TPEE物性表

TPEE3362物性表

说明：该物性表为测试数据的典型值，MFP可以根据客户的使用情况进行调节。

江阴爱科森博顿聚合体有限公司

品保部

2017年9月5日

物性数据

1# 硝基苯 定性温度：可取流体进口温度的平均值。 壳程硝基苯的定性温度为：140110125()2 T C +==? 管程流体的定性温度为：2040 30()2 t C += =? 根据定性温度，分别查取壳程和管程流体的有关物性数据。 硝基苯在125℃下的有关物性数据如下： 密度 331.0954710/o kg m ρ=? 定压比热容 )(77029.1C kg kJ C po ??= 导热系数 0.134945/()o W m C λ=?? 粘度 45.6898110o P a s μ-=?? 循环冷却水在30℃下的物性数据： 密度 3 995.78/i kg m ρ= 定压比热容 4.179 0/(k g pi c kJ C =?? 导热系数 0.61564/()i W m C λ=?? 粘度 0.00079732i P a s μ=? 2# 煤油 煤油定性温度下的物性数据：密度825kg/m3,粘度7.15×10-4Pa ·s ，比热容2.22kJ/

3# 题目上面有 4# 定性温度：可取流体进口温度的平均值。 壳程油的定性温度为： (℃) 管程流体的定性温度为： (℃) 根据定性温度，分别查取壳程和管程流体的有关物性数据。可根据水的定性温度 按以下各式求水的物性： 式中——水的定性温度，℃； ——水的密度，kg/m3； ——水的比热，kJ/(kg·℃)； ——水的导热系数，kW/（m·℃）； ——水的粘度，Pa·s。

经计算可得水在90℃下的有关物性数据如下： 密度 30/88.975m kg =ρ 定压比热容℃kg kJ c p ?=/(194.40） 导热系数 ） ℃m W ?=/(6771.00λ 黏度 s Pa ??=-501076.30μ 循环冷却水在35℃下的物性数据： 密度 ρi=994 kg/m 3 定压比热容 c pi=4.08 kJ/(kg·℃) 导热系数 λi=0.626 W/(m·℃) 粘度 μi=0.000725 Pa·s 5# 6#

物性材料表

特性Feature 耐高温、耐冲击、高流动性、尺寸稳定。High temperature resistance, impact resistance, high liquidity, dimension stability. 用途Use 电子、电器零件、汽车部件等。Electronic, electrical parts, auto parts, etc. 注塑条件Injection conditions 预干燥温度Pre-drying temperature 预干燥时间Pre-drying time 进料区温度Feed zone temperature 压缩区温度Compression zone temperature 熔融区温度Melting zone temperature 喷嘴温度Nozzle Temperature 模具温度Mold 注射压力Injection pressure 物理机械性能Physical and mechanical properties 项目Project 单位unit 试验方法Test method 数值Value 密度Density 熔点Melting point 成型收缩率Mold Shrinkage 吸水率（24小时，23℃）Water Absorption (24 hours, 23 ℃) 熔融指数Melt Index 阻燃等级Flame Rating 拉伸断裂强度Tensile Strength 拉伸模量Tensile modulus 断裂伸长率Elongation at break 弯曲强度Bending 弯曲模量Bending modulus 悬臂梁（无缺口）冲击强度Izod (unnotched) impact strength 悬臂梁缺口冲击强度Izod notched impact strength 洛氏硬度Rockwell hardness 热变形温度（0.45MPa）Heat Deflection Temperature（0.45MPa） Dielectric Strength 绝缘破坏强度 Arc resistance 耐电弧性 Dielectric Constant 介电常数 Dielectric Losses 介电损耗 Characteristics 特性 平衡吸湿量Moisture Absorption at Equilibrium 线性成型收缩率，横向Linear Mould Shrinkage, Transverse 断裂伸长率Elongation at Break 屈服伸长率Elongation at Yield

PA10T材料物性表

P ROVISIONAL D ATA S HEET G RIVORY HT G RIVORY XE 4027 BLACK 9916 Product description Grivory 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/X ASTM 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.

PET常用物料物性数据表

1.4 物性数据表 171-1000 一、乙二醇（EG） ............................ - 0 - 表1．1乙二醇的物性数据〔7〕........................................ - 0 -表1．2乙二醇液体密度〔7〕.......................................... - 1 -表1．4乙二醇粘度〔6〕.............................................. - 2 -表1．5乙二醇液体动力粘度〔7〕...................................... - 3 -表1．6乙二醇气体动力粘度〔7〕...................................... - 4 -表1．7乙二醇液体蒸汽压〔7〕........................................ - 5 -表1．8乙二醇液体比热〔7〕.......................................... - 6 -表1．9乙二醇气体比热〔7〕.......................................... - 7 -表1．10乙二醇蒸汽热容量（理想值）〔7〕压力：1．01325 bar ...... - 8 -表1．11乙二醇蒸发热〔7〕........................................... - 9 -表1．12乙二醇液体导热系数〔7〕.................................... - 10 -表1．13乙二醇气体导热系数〔7〕.................................... - 11 -表1．14乙二醇液体表面张力〔1〕（N/M）.............................. - 12 -表1．15乙二醇和它的水溶液在不同温度下的比重〔15〕（g/ml）.. (13) 表1．16乙二醇水溶液冰点〔15〕 (14) 表1．17乙二醇水溶液沸点〔15〕 (15) 表1．18乙二醇水溶液二元体系在不同浓度和不同温度下的热容〔15〕Cp（cal/g.℃） 0 表1．19乙二醇和它的水溶液在不同温度下的粘度〔15〕（厘泊） (2) 表1．20图1．2 水—乙二醇二元体系汽液平衡图表〔1〕 0 表1．21图1．3 乙二醇—二甘醇二元体系汽液平衡图表〔1〕 (2) 表1．22图1．4 乙二醇—三甘醇二元体系汽液平衡图表〔1〕 (5) 表1．23图1．5 乙二醇—对苯二甲酸乙二酯二元体系汽液平衡图表〔1〕 (8) 表1．24图1．6 乙醛—乙二醇二元体系汽液平衡图表 (10) 二、对苯二甲酸（PTA） 0 表2．1对苯二甲酸的物性数据〔14〕 0 表2．2对苯二甲酸爆炸强度：〔14〕 (1) 表2．3对苯二甲酸在不同溶剂中的溶解度：〔14〕 (2) 表2．4对苯二甲酸蒸汽压：〔7〕 (3) 表2．5对苯二甲酸固体比热：〔7〕 (4) 表2．6对苯二甲酸气体比热：〔7〕 (5) 表2．7对苯二甲酸理想气体热容量：〔1〕 (6)

Sabic DX10311原料物性表

L NP* Thermocomp* Compound DX10311A sia Pacific: COMMERCIAL DX10311 is 30% glass fiber reinforced, impact modified polycarbonate resin. High flow and good ductility. T YPICAL PROPERTIES 1 TYPICAL VALUE UNIT STANDARD M ECHANICAL T ensile Stress, brk, Type I, 5 mm/min 117M Pa A STM D 638T ensile Strain, brk, Type I, 5 mm/min 2.6%A STM D 638T ensile Modulus, 5 mm/min 8330M Pa A STM D 638F lexural Stress 190M Pa A STM D 790F lexural Modulus 7670M Pa A STM D 790T ensile Stress, break, 5 mm/min 119M Pa I SO 527T ensile Strain, break, 5 mm/min 2.7%I SO 527T ensile Modulus, 1 mm/min 8260M Pa I SO 527F lexural Stress, yield, 2 mm/min 182M Pa I SO 178F lexural Stress, break, 2 mm/min 181M Pa I SO 178F lexural Modulus, 2 mm/min 7720M Pa I SO 178I MPACT Charpy Impact, unnotched, 23°C 57k J/m2I SO 179/2C Izod Impact, unnotched, 23°C 752J /m A STM D 4812 Izod Impact, notched, 23°C 196J /m A STM D 256 Charpy Impact, notched, 23°C 20k J/m2I SO 179/2C T HERMAL H DT, 0.45 MPa, 3.2 mm, unannealed 128°C A STM D 648 CTE, -40°C to 40°C, flow 1.9E-051/°C A STM E 831 CTE, -40°C to 40°C, xflow 6.4E-051/°C A STM E 831P HYSICAL S pecific Gravity 1.42-A STM D 792M old Shrinkage, flow, 3.2 mm (5)0.1 - 0.3%S ABIC Method M old Shrinkage, xflow, 3.2 mm (5) 0.2 - 0.4% S ABIC Method Melt Volume Rate, MVR at 300°C/5.0 kg 37 c m3/10 min I SO 1133 1) 2) PLEASE CONTACT YOUR LOCAL SALES OFFICE FOR AVAILABILITY IN YOUR AREA DISCLAIMER : THE MATERIALS AND PRODUCTS OF THE BUSINESSES MAKING UP THE SABIC INNOVATIVE PLASTICS Source, GMD, Last Update: COMPANY, ITS SUBSIDIARIES AND AFFILIATES ("SABIC IP"), ARE SOLD SUBJECT TO SABIC IP' S STANDARD CONDITIONS OF SALE, WHICH ARE INCLUDED IN THE APPLICABLE DISTRIBUTOR OR OTHER SALES AGREEMENT, PRINTED ON THE BACK OF ORDER ACKNOWLEDGMENTS AND INVOICES, AND AVAILABLE UPON REQUEST. ALTHOUGH ANY INFORMATION, RECOMMENDATIONS, OR ADVICE CONTAINED HEREIN IS GIVEN IN GOOD FAITH, SABIC IP MAKES NO WARRANTY OR GUARANTEE, EXPRESS OR IMPLIED, (I) THAT THE RESULTS DESCRIBED HEREIN WILL BE OBTAINED UNDER END-USE CONDITIONS, OR (II) AS TO THE EFFECTIVENESS OR SAFETY OF ANY DESIGN INCORPORATING SABIC IP MATERIALS, PRODUCTS, RECOMMENDATIONS OR ADVICE. EXCEPT AS PROVIDED IN SABIC IP' S STANDARD CONDITIONS OF SALE, SABIC IP AND ITS REPRESENTATIVES SHALL IN NO EVENT BE RESPONSIBLE FOR ANY LOSS RESULTING FROM ANY USE OF ITS MATERIALS OR PRODUCTS DESCRIBED HEREIN.Each user bears full responsibility for making its own determination as to the suitability of SABIC IP' s materials, products, recommendations, or advice for its own particular use. Each user must identify and perform all tests and analyses necessary to assure that its finished parts incorporating SABIC IP materials or products will be safe and suitable for use under end-use conditions. Nothing in this or any other document, nor any oral recommendation or advice, shall be deemed to alter, vary, supersede, or waive any provision of SABIC IP' s Standard Conditions of Sale or this Disclaimer, unless any such modification is specifically agreed to in a writing signed by SABIC IP. No statement contained herein concerning a possible or suggested use of any material, product or design is intended, or should be construed, to grant any license under any patent or other intellectual property right of SABIC Innovative Plastics Company or any of its subsidiaries or affiliates covering such use or design, or as a recommendation for the use of such material, product or design in the infringement of any patent or other intellectual property right * LNP is a trademark of the SABIC Innovative Plastics Company * Thermocomp is a trademark of the SABIC Innovative Plastics Company ? 1997-2011 SABIC Innovative Plastics Company.All rights reserved T ypical values only. Variations within normal tolerances are possible for variose colours.All values are measured at least after 48 hours s torage at 230C/50% relative humidity. All properties, except the melt volume rate are measured on injection m oulded samples.All samples are prepared according to ISO 294. O nly typical data for material selection purpose.Not to be used for p art or tool design. 3) T his rating is not intended to reflect hazards presented by this or any o ther material under actual fire conditions.4) O wn measurement according to UL. 5) Measurements made from laboratory test coupon. Actual shrinkage may vary outside of range due to differences in processing conditions, equipment, part geometry and tool design. It is recommended that mold shrinkage studies be performed with surrogate or legacy tooling prior to cutting tools for new molded article.

锂电材料物性对比

电池材料厂家技术标准积累 深圳市贝特瑞 MSG-S(518) 负极石墨粒径：D10=9.764；D50=17.136um；D90=28.189；水分:0.039;碳含量:99.952;TAP密度;1.036 比表面 积:2.784；首次容量/效率:363.51/94.18 深圳市贝特瑞 518 负极石墨粒径：D10=9.862；D50=16.888um； D90=28.374；水分:0.04%; 碳含量:99.962; TAP密度;1.042% 比表面积:2.625；首次容量/效率:352.3/92.5% 深圳市贝特瑞 AG 负极石墨粒径：D10=7.137；D50=18.058um； D90=37.495；水分：0.035;碳含量：99.676;TAP密度：1.001 首次容量/效率:320.83/90.42% 深圳市贝特瑞 AG 负极石墨粒径：D10=7.53；D50=17.779um； D90=39.648；水分：0.041;碳含量：99.743;TAP密度：1.002 ，首次容量/效率:326.51/90.67% 深圳市贝特瑞 SAG-23 负极石墨粒径：D10=8.318；D50=21.097um； D90=47.119；水分：0.04；碳含量：99.925；TAP密度：1.021 ，比表面积:4.605；首次容量/效率:332.11/92.08 深圳市贝特瑞 818 负极石墨粒径：D10=11.453；D50=18.226um； D90=28.762；水分：0.036；碳含量：99.964;TAP密度：1.121 比表面积:1.947;首次容量/效率:364.63/95.29% 深圳市贝特瑞 818 负极石墨粒径：D10=10.859；D50=18.033um；

HDPE物性数据表

HDPE 5310M 中石化扬子石油化工股份有限公司 电线电缆 ①原料描述部分 规格级别：电缆绝缘料外观颜色：本色 用途概述：用于低、中、高速绝缘生产线 备注说明： 性能:由乙烯、丁烯集合而成的双峰高密度聚乙烯，并含有适量助剂的本色粒料。因为其 分子量呈双峰分布，所以它具有优异的加工性能、很好的力学性能及良好的电性能。 ②原料技术数据 性能项目试验条件[状态] 测试方法测试数据数据单位 基本性能密度/ / 0.941-0.959 g/cm3 熔体流动速率/ / ≤1.0g/10min 机械性能拉伸强度/ / ≥19.0MPa 断裂伸长率/ / ≥400% 耐环境应力开裂性48h / ≤2/10/ 电气性能介电常数1MHz / ≤2.40/ 体积电阻率/ / ≥1×1013Ω?m HDPE 6100M 韩国湖南石油化学公司 管材级 ①原料描述部分 规格级别：挤出级外观颜色：--- 用途概述：用途：供水管，工业用管子。 备注说明：特性：电子光谱法，高冲击和高强度。 ②原料技术数据 性能项目试验条件[状态] 测试方法测试数据数据单位 基本性能熔体流动速率/ ASTM D-1238 0.12 g/10min 密度/ ASTM D-1505 0.950 g/cm3 机械性能屈服拉伸强度/ ASTM D-638 220 Kg/cm2断裂拉伸强度/ ASTM D-638 390 Kg/cm2

最终拉伸率/ ASTM D-638 >500 %

挠曲强度/ ASTM D-747 8,500 Kg/cm2 洛氏硬度/ ASTM D-785 50 R 冲击强度/ ASTM D-256 30 kg?cm/cm 耐环境应力破裂/ ASTM D-1693 >1,000 F50hr 热性能脆化温度/ ASTM D-746 <-80 ℃熔点/ ASTM D-2117 131 ℃维卡软化点/ ASTM D-1525 122 ℃ HDPE&NBSP;6100M&NBSP;中石化北京燕化石油化工股份有限公司&NBSP;管材级 ①原料描述部分 规格级别：管材级外观颜色：--- 用途概述：农业排灌管、热水管、支架 备注说明：类型：挤塑 ②原料技术数据 性能项目试验条件[状态] 测试方法测试数据数据单位 基本性能熔体流动速率/ / 0.15 g/10min 密度/ / 0.954 g/cm3 机械性 能 拉伸强度/ / 18.0 MPa 其它性 能 粉末灰分/ / 0.03 % HDPE&NBSP;6100M&NBSP;中石化扬子石油化工股份有限公司&NBSP;管材级 ①原料描述部分 规格级别：挤出级外观颜色：本色、圆柱状或扁圆状颗粒 用途概述： 用于制造日用品和各类工、农业用品，如薄膜、中空容器、管道、单丝、延伸带、电绝 缘制品等。 备注说明：---

材料物性表

EXTRUSION APPLICATION

Introduction Responsible for a long line of accomplishments in outstanding engineering plastics, UBE NYLON products have won the trust and respect of users the world over. UBE NYLON – NYLON 6, NYLON COPOLYMERS – is in wide use throughout industry with their unique properties utilized to their fullest potential. UBE NYLON 6 has a number of excellent properties as follows: Excellent in impact strength and rigidity Having a smaller friction coefficient, thus excellent in abrasion resistance Excellent in resistance to oils, solvents and chemicals Superior in heat resistance Appropriate to mass production, contributing to cost reduction Summary 1. Introduction 2. Nomenclature 3. Monofilament Applications 4. Film Applications 5. TERPALEX Polyamide 6/66/12 Copolymer Nomenclature The first 2 digits in the code indicate the type of Polyamide. The third and fourth digits indicate the molecular weight level for 1000 series. In case of copolymer, the third digit shows the viscosity level. The co-polymerization ratio can be roughly calculated from the fourth digit multiplying by 5. “T” means the basic grade for monofilament application and the grade contain some additives for maintain good process stability and high trans-parency. In case of “MT”, means monomer con-taining grade offering good flexibility and softness. 10: Polyamide 6 homopolymer 50: Polyamide 6/66 copolymer 70: Polyamide 6/12 copolymer Ex. 1022FDX04: : c.a. 22 x 1,000 = 22,000 Ex. 5034MTX1: : level = 3 (high viscosity) : c.a. 80/20(4 x 5 = 20et%) : monomer-contain type 2 Introduction

常用化合物物性数据表

常用化合物物性数据表 序号名称化学式分子量比重溶点沸点 溶解度（在100毫升溶液中） 冷水热水其它溶剂 1 水H2O 18.02 液1.004 固0.91680 0.00 100.0 溶（乙醇，丙酮） 2 草酸钠Na2C2O4134.00 2.34 分解250～270 3.720° 6.33100°不（乙醇、乙醚） 3 钨酸H2WO4249.87 5.5 -H2O，100 1473 不微溶（碱，HF，NH3） 4 柠檬酸铵（NH4）3C6H5O7243.22 分解易不（乙醇，乙醚，丙酮） 5 氟化钙CaF278.08 3.180 1423 约2500 0.001618°0.001726°溶（铵盐）微（酸）不（丙酮） 6 氟化钠NaF 41.99 2.55841993 1695 4.2218°溶（FH），难（乙醇） 7 氟化钾KF 58.1 2.48 858 1505 92.318°易溶（FH ，NH3），不（乙醇） 8 氟化铵NH4F 37.04 1.00925升华1000°分解溶（乙醇）不（NH3） 9 氢气H2 2.02 气0.0899克/升， 液0.070 -259.14 -252.87 2.140°cm3 1.9125°cm3 1.8950°cm3 6.9250 cm3（乙醇） 10 氢氧化钙Ca(OH)274.10 2.24 -H2O,580 分解0.1850°0.077100°溶（铵盐，酸）不（醇） 11 氢氧化钠NaOH 40 2.130 318.4 1390 420°347100°易（乙醇，甘油）不（丙酮，乙醚） 12 氢氧化钾KOH 56.11 2.044 360.4±0.7 1320～1324 10715°178100°易（乙醇）不（乙醚，NH3） 13 氢氧化铁FeO(OH) 88.85 4.28 -H2O,136 不不不（乙醇，乙醚）溶（HCl） 14 氢氧化亚铁Fe(OH)289.86 3.4 分解0.0001518°溶（酸，NH4Cl）不（碱） 15 氢氧化铝A1（OH）378.00 2.42 -H2O,300 不不溶（酸，碱）不（乙醇） 16 氢氧化铜Cu（OH）297.56 3.368 -H2O, 分解不分解溶（酸,NH4OH,KCN） 17 氢氧化铵NH4(OH) 35.05 -77 溶 18 氢氧化锌Zn(OH)299.4 3.053 分解125 极微溶溶（酸，碱） 19 氢氧化镁Mg(OH)258.32 2.36 -H2O,350 0.000918°0.004100°溶（酸，铵盐） 20 氯化氢HC1 36.46 1.187-84.9气 1.00045克/升 -114.8 -84.9 82.30°56.160°327cm3(乙醇)溶（乙醚，苯） 21 氟化氢HF 20.01 22 钼酸铵（NH4）2MoO4196.01 2.27625分解溶，分解分解溶（酸），不(乙醇NH3，丙酮)

HDPE物性数据表

①原料描述部分 规格级别：电缆绝缘料外观颜色：本色用途概述：用于低、中、高速绝缘生产线 备注说明：性能:由乙烯、丁烯集合而成的双峰高密度聚乙烯，并含有适量助剂的本色粒料。因为其分子量呈双峰分布，所以它具有优异的加工性能、很好的力学性能及良好的电性能。 ②原料技术数据 性能项目试验条件[状态]测试方法测试数据数据单位 基本性能密度// 熔体流动速率//≤g/10min 机械性能拉伸强度//≥MPa 断裂伸长率//≥400% 耐环境应力开裂性48h/≤2/10/ 电气性能介电常数1MHz/≤/体积电阻率//≥1×1013Ωm HDPE&NBSP;6100M&NBSP;韩国湖南石油化学公司&NBSP;管材级 ①原料描述部分 规格级别：挤出级外观颜色：--- 用途概述：用途：供水管，工业用管子。 备注说明：特性：电子光谱法，高冲击和高强度。 ②原料技术数据 性能项目试验条件[状态]测试方法测试数据数据单位 基本性能熔体流动速率/ASTM D-1238g/10min 密度/ASTM D-1505g/cm3 机械性能屈服拉伸强度/ASTM D-638220Kg/cm2断裂拉伸强度/ASTM D-638390Kg/cm2最终拉伸率/ASTM D-638>500% 挠曲强度/ASTM D-7478,500Kg/cm2洛氏硬度/ASTM D-78550R 冲击强度/ASTM D-25630kgcm/cm 耐环境应力破裂/ASTM D-1693>1,000F50hr 热性能脆化温度/ASTM D-746<-80℃熔点/ASTM D-2117131℃维卡软化点/ASTM D-1525122℃

常用材料的热物性参数

表1 各种金属的热物性值 温度 C 比热 cal/(g·C) 导热系数 cal/(cm·s· C) 密度(g/cm3)液相 线、固相线温度 (C) =7.88(20C) =7.3(1500C) =7.0(1600C) =7.86(15C) =7.86(15C) =7.85(15C) =7.85(15C) =7.83(15C)

续表1 各种金属的热物性值 温度 C 比热 cal/(g·C) 导热系数 cal/(cm·s· C) 密度(g/cm3)液相 线、固相线温度 (C) =7.73(15C) Ts=1488 T L=1497 =7.84(15C) T S=1420 T L=1520 =7.7(15C) 13.1Cr,0.5Ni T S=1399 T L=1454 =7.0(15C) 比热相对于 普通铸铁

=7.1(15C) 温度 C 比热 cal/(g·C) 导热系数 cal/(cm·s· C) 密度(g/cm3)液相 线、固相线温度 (C) =7.5~7.8(15C) =8.92 T S=T L=1083

s=2.70(15C) T S=T M=660.2 温度 C 比热 cal/(g·C) 导热系数 cal/(cm·s· C) 密度(g/cm3)液相 线、固相线温度 (C) s=1.74 T L=T S=651 s=6.09 T S=1395 T L=1427

表2 铸型的热物性计算公式

硅砂，干型，呋喃铸型600C以下 0.385<<0.494 0.0058

材料物性表

Product Data Sheet CHARACTERISTICS TEST METHOD Physical Properties Specific Gravity ASTM D792 1.20 1.20 Mould Shrinkage ASTM D9550.1-0.3%0.001-0.003in/in Mechanical Properties Tensile Strength ASTM D63890MPa 13050psi Flexural Strength ASTM D790125MPa 18125psi Flexural Modulus ASTM D7906500MPa 943ksi Notched Izod Impact Strength (3.2mm) ASTM D256 85 J/m 1.6 ft-lb/in Thermal Properties Heat Deflection Temperature @ 1.82MPa (264 psi) ASTM D648145°C 293°F Electrical Properties Surface Resistivity ASTM D2571E15ohms 1E15ohms Description: Glass Fiber Reinforced Polypropylene PPR 40G NC702 Product Code: 5218702Internal Code: NATURAL Colour: Maxxam TM NOMINAL VALUE (SI)NOMINAL VALUE (ENGLISH)Flammability Properties Flame Rating @ 0.8mm Internal HB HB Processing Conditions PP Barrel Temperature 200-240 °C 392-464°F Mould Temperature 30-60 °C 86-140°F Drying Temperature 80-85 °C 176-185°F Drying Time 2-3 Hour 2-3 Hour Injection Pressure Hold Pressure Screw Speed Back Pressure Rev #: 0, Revision Date: 6/8/2010 PRINTED IN SHENZHEN LHM 33587 Walker Road,Avon Lake,Ohio 44012, USA, Tel 1-440-930 1000 WHEN YOU HAVE QUESTION WITH ENGINEERING PLASTICS, WE COMPOUND THE ANSWER. No.1, Qihang Industrial Park,Haoxiang Road, Shajing Town, Baoan,Shenzhen, P.R.China,Tel:86-755-29692888MODERATE MED-HIGH MED-HIGH THIS IS NOT A PRODUCT SPECIFICATION LOW THE INFORMATION PRESENTED HEREIN IS PRESENTED IN GOOD FAITH AND TO THE BEST OF OUR KNOWLEDGE IS TRUE AND ACCURATE. IT IS INTENDED AS A GUIDE AND IS OFFERED FOR USE AT YOUR DISCRETION AND RISK. POLYONE DOES NOT GUARANTEE RESULT AND DISCLAIM ANY LIABILITY INCURRED IN CONNECTION WITH THE USE OF THE PRODUCTS DESCRIBED OR THE INFORMATION PRESENTED Tel: 86-755-29692888

物性表

Safety Data Sheet complies with:directive 91/155/EEC revision:2.0 ISO 11014-1:Safety data sheet for chemical products. revision date:02/02/1998date of issue: 26/02/1998 p 1. Product and company identification Product name:Stanyl ?Product code:TE250F3 Manufacturer: DSM Engineering Plastics P.O. Box 43,6130 AA Sittard The Netherlands Emergency number: The Netherlands +31 (0)46 4 76 55 55 2. Composition/Information on ingredients This chemical product is a preparation Chemical nature:(poly)amide PA 46CAS number:50327-22-5Components contributing to the hazard: The material contains Sb 2O 3 as a synergist with an average content of max. 7%. Sb 2O 3 is classified as a harmful (Xn) substance with a risk phrase R40 carcinogen class 3. However, the Sb 2O 3 is embedded in an impervious matrix of polymer and is therefore less biological available than the free Sb 2O 3 (see also Section 15). 3. Hazards identification Most important hazards:Hazard warning not required Specific hazards: Vapour and fumes released at elevated processing temperatures may be irritant for the eyes, the nose, the throat and the respiratory tract and in case of overexposure may cause nausea and headache. The material is not classified as being a dangerous preparation according to the EEC-Directive 88/379 and the subsequent amendments. See also Section 15.4. First-Aid measures Inhalation: When fumes of molten material have been inhaled;- Move person to fresh air as quickly as possible - rest in half upright position - loosen clothing - keep warm In case of respiratory problems move person to first aid station for medical treatment.Skin contact: Any molten material on the skin/burns should be cooled (off) as quickly as possible by means of cold water.Cover the wound with sterile cloth and move person to first aid station or hospital for medical treatment.Attention: never pull off the molten material from the wound.Eye contact: Any material entering the eye should be flushed out with copious volumes of water.Ingestion: No danger of toxicity, this material is biologically inactive (see also Section 11). 5. Fire-fighting measures Extinguishing media: Water, water/foam, CO 2, ABC fire extinguisher powder.Specific Hazards: Treat the material as a solid that can burn. Moulded parts or solid granules generally burn slowly with flaming drips.