保压力不足而引起的。保压力降
亿和塑胶电子制品(深圳)有限公司
❖ (1)何谓烧焦?(外观)
烧焦是指在成型时成型品表面的烧焦现象。
图1. 手柄试样上出现的气体烧焦(*试样大小约为10cm)
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亿和塑胶电子制品(深圳)有限公司
❖ 当树脂填充模腔时,原有的空气会从排气口排出。此时, 树脂所产生的气体也会从排气口排出。但是,如果模具 的排气口被堵塞,或流动末端本来就没有排气口,气体 便无法排出,受到压缩后形成高温,从而导致树脂被烧 焦。
流变仪简介——精选推荐
流变仪简介rheogoniometer rheometer,1.A : (Haake) RS TA AR Malven Anton-Paar MCR Anton-PaarB TA ARES2.0.25 2mm 0.25 40mm3.4.(Brabender) ($40000 $30000 $45000 $100000 $100000 $150000 $50000$35000 $40000 $150000$40000 $90000Ceast Dynisco Polymer Test Goettfert Malvern Instruments 2003 Bohlin Instruments/Rosand Thermo Electron Thermo HaakePVC Thermo Electron Alberto Correa PET10 Pa s-1 Pa?s 1cp 1mPa?s5~10 kN 50~60 kN 20000:1 200000:1Goettfert Rheotester 500 Dynisco LCR 7001 Ceast Rheologic 2500 Malvern Instruments (Rosand) RH2100 Thermo Electron(Haake) RheoCap S20$50000 BagleyCeast NelsonCeast Rheologic 5000 Goettfert Rheotester 2000 Dynisco Polymer Test LCR 7002 Malvern Instruments (Rosand) RH 2200 Thermo Electron (Haake) RheoCap T100Goettfert Tim Haake Goettfert Rheotens $60000 Dynisco Polymer Test Rich Pavero Dynisco PET PETMalvern Instruments Randy Byrne RH2000 (Rosand) RH10 (Bohlin)Malvern Rosand Ceast Ceast (ESP) Nelson 60%Thermo Electron Correa PCR 630 60000lb/h (1 lb=0.4536kg) $100000 $50000 Dynisco ViscoSensor Pavero PET PET PET Thermo Electron ProFlow $50000Goettfert MBR PET (RTR) RTR 5minC.W. Brabender Thermo ElectronPVC PVCC.W. Brabender Andrew Yacykewych YacykewychThermo Electron MartinThermo Electron PolyLabMartin PolyDrive PVC PVC PolyDrive PolyDrive $35000 $45000C.W. Brabender Intelli-Torque Plasti-Corder0.2 150r/min 1 ~ 400 Nm ATR Plasti-Corder 2.5 ATR 160 Nm BrabenderBrabender Winmix PVC PVCWinextThermo Electron (Haake) TA Instruments ( Rheometric ) Malvern Instruments (Bohlin)rad/sTA Instruments AR CMT TA Instruments SMT CMTCMT SMT AresCMT CMT SMT CMT SMT TA Instruments AR Mobius Drive 2000Malvern Bohlin Gemini C-Vor CMT Rotonetic Thermo Electron RheoStress 600 Jenni Briggs RheoStress 600 MFC ( ) 0.01 N FLC (Brookfield Engineering Laboratories Bob McGregor122.1PE PP PVC PVC2.2。