材料物性表

常用相关国家不锈钢厚度公差标准比较日期：2007-7-25 10:54:41钢带厚度的允许偏差1、中国国家标准(GB) 单位：mm2、日本工业标准3、美国材料协会标准（ASTM）标准SUS304、SUS301钢带不同状态下标准机械性能日期：2007-6-22 8:36:56各相关国家不锈钢钢带（钢板）标准中厚度测量位置规定日期：2007-9-7 10:42:46各相关国家不锈钢钢带（钢板）标准中厚度测量位置规定1、中国国家标准（GB 4239）宽度≥600mm,在距钢带边缘大于40mm处测量2、日本工业标准（JIS G4305）测量厚度的部位，宽度≥50mm的轧制边钢带，为距其边缘25mm以上内侧的任意一点；宽度≥30mm的切边钢带，为距其边缘15mm以上内侧的任意一点。

3、美国材料协会标准（ASTM A480）宽度≥600mm的切边钢带，测量点至少距边部15mm;宽度≥600mm的轧边钢带，测量点至少距边部25mm;中外不锈钢表面状态标准介绍ASTM480不锈钢标准表面状态Q/TY3012-2003 对厚度公差执行目标的0Cr18Ni9成品厚度控制标准太钢厚度公差执行目标的0Cr18Ni9成品厚度控制标准单位：mm注：钢带头尾共20米内的厚度上、下限允许超出上表中成品厚度范围的上、下限规定。

不锈钢的计算公式日期：2007-6-6 16:12:16中国与亚洲、北美诸国（地区）以及澳大利亚的不锈钢钢号近似对照日期：2007-6-6 15:30:13中国与亚洲、北美诸国（地区）以及澳大利亚的不锈钢标准日期：2007-4-27 15:10:02日本不锈钢板（带）表面加工标准日期：2007-4-20 14:11:46不锈钢管壁厚公差选择表日期：2007-6-7 11:23:44不锈钢管管内理论爆破压力和许用压力参数表日期：2007-6-7 11:26:18（σ/f）Et]/(D-t)，其中P2：管内许可压力Mpa σ：屈服强度Mpa E：质量系数取0.85(本公司担供E=1的焊管)FQ/TY3012-2003 对厚度公差执行目标的0Cr18Ni9成品厚度控制标准日期：2007-7-4 16:08:43太钢厚度公差执行目标的0Cr18Ni9成品厚度控制标准单位：mm注：钢带头尾共20米内的厚度上、下限允许超出上表中成品厚度范围的上、下限规定。

注意：
*除特别标注外，以上数据均为23℃，50%RH下实验室中测得的性能。

*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。

*
*
3010
注塑参考Inject
干燥温度Dry Temperature100-120℃
干燥时间Dry Time3-5h
注嘴温度Nozzle Temperature290-320℃
前段温度Front Temperature300-330℃
中段温度Middle Temperature290-320℃
后段温度Rear Temperature280-310℃
模具温度Mold Temperature80-120℃
螺杆速度Screw speed40-100rpm
注塑压力Injection pressure90-150MPa
注射量Injection volume40-80%
注意事项：
*干燥
在加工之前必须进行干燥处理，保证原料水份含量低于0.1%,否则，在加工时可能会出现气泡、水痕或产品物性上的降低等。

建议使用除湿干燥机或真空烘箱来进行干燥。

需要指出的是，干燥温度过高的话，将会导致原料黄变，此点在加工本色或彩色零件时需要格外注意。

*回收料的使用
该材料可以回收再利用，但我方不建议完全使用回收料来制造产品。

具体的回收料加入比例，可根据最终制品的相关品质要求自行确定。

但是，在加入回收料时，我们还应该注意原料的干燥、杂质、加入的比例、颜色的变化、物性的降低等方面。

回收料应粉碎后再使用，并尽量粉碎均匀，颗粒不宜过大。

P ROVISIONAL D ATA S HEETG RIVORY HTG RIVORY XE 4027BLACK 9916Product descriptionGrivory XE 4027 black 9916 is a 30% glass-fibre reinforced flame retardant (UL 94 V-0) engineering thermoplastic material based on a semicrystalline, partially aromatic co-polyamide.Grivory XE 4027 black 9916 is free of halogens and red phosphorus.RoHS: Grivory XE 4027 black 9916 is in compliance with RoHS (2002/95/EC, Re-striction of Hazardous Substances). WEEE:Parts produced from Grivory XE 4027 black 9916 are not subject to "selec-tive treatment" according the Directive 2002/96/EC on Waste Electrical and Elec-tronic Equipment.ISO polymer designation: PA 10T/XASTM designation: PPA, polyphthalamide The main distinguishing features of Grivory HT-PPA, when compared to other poly-amides, are its good performance at high temperatures providing parts which are stiffer, stronger, have better heat distortion and dimensional stability as well as excel-lent chemical resistance and low moisture absorption.Grivory XE 4027 black 9916 is especially suitable for injection moulded components in electrical and electronic applications which require a flame class acc. UL 94 V-0. The material is suitable for lead-free SMT reflow soldering acc. i.e. JEDEC J-STD-020C (peak temperature 260°C). Compo-nents conforming to JEDEC MSL1 are achievable.PROPERTIESMechanical Properties Standard Unit State Grivory XE 4027black 9916Tensile E-modulus 1 mm/min ISO 527 MPa drycond.10'00010'000Tensile strength at break 5 mm/min ISO 527 MPa drycond.115110Elongation at break 5 mm/min ISO 527 % drycond.1.51.5Impact strength Charpy, 23°C ISO 179/2-1eU kJ/m2drycond.3535Impact strength Charpy, -30°C ISO 179/2-1eU kJ/m2drycond.3535Notched impact strength Charpy, 23°C ISO 1792-/1eA kJ/m2drycond.66Notched impact strength Charpy, -30°C ISO 179/2-1eA kJ/m2cond. 6Ball indentation hardness ISO 2039-1 MPa drycond.225225Thermal PropertiesMelting point DSC ISO 11357 °C dry 295 Heat deflection temperature HDT/A 1.80 MPa ISO 75 °C dry 265 Heat deflection temperature HDT/C 8.00 MPa ISO 75 °C dry 175 Thermal expansion coefficient long. 23-55°C ISO 11359 10-4/K dry 0.2 Thermal expansion coefficient trans. 23-55°C ISO 11359 10-4/K dry 0.65 Maximum usage temperature long term ISO 2578 °C dry 150Electrical PropertiesDielectric strength IEC 60243-1 kV/mmdrycond.3333Comparative tracking index CTI IEC 60112 - cond. 600Specific volume resistivity IEC 60093 Ω · m drycond.109109Specific surface resistivity IEC 60093 Ωcond. 1011General PropertiesDensity ISO 1183 g/cm3 dry 1.41 Flammability (UL 94) 0.4 - 3.2 mm ISO 1210 rating - V-0IEC GWFI IEC 60695-2-12 °C - 960 Glow wire temperature (3mm)IEC GWIT IEC 60695-2-13 °C 775 Water absorption 23°C/saturated ISO 62 % - 1.5 Moisture absorption 23°C/50% r.h. ISO 62 % - 0.6 Linear mould shrinkage long. ISO 294 % dry 0.3 Linear mould shrinkage trans. ISO 294 % dry 1.0 Product nomenclature acc. ISO 1874: PA 10T/X, MHF, 11-100, GF30Information on Injection Moulding ofGrivory XE 4027 black 9916This technical data sheet for Grivory XE 4027 black 9916 provides you with useful information on material preparation, machine requirements, tooling and processing.MATERIAL PREPARATIONGrivory XE 4027 black 9916 is delivered dry and ready for processing in sealed packaging. Pre-drying is not necessary.StorageSealed, undamaged bags can be kept over a long period of time in storage facilities which are dry, protected from the influence of weather and where the bags can be protected from damage.Handling and SafetyDetailed information can be obtained from the material safety data sheet (MSDS) which can be requested with every material order.Drying During its manufacturing process Grivory XE 4027 black 9916 is dried and packed with a moisturecontent of ≤ 0.10%. Should the packaging become damaged or the material is left open too long, then the material must be dried. A too high moisture content can be shown by a foaming melt and silver streaks on the moulded part. The drying can be done as follows:Temperature max. 80°CTime 4 - 12 hoursDew point -40°CTemperature max. 100°CTime 4 - 12 hoursDrying time If there is only little evidence of foaming of the melt or just slight silver streaks on the part, then the above mentioned minimal drying time will be suffi-cient. Material, which is stored open over days shows strong foaming, unusually easy flowing, streaks and rough surface on the moulded part. Then the maximal drying time is required.Silver streaks can also be caused by overheating of the material (over 350°C) or by too long melt residence time in the barrel.Drying temperaturePolyamides are affected by oxidation at tempera-tures above 80°C in the presence of oxygen. Visible yellowing of the material is an indication of oxida-tion. Hence temperatures above 80°C for desiccant dryers and temperatures above 100°C for vacuum ovens should be avoided. In order to detect oxida-tion it is advised to keep a small amount of granu-late (light colour only !) as a comparison sample.At longer residence times (over 1 hour) a hopper dryer (80°C) is useful.Use of RegrindGrivory XE 4027 black 9916 is a thermoplastic material. This allows recycling of sprues, runners and rejected components in the running processIt is recommended to add a maximum of 25% re-grind as long as the requirements on the final part allow the addition of regrind.To ensure a trouble free processing, special pre-caution has to be taken by the moulder. Followingpoints have to be kept in mind: • Avoid moisture absorption of the regrind (oth-erwise drying is necessary)Contamination by foreign material such as other polymers, dust or oil has to be avoided Property and colour changes of the part can be controlled with proper handling measures. MACHINE REQUIREMENTSGrivory XE 4027 black 9916 can be processed eco-nomically on all injection moulding machines suit-able for polyamides. Screw Wear and corrosion protected, 3-zone universal screws with check valves are recommended.Length 18 D - 22 D Compression ratio 2 - 2.5Screw Desiccant dryer Vacuum ovenShot VolumeThe metering stroke must be longer than the length of the check valve (without decompression dis-tance).Shot volume = 0.5 - 0.8 x (max. shot volume)HeatingAt least three separately controllable heating zones, able of reaching cylinder temperatures up to 350°C are required. A separate nozzle heating is necessary. The cylinder flange temperature must be controllable (cooling).NozzleOpen nozzles are simple, allow an easy melt flow and are long lasting. There is, however, the danger that during retraction of the screw after injection, air maybe drawn into the barrel (decompression). For this reason, needle shut-off nozzles are often used.Clamping ForceAs a rule of thumb the clamping force can be esti-mated using the following formula:TOOLINGThe design of the mould tool should follow the general rules for glass fibre reinforced thermo-plastics.For the mould cavities common mould tool steel quality (e.g. hardened steel) which has been hard-ened to level of 56 - 65 HRC is necessary. We recommend additional wear protection in areas of high flow rates in the tool (e.g. pin point gates, hot runner nozzles).Demoulding / Draft AngleParts moulded from Grivory HT are setting very quickly showing excellent dimensional stability. Asymmetric demoulding and undercuts are to be avoided. It is favourable to foresee high numbers of large ejector pins or a stripper plate. Demoulding draft angles between 1 to 5° are acceptable. The following values can be considered:(VDI 3400) 12 1518 21 24 27 Depth of roughness (µm) 0.4 0.6 0.8 1.1 1.6 2.2 Demoulding angle (%) 11 1.1 1.2 1.3 1.5(VDI 3400) 30 33 36 39 42 45 Depth of roughness (µm) 3.2 4.5 6.3 9 13 18 Demoulding angle (%) 1.822.5345VentingIn order to prevent burn marks and to improve the weld line strength, proper venting of the mould cav-ity should be provided. Venting channels on the parting surface with dimensions of depth 0.02 mm and width 2 - 5 mm are recommended.Gate and RunnerTo achieve an optimal mould-fill and to avoid sink marks, a central gate at the thickest section of the moulding is recommended. Pin point gate (direct) or tunnel gates are more economical and more com-mon with technical moulding.To avoid premature solidification of the melt and difficult mould filling, the following points should be considered:0.8 x thickest wall section of the injectionmoulding part1.4 x thickest wall section of the injection moulding part (but minimum 4 mm)PROCESSINGMould Filling, Post Pressure and DosingThe best surface finish and a high weld line strength are achieved with a high injection speed and when a sufficiently long post pressure is em-ployed.The injection speed should be chosen to be re-duced towards the end of the filling process in order to avoid overheating and burning. For dosing at low screw speed and pressure the cooling time should be fully utilised.Selecting the injection unit Gate diameterRunner diameterBasic Machine SettingsIn order to start up the machines for processing Grivory XE 4027 black 9916, following basic set-tings can be recommended:Flange 80°CZone 1 305 - 320°CZone 2 305 - 320°CZone 3 305 - 320°CNozzle 305 - 320°CTool 110 - 150°CMelt 300 - 330°CInjection speed medium - highHold-on pressure (spec.) 500 - 800 barDynamic pressure (hydr.) 5 - 15 barPeripheral screw speed 0.1 - 0.3 m/s Start-up and PurgingForeign materials in the cylinder should be removed with suitable purging materials. Hot-runner systems should be purged likewise. Glass fibre reinforced polyamide 66 is a suitable “bridging material”. Cylinder heating should start with a clean, product-free screw, starting from the temperature level of the “bridging material” of 300°C up to the required temperature level of 300-330°C (see processing data).After at least three full dosings (free-shots) - apply-ing the shortest possible residence time - the start up procedure can be implemented.After completion of production with Grivory HT the screw, cylinder and melt distribution system should be cleaned out thoroughly.ConditioningThe dimensions and the mechanical properties of Grivory HT products are only marginally influenced by moisture absorption. For testing purposes, parts can be stored in a climatic chamber until an in-crease in weight of 1 % has been achieved. In order to avoid stress through swelling, conditioning in hot water is to be avoided. CUSTOMER SERVICESEMS-GRIVORY is a specialist for polyamide syn-thesis and polyamide processing. Our customer services are not only concerned with the manufac-turing and supply of engineering thermoplastics but also provide a full of technical support program: • Rheological design calculation / FEA• Prototype tooling• Material selection• Processing support• Mould and component designWe are happy to advise you. Simply call one of our sales offices.The recommendations and data given are based on our experience to date, however, no liability can be assumed in connection with their usage and processing.Generated / updated: SEK / 07.2008This version replaces all previous product specific data sheets.Temperatures Speeds / Pressures。

LEXAN™ EXL8483resin聚碳酸酯SABIC Innovative Plastics Asia PacificTechnical Data1/2LEXAN™EXL8483resin的主要特性有:•阻燃/额定火焰•环保/绿色•共聚物• 1•回收含量•是,80%特性•共聚物•流动性中等•耐低温撞击加工方法•注射成型比重1.20g/cm³ASTM D792熔流率(300°C/1.2kg)10g/10minASTM D1238收缩率-流动(3.20mm)0.40到0.80%内部方法拉伸模量抗张强度 5ASTM D638屈服57.0MPa 断裂55.0MPa伸长率 5ASTM D638屈服 6.0%断裂100%弯曲模量 6(50.0mm 跨距)2100MPa ASTM D790 6-40°C 600J/m -30°C 650J/m 23°C800J/m维卡软化温度145°C ASTM D1525 7线形膨胀系数ASTM E831流动:-40到40°C 6.0E-5cm/cm/°C 体积电阻率>1.0E+15ohm·cmASTM D257介电强度(0.800mm,in Oil)15kV/mmASTM D149LEXAN™ EXL8483resin 聚碳酸酯2/2介电常数(1MHz) 3.00 ASTM D150UL阻燃等级(0.750mm)HB UL94灼热丝易燃指数IEC60695-2-121.00mm850°C3.00mm960°C热灯丝点火温度IEC60695-2-131.00mm875°C3.00mm875°C干燥温度121°C干燥时间 3.0到4.0hr干燥时间，最大48hr建议的最大水分含量0.020%建议注入量40到60%螺筒后部温度271到293°C螺筒中部温度282到304°C螺筒前部温度293到316°C射嘴温度288到310°C加工（熔体）温度293到316°C模具温度71.1到93.3°C背压0.345到0.689MPa螺杆转速40到70rpm排气孔深度0.025到0.076mm备注1 通过这些链接您能够访问供应商资料。