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=2 8.189;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:320.83/90.4 2%
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:326.51/90.6
7%
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;D90=29.702;水分:0.037;碳含量:99.964;TAP密度:1.114 比表面积:1.972;首次容量/效率:
362.39/94.24%
深圳市贝特瑞
AGP-2 负极石墨粒径:D10=6.829;D50=16.649um;D90=36.945;水分:0.039;碳含量:99.908;TAP密度:1.062 比表面积:4.856;首次容量/效率:324.31/90.25%
深圳市金润科技
KMD(高级) 负极石墨粒径:D10=14.14;D50=20.23um;D90=25.42;
振实密度:1.12g/cm3;比表面积:1.5m2/g ,水=0.04%;首放/效率=351/94%(1C);样品折射率:1.8;介质折射率:1.33 拟合残余:0.22;遮光比:8. 8%
深圳市金润科技
K18(高级)负极石墨粒径:D10=13.14;D50=19.67um;D90=25.44;振实密度:1.04g/cm3比表面积:4.25m2/g
水=0.05%;首放/效率=325/92%(1C);
珠海联众新材料LZ-25 负极石墨粒径50=22±2,真密度≥2.22,振实密度≥0.7
电阻率≤160uΩ.m;石墨化度≥70;灰分≤0.0
5
首次容量/效率:≥320/≥90;
东莞市金卡本材料KC1-1(普通) 负极石墨外观:黑灰色;压实:1.5;真密度≥2.2g/cm3;
粒度10≥5;D50=20±5um;D90≤45;D99≤5
5;
松装密度≥0.4;振实密度≥0.7;灰分≤0.5;
水分≤0.5;碳含量≥99%;比表面积≤5m2/g
首容量≥300;首效率≥90%;平台:1C>85mi
n
东莞市金卡本材料KC2-1(普通) 负极石墨外观:黑灰色;压实:1.5-1.6;真密度≥2.2g/cm3;
粒度10≥10;D50=25±5um;D90≤45;D99≤5
5;
松装密度≥0.4;振实密度≥0.8;灰分≤0.5;
水分≤0.5;碳含量≥99%;比表面积≤4.5m2/
g
首容量≥320;首效率≥90%;平台:1C>85min
深圳普漫地新能源PMDF-188(普通) 负极石墨粒度10=10.35;D50=19.26um;D90=28.12;
真密度=2.22;振实密度=0.81;灰分=0.14;
水分=0.09;碳含量≥99.9%;比表面积=1.5m2/g
首容量≥328;首效率≥92.8%;
辽宁宏光科技CGA-4M(高级) 负极石墨粒度50=17.7um;
震实密度=1.1g/ml;松装密度≥0.5g/ml
真密度=2.22g/ml:比表面积=3.4g/ml
灰份=0.05%;首放/效率:≥354.7/93.2%
长沙星城微晶石墨HAG2(普通) 负极石墨粒度10=8-12;D50=18-22um;D90=27-33um;
震实密度≥0.95g/ml;松装密度≥0.55g/ml
真密度=2.22g/ml:比表面积≤4.2g/ml:水≤0.1%
灰份≤0.2%固定碳=99.5%;外观:黑灰色;
东莞市清溪宏泰H-20(普通) 负极石墨粒度10≥10;D50=20±2um;D90≤45;Dmax≤75;
震实密度≥0.85g/ml;松装密度≥0.5g/ml
真密度≥2.2g/ml:比表面积≤4.5g/ml:水≤0.5
灰份≤0.5固定碳≥99.5%首放/效率:≥320/90%
新乡远东电子科技A080 负极石墨粒径:D10≥7;D50=17-23;D90≤50um
振实密度≥0.7g/cm3;比表面积≤5m2/g
首容量/效率:≥330/91%;固定碳≥99%
水分:≤0.2%;灰分≤0.5%;Fe≤100ppm
深圳市海盈科技M5-1-20(宏远碳素) 负极石墨外观:黑色、黑灰色;压实:1.54-1.90;
循环:10次≥97.5%;50次≥95%;100次≥92%
平台:首次>50min;50次>48min;100次>45min
首容量≥350;首效率≥86%;
深圳市新宙邦LBC305(钢壳)电解液外观:无色透明液体;水分:≤10ppm
电导率25℃:10.4±0.5ms/cm;游离酸≤30ppm
铁含量:≤1.0ppm;密度25℃:1.23±0.03g/ml
深圳市新宙邦LBC305-1(铝壳)电解液外观:无色透明液体;水分:≤10ppm
电导率25℃:10.4±0.5ms/cm;游离酸≤30ppm
铁含量:≤1.0ppm;密度25℃:1.23±0.03g/ml
深圳市新宙邦LBC312-01(软包)电解液外观:无色透明液体;水分:≤10ppm
电导率25℃:8.7±0.5ms/cm;游离酸≤30ppm
铁含量:≤1.0ppm;密度25℃:1.20±0.03g/ml
深圳市新宙邦DMC 电池级外观:无色透明液体;水分:≤20ppm
含量≥99.9%;甲醇≤50ppm;铁含量≤1.0ppm
香河昆仑化学KLE-050 电解液外观:无色透明液体;水分:6.82ppm
电导率25℃:10.65ms/cm;游离酸≤5.62ppm
铁含量:≤1.0ppm;密度25℃:1.23±0.03g/ml
香河昆仑化学KLE-095B 电解液外观:无色透明液体;水分:≤20ppm
电导率25℃:≥7.3ms/cm;游离酸≤30ppm
铁含量:≤1.0ppm;密度25℃:1.19-1.34g/ml
香河昆仑化学KLE-106 电解液外观:无色透明液体;水分:≤20ppm
电导率25℃:≥7.3ms/cm;游离酸≤30ppm
铁含量:≤1.0ppm;密度25℃:1.19-1.34g/ml
诺莱特科技SZ-SSDE-GRT-002 SZ-SSDE-GRT-001 电解液外观:无色透明液体;水分:≤20ppm
电导率25℃:10.4±0.5ms/cm;游离酸≤50ppm
色值≤50APHA;密度25℃:1.23±0.03g/ml
广州天赐高科E-101 电解液外观:无色透明液体;水分:≤20ppm
电导率25℃:10.4±0.5ms/cm;游离酸≤50ppm
色值≤50APHA;密度25℃:1.23±0.03g/ml
珠海赛维电子材料SW2030 电解液外观:无色透明液体;水分:≤10ppm
电导率25℃:12.1ms/cm;游离酸≤50ppm
色值≤50APHA;密度25℃:1.23±0.03g/ml
汕头金光高科L14 电解液外观:无色透明液体;水分:≤15ppm
电导率25℃:10.5±0.5ms/cm;游离酸≤30ppm
铁含量:≤1.0ppm;密度25℃:1.21±0.03g/ml
张家港国泰华荣LB-3571 电解液外观:无色透明液体;水分:≤20ppm
电导率25℃:9.7±0.5ms/cm;游离酸≤50ppm
铁含量:≤5ppm;密度25℃:1.227±0.01g/ml
CL≤1;Na≤10;K≤10;Ca≤10;SO4≤10;pb≤5;
深圳普漫地新能源PMDF-188(普通) 负极石墨粒度10=10.35;D50=19.26um;D90=28.12;
真密度=2.22;振实密度=0.81;灰分=0.14;
水分=0.09;碳含量≥99.9%;比表面积=1.5m2/g
首容量≥328;首效率≥92.8%;
辽宁宏光科技CGA-4M(高级) 负极石墨粒度
50=17.7um;
震实密度=1.1g/ml;松装密度≥0.5g/ml
真密度=2.22g/ml:比表面积=3.4g/ml
灰份=0.05%;首放/效率:≥354.7/93.2%
长沙星城微晶石墨HAG2(普通) 负极石墨粒度10=8-12;D50=18-22um;D90=27-33um;
震实密度≥0.95g/ml;松装密度≥0.55g/ml
真密度=2.22g/ml:比表面积≤4.2g/ml:水≤0.1%
灰份≤0.2%固定碳=99.5%;外观:黑灰色;
东莞市清溪宏泰H-20(普通) 负极石墨粒度
10≥10;D50=20±2um;D90≤45;Dmax≤75;
震实密度≥0.85g/ml;松装密度≥0.5g/ml
真密度≥2.2g/ml:比表面积≤4.5g/ml:水≤0.5
灰份≤0.5固定碳≥99.5%首放/效率:≥320/90%
新乡远东电子科技A080 负极石墨粒径:D10≥7;D50=17-23;D90≤50um
振实密度≥0.7g/cm3;比表面积≤5m2/g
首容量/效率:≥330/91%;固定碳≥99%
水分:≤0.2%;灰分≤0.5%;Fe≤100ppm
深圳市海盈科技M5-1-20(宏远碳素) 负极石墨外观:黑色、黑灰色;压实:1.54-1.90;
循环:10次≥97.5%;50次≥95%;100次≥92%
平台:首次>50min;50次>48min;100次>45min
首容量≥350;首效率≥86%;
深圳市新宙邦LBC305(钢壳)电解液外观:无色透明液体;水分:≤10ppm
电导率25℃:10.4±0.5ms/cm;游离酸≤30ppm
铁含量:≤1.0ppm;密度25℃:1.23±0.03g/ml
深圳市新宙邦LBC305-1(铝壳)电解液外观:无色透明液体;水分:≤10ppm
电导率25℃:10.4±0.5ms/cm;游离酸≤30ppm
铁含量:≤1.0ppm;密度25℃:1.23±0.03g/ml
深圳市新宙邦LBC312-01(软包)电解液外观:无色透明液体;水分:≤10ppm
电导率25℃:8.7±0.5ms/cm;游离酸≤30ppm
铁含量:≤1.0ppm;密度25℃:1.20±0.03g/ml
深圳市新宙邦DMC 电池级外观:无色透明液体;水分:≤20ppm
含量≥99.9%;甲醇≤50ppm;铁含量≤1.0ppm
香河昆仑化学KLE-050 电解液外观:无色透明液体;水分:6.82ppm
电导率25℃:10.65ms/cm;游离酸≤5.62ppm
铁含量:≤1.0ppm;密度25℃:1.23±0.03g/ml
香河昆仑化学KLE-095B 电解液外观:无色透明液体;水分:≤20ppm
电导率25℃:≥7.3ms/cm;游离酸≤30ppm
铁含量:≤1.0ppm;密度25℃:1.19-1.34g/ml
香河昆仑化学KLE-106 电解液外观:无色透明液体;水分:≤20ppm
电导率25℃:≥7.3ms/cm;游离酸≤30ppm
铁含量:≤1.0ppm;密度25℃:1.19-1.34g/ml
诺莱特科技SZ-SSDE-GRT-002 SZ-SSDE-GRT-001 电解液外观:无色透明液体;水分:≤20ppm
电导率25℃:10.4±0.5ms/cm;游离酸≤50ppm
色值≤50APHA;密度25℃:1.23±0.03g/ml
广州天赐高科E-101 电解液外观:无色透明液体;水分:≤20ppm
电导率25℃:10.4±0.5ms/cm;游离酸≤50ppm
色值≤50APHA;密度25℃:1.23±0.03g/ml
珠海赛维电子材料SW2030 电解液外观:无色透明液体;水分:≤10ppm
电导率25℃:12.1ms/cm;游离酸≤50ppm
色值≤50APHA;密度25℃:1.23±0.03g/ml
汕头金光高科L14 电解液外观:无色透明液体;水分:≤15ppm
电导率25℃:10.5±0.5ms/cm;游离酸≤30ppm
铁含量:≤1.0ppm;密度25℃:1.21±0.03g/ml
张家港国泰华荣LB-3571 电解液外观:无色透明液体;水分:≤20ppm
电导率25℃:9.7±0.5ms/cm;游离酸≤50ppm
铁含量:≤5ppm;密度25℃:1.227±0.01g/ml
CL≤1;Na≤10;K≤10;Ca≤10;SO4≤10;pb≤5;
石家庄百思特BST-2(锰酸锂)正极活性Li:3.7-3.98;Mn:59.5-61.6
振实密度>2.0;粒度D50=10-20um
比表面积<0.8m2/g;首次容量/效率:≥101/90
石家庄百思特(钴酸锂)正极活性Li:6.95-7.15;Co:59.5-60.5
振实密度>2.0;粒度D50=5-10um
分子量:97.87;首次容量/效率:≥138/85
石家庄百思特(钴镍锰酸锂)正极活性Li:7.2-7.6;Co+Ni+Mn:55.8-56.8
振实密度>1.8;粒度D50=8-15um
分子量:97.87;首次容量/效率:≥141/82.5
安徽亚兰德新能源(钴酸锂)正极活性比表面积:0.2-0.5m2/g;松装密度1-1.3
振实密度2.5-2.8;粒度D50=6-11um
分子量:97.87;PH9-10.5;CO含量:59.6-60.6
个旧圣比和实业(钴酸锂)正极活性比表面积:0.15-0.3m2/g
振实密度>2.9;粒度D50=7-9um
分子量:97.87;首次容量:152-158
乾运高科QY-102(锰酸锂) 正极活性动力型粒径:D50=10-12um;环境湿度:15-35度
PH值≤8-10;松装密度>1.2;TD密度≥2.2
比表面积:≤0.6;首次容量/效率:≥100/90%
循环:100次≥92%;300次≥85%;
55度高温循环:100次≥85%;300次≥80%;
广州融达电源材料MCG(锰酸锂) 正极活性粒径:D10≥3.0;D50=14-20um;D90≤40;
PH值=8-10;包装:25kg;TD密度≥2.2
比表面积:0.5-1.2;首次容量/效率:≥110/90%
Mn=58.5-60;Li:3.7-4.4;Na≤0.4;Fe≤0.02
Ca≤0.03;Ni≤0.01%;H2O≤0.06
临析杰能新能源GN-Mn-02(锰酸锂) 正极活性粒径:D10≥2.0;D50=10-20um;D90≤40;
PH值≤8-11;包装:25kg;TD密度≥1.8
比表面积:0.5-1.5;首次容量/效率:≥90/95
Mn≥58-60.5;Li:3.5-4.5;Na≤0.05;Fe≤0.02
Cu≤0.02;Ca≤0.05;Ni≤0.03%;H2O≤0.10
临析杰能新能源GN-Mn-01(锰酸锂) 正极活性粒径:D10≥2.0;D50=12-16um;D90≤40;
PH值≤8-11;包装:25kg;TD密度≥2.0
比表面积:0.5-1.5;首次容量/效率:≥105/95
Mn=58-60.5;Li:3.5-4.5;Na≤0.05;Fe≤0.02
Cu≤0.02;Ca≤0.03;Ni≤0.03%;H2O≤0.10
云南玉溪汇龙科技HLA(锰酸锂) 正极活性粒径D50=5-20um;
PH值≤5-7;包装:25kg;TD密度≥2.10
比表面积:0.5-1.5;首次容量/效率:≥120/94%
Mn≥57;Li:3.5-4.5;Na≤0.05;Fe≤0.03
Cu≤0.02;Ca≤0.03;Ni≥3.85;H2O≤0.10
深圳市贝特瑞LMO(锰)正极活性粒径:D10=1.717;D50=8.863um;D90=23.993;
水分:0.048;振实密度:4.053;TAP密度:2.115
比表面积:2.284;首次容量/效率:118.3/98%
深圳市贝特瑞LFP(三元)正极活性粒径:D10=0.787;D50=5.361um;D90=14.133;
水分:0.041;TAP密度:1.170
比表面积:15.2;首次容量/效率:142.1/92.15%
深圳三晶锂业三元正极活性粒径:D10=6±1;D50=9-11um;D90=16-20;
PH值≤11.5;;TD密度≥2.1;外观:黑色固体
比表面积:≤0.5;形貌:球形;Al≤0.03;
Ni+Mn+Co=58-61.5;Li:7.05-7.4;Fe≤0.01
Cu≤0.001;H2O≤0.10;Mg≤0.02
深圳市天骄科技PLB-H5 正极活性粒径:D10≥5.0;D50=9-12um;D90≤25;
PH值≤11.5;包装:25±0.02kg;TD密度≥2.3
比表面积:0.2-0.5;首次容量/效率:≥153/89.5
Ni+Mn+Co≥57.17;Li:7-8;Na≤0.03;Fe≤0.01
Cu≤0.01;H2O≤0.10;
深圳市天骄科技PLB-F 正极活性粒径:D10≥2.0;D50=6-12um;D90≤18;
PH值≤11.5;包装:25±0.02kg;TD密度≥2.00
比表面积:0.3-1.0;首次容量/效率:≥145/89.5
Ni+Mn+Co≥57.17;L i:7-8;Na≤0.10;Fe≤0.02
Cu≤0.01;H2O≤0.10;
江西江特锂电材料三元(L532)正极活性粒径:D10≥4.5;D50=7-12um;D90≤25;
PH值≤11.5;包装:25±0.02kg;TD密度≥2.20
比表面积:≤1.0;首次容量:≥145/2.75-4.2V
Ni+Mn+Co:57~61;Li:7-8;Ca≤0.02;Fe≤0.01
Cu≤0.01;H2O≤0.10;Mg≤0.02%
重庆特瑞电池材料三元(TR-202)正极活性Ni+Mn+Co=56.7-62.7;Ca≤0.03;Na≤0.01;
SO4≤0.05;PH=9.5-12;水≤0.05%;克容量≥150
振实密度2.0-2.5g/cm3;比表面积0.6-1.5m2/g
粒径:D10=1-5;D50=5-12;D90=12-25;
外观:灰黑色粉末;规格:25±0.02Kg/桶
宁波金和新材料三元(S600)正极活性粒径:D10≥3;D50=8-12um;D90≤23;
PH值10-11.5;外观:黑色粉末;TD密度1.9-2.5
比表面积:0.3-0.7;松装密度≥0.7g/cm3;
Ni+Mn+Co≥56;Li:7-7.6;Ca≤0.02;Fe≤0.012
Mg≤0.02;Cu≤0.005;Na≤0.01%;H20≤0.2%
河南思维能源材料三元(TTM-532)正极活性粒径:D10≥4;D50=7-15um;D90≤25;
PH值9-12;外观:黑灰色粉末;TD密度≥2.00
比表面积:≤0.5;首次容量/效率:≥170/85%
Ni+Mn+Co≥58;Li:7-8;Ca≤0.02;Fe≤0.01
Pb≤0.01;Cd≤0.10;Si≤0.02%
佛山市金辉高科厚*宽=25um*44mm 隔膜外观:乳白色;厚度:23-29;透气度:400sec/100ml
孔隙率:40%;穿刺强度:389g;拉伸强度MD:95Mpa
拉伸强度TD:104Mpa;闭孔温度:133℃;破膜:151℃
90℃热收缩MD/TD:2.7/1.3%
150℃热收缩MD/TD:14/13.4%
深圳市吉美泰电子厚*宽=20um*38mm 隔膜外观:乳白色;厚度:18-22;透气度:≤30〞seconds
孔隙率:40-50%;穿刺强度:≥380g
闭孔温度:134℃;破膜:166℃
90℃热收缩MD/TD:≤3.0%/0%
拉伸强度TD:≥100kg/cm2;拉伸强度MD:≥1500;
上海荣仲实业乙炔炭黑(DENKA BLACK) 导电剂(正负极均可)含潮量:0.06-0.15%;灰分0.06%;沙状物:0.001%
电阻:0.195-0.225Ω-cm;吸碘值87mg/g
HCL吸收量13.6-15.8cc/5g;丙酮萃取量0.01%
表观密度:0.036-0.250g/cc;C=99.84%;O=0.12%
H=0.04%;比表面积80m2/g;粒子直径:27-35um
江西正拓新能源SHP-15 导电剂粒径D10=3.8,D50=7.1,D90=14.2;
证实密度:0.35g/cm3;碳含量99.973%
XRD=3.3573A;Fe=8.86ppm;CL=44.08;SO4=5.58
NO3=10.39ppm;容量/效率=350/93%
江西正拓新能源SHP-8 导电剂粒径D10=2.5,D50=4.14,D90=8.96;
证实密度:0.25g/cm3;碳含量99.985%
XRD=3.3525A;Fe=8.48ppm;CL=10.38;SO4=6.25
NO3=8.44ppm;容量/效率=350/94%
江西正拓新能源SHP-2 导电剂粒径D10=2.19,D50=3.97,D90=8.85;
证实密度:0.2415g/cm3;碳含量99.98%
XRD3.3573A;Fe=8.81ppm;CL=44.01;SO4=5.65
NO3=10.39ppm;容量/效率=350/93%
广州松柏化工SBR 电池级固含量:48-52%;PH=6-7.5;粘度80-400Mpa.s
最低成膜温度:2℃;表面张力:40-48
粒度:D50=150nm
广州松柏化工CMC 电池级外观:白色或微黄色粉末;粘度mpa.s2%水=1300
nacl(氯化物)0.45%;水分=3.85%;PH=7
Pb≤0.01;fe≤0.01;As≤0.01%纯度99.71%
广州松柏化工PTFE 电池级外观:白色均匀乳液;粘度6-15mm2/s
树脂含量=60±2%;粒度=0.05-0.2um;ph≥8
密度(20摄氏度)=1.48-1.55g/cm3
江门赫克力士化工羧甲基纤维素纳电池级外观:白色或微黄色粉末;粘度mpa.s1%水≥650
nacl(氯化物)≤0.3%;PH,1%=6.5-8.5
取代度0.65-0.95;干燥减量≤10%
成都中科来方能源AAA(正极)水性胶外观:微黄均一乳液;PH=7-8;
粘度(40°)=6-7Pa.s;固含量=14.9-15.1%
稳定性(一年内):不分层、不破乳
成都茵地乐电源LA-132(负极)水性胶外观:微黄均一乳液;PH=7-8;
粘度(40°)=5000Pa.s;固含量=15%
稳定性(一年内):不分层、不破乳
成都茵地乐电源LA-135(负极)水性胶外观:微黄均一乳液;PH=7-8;
粘度(40°)=19200Pa.s;固含量=14.3%
稳定性(一年内):不分层、不破乳
深圳国兴新电源10um*320mm(双毛) 铜箔钟孔及渗透:无个
/m2;单位质量面积:96g/m2 厚度:10um;抗拉强度35.5kg/mm2 延伸率:3.3%;抗氧化:(180°无变化)
深圳伟德智铝制品1235-H18 铝箔UST≥15mpa;Si≤0.2;FE≤0.5;CU=0.05-0.2 MN≤0.05;ZN≤0.1%;AL≥99.3%;淮南市超强化工N-甲基吡咯烷酮电子级外观:无色透明液体;纯度≥99.9%;丁丙脂≤0.02;水≤0.03;色度≤10;
密度=1.028-1.03g/ml;折光率=1.465-1.47
濮阳迈奇科技N-甲基吡咯烷酮电子级外观:无色透明液体;纯度≥99.9%;PH=7-9 丁丙脂≤0.05;水≤0.02;色度≤20;氨≤0.003
密度=1.029-1.033g/ml;折光率=1.467-1.471
香港创世纪实业0.15*3 铝镍复合带镍,铝比率=2:1(±0.02);镍铝含量≥99.6%尺寸:T=0.15±0.02;B=3.00±0.05; 表面无毛刺、划痕、辊印等抗拉强度=350-420mpa;整合面积≥99.5%
香港创世纪实业0.15*3 镍带As=0.0004;Ca=0.004;Si=0.0023;Sb=0.0001 Mn=0.0004; Mg=0.0023;pb=0.0003;Sn=0.0001 Zn=0.0008;C=0.011;S=0.0005;P=0.0014;
AL=0.019;Ni≥99.94%Fe=0.0089;Bi=0.0001;Cu=0.0058;Cd=0.000 1
厦门中物投进出口HSV900 PVDF 密度:1.77-1.79;熔点=165-172°C;熔融粘度:3400-4500Pa.s,绕曲模量:1360-2210mpa
抗拉强度=107-214j/m;整合面积≥99.5%
极限氧指数:43%;1.8mpa热变形温度:107-214° 邵氏硬度:76-80D;断裂时延伸率:50-250%D638
断裂时拉伸强度;34-43%;抗拉强度;40-55%D638
厂家规格物品名称材料性能
梅雁单面毛铜箔单位95-100强度300
兴达国际远东胶带阻燃/绝缘7.5KV
常州康捷电池材料68*0.20 隔膜短裂强度30N/1.5CM
张家港国泰华容2次锂电池LB-301 电解液电导率11.5±0.5
2次锂电池LB-302 电导率7.8±0.5
2次锂电池LB-303 电导率9.8±0.5
2次锂电池LB-304 电导率10.5±0.5
2次锂电池LB-313 电导率10.5±0.5
2次锂电池LB-315 电导率10.5±0.5
河北香河昆仑化学普通电解液电导率7.3±0.5
低温电导率9.5±0.5
动力电导率7.5±0.5
循环性能电导率7.5±0.5
新乡格瑞恩25-96*16-40 隔膜收缩率≤1/孔隙45
港隆实业碳酸甲乙脂EMC 甲基纯度≥99.95%
碳酸二乙脂DEC 纯度≥99.95%
碳酸二甲脂DMC 纯度≥99.95%
碳酸甲丙脂MPC 纯度≥99.95%
汕头金光高科普通L14 电解液电导率10.5±0.5
普通L30 电导率10±0.5
锰酸锂JT-01-LM 电导率8.2±0.5
圆柱JT-01-Y 电导率10.5±0.5
软包装JR-01 电导率9.5±0.5
软包装JR-02 电导率7.8±0.5
北京创亚恒圆柱LE-3501 电解液电导率10.5±0.5
普通LE-123 电导率11±0.5
深圳信用特殊胶带耐电解液/高温绝缘胶带耐温-40-280
绿色终止胶耐温-40-160
透明胶耐温-40-160
东莞志凌电子材料耐电解液/高温绝缘胶带耐温-40-280
绿色终止胶耐温-40-150
珠海塞纬电子材料SW2030 电解液电导率12.1MS/CM
HF≤13PPM
密度1.259G/CM3
濮阳N-甲基吡咯烷酮甲基纯度≥99.90%
密度1.029-1.033
折光率1.467-1.471
成都茵地乐电源LA-132 水性粘合剂黏度5000
固含量15%
LA-135 黏度19200
固含量14.3%
福来顺电子材料0.018*346 铝箔抗拉192N/MM2
单位质量48.8±2G/M2
0.016*338 抗拉192N/MM2
单位质量44±2G/M2
深圳国兴新电源科技0.010*348 电解铜箔抗拉44KG/MM2
单位质量96.5±0.5G/M2
0.010*170 抗拉41.3KG/MM2
单位质量95.9G/M2
佛冈建涛实业0.010*348 电解铜箔
深圳国兴新电源科技0.010*304 电解铜箔抗拉44.5KG/MM2
单位质量97±0.7G/M2
0.010*367 抗拉42.1KG/MM2
单位质量97.5±0.5G/M2
0.010*356 抗拉37.6KG/MM2
单位质量96.2±1G/M2
0.010*347 抗拉42.1KG/MM2
单位质量96.2±1G/M2
0.010*352 电解铜箔抗拉41.3KG/MM2
单位质量97.5G/M2
新乡金邦电源科技SBR2918 羧基丁本胶乳固含量48±2%
PH值6-8
SBR2919 固含量50±2%
PH值6-7
MP-0831A 阻锈剂密度0.83±0.05
覆盖面积100-120M2/KG
MP-0931A 密度1.03±0.05
PH值10-12
厂家规格物品配方/名称材料性能
东莞金卡本KC1-1 1.8%CMC:SBR:K=1:1.4:0.055 276ma h/g
东莞金卡本KC2-1 D50粒径25±5UM/D90/10≤45/≥10285mah/g
湖南辉宇科技SSG-1 S:CMC:SBR:SFG-6=100:2.5:2:4 330 mah/g
SSG-2 S:CMC:SBR:SFG-6=100:1:2:4 325mah/ g
SSG-3 S:CMC:SBR:SFG-6=100:1:2:5 315mah/ g
贝特瑞418 4:1.5%CMC:SBR:S-P=100:130:5:1 320 mah/g
316 人造石墨330mah/g
888 高端复合石墨340mah/g
NAG 复合石墨310mah/g
SAG 人造石墨320mah/g
长沙海容电子材料MGM 改性石墨330mah/g SKG-S30 复合石墨330mah/g
CAP-A61(SKG-2)复合碳素粉320mah/g
新乡远东电子AP080-1 复合碳素粉310mah/g
NPB272 复合碳素粉315mah/g
A080 复合碳素粉300mah/g
浙江宏远碳素MI-25 复合碳素粉280mah/g
长沙星城微晶石墨HAG2 石墨290mah/g
辽宁弘光科技CGP-1B 石墨310mah/g
首放93.3%/D50=18UM
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
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.
PBT,30%glass fibres,injection moulding,flame retardant ISO Shortname:ISO 7792-1-PBT,GFHMR,09-110,GF30;ISO 1043-PBT GF FR(17)Property Test Condition Unit Standard guide value Rheological properties C Melt volume-flow rate 260°C;5kg cm3/(10min) ISO 1133-137C Molding shrinkage,parallel 60x60x2;250°C /WZ 80°C;600bar %ISO 294-40.3C Molding shrinkage,transverse 60x60x2;250°C /WZ 80°C;600bar %ISO 294-40.9Post-shrinkage,parallel 60x60x2;120°C;4h %ISO 294-40.1Post-shrinkage,transverse 60x60x2;120°C;4h % ISO 294-4 0.1 Mechanical properties (23°C/50%r.h.)C Tensile modulus 1mm/min MPa ISO 527-1,-211500C Tensile Stress at break 5mm/min MPa ISO 527-1,-2125C Tensile Strain at break 5mm/min %ISO 527-1,-2 2.1C Charpy impact strength 23°C kJ/m2ISO 179-1eU 50C Charpy impact strength -30°C kJ/m2ISO 179-1eU 50C Charpy notched impact strength 23°C kJ/m2ISO 179-1eA <10C Charpy notched impact strength -30°C kJ/m2ISO 179-1eA <10Izod impact strength 23°C kJ/m2ISO 180-1U 45Izod impact strength -30°C kJ/m2ISO 180-1U 45Izod notched impact strength 23°C kJ/m2ISO 180-1A <10Izod notched impact strength -30°C kJ/m2ISO 180-1A <10Flexural modulus 2mm/min MPa ISO 178-A 10500Flexural strength 2mm/min MPa ISO 178-A 200Flexural strain at flexural strength 2mm/min %ISO 178-A 2.6Ball indentation hardness N/mm2ISO 2039-1186C Puncture energy 23°C J ISO 6603-2 2.3C Puncture energy -30°C J ISO 6603-2 2.1C Puncture maximum force 23°C N ISO 6603-2669C Puncture maximum force -30°C N ISO 6603-2 649 Thermal properties C Melting temperature 10°C/min °C ISO 11357-1,-3225C Temperature of deflection under load 1.80MPa °C ISO 75-1,-2200C Temperature of deflection under load 0.45MPa °C ISO 75-1,-2220Vicat softening temperature 50N;120°C/h °C ISO 306205C Coefficient of linear thermal expansion,parallel 23to 55°C 10-4/K ISO 11359-1,-20.2C Coefficient of linear thermal expansion,transverse 23to 55°C 10-4/K ISO 11359-1,-20.9C Burning behavior UL 940.38mm Class UL 94V-0C Burning behavior UL 940.8mm Class UL 94V-0C Oxygen index Method A % ISO 4589-2 32 Pocan B 4239 000000 Page 1of 3
常见塑料物性的检测及标准 流动系数 (1)测试的标准:ASTMD1238 (2)常用的测试标准的量测仪器是溶液指数计(Melt In deGer ). (3)流动系数检测方法:是一种表示塑胶材料加工时的流动性的数值。它是美 国量测标准协会(ASTM)根据美国杜邦公司(DuPont)惯用的鉴定塑料特性的方法制定而成,其测试方法是先让塑料粒在一定时间(10分钟)内、一定温度及压力(各种材料标准不同)下,融化成塑料流体,然后通过一直径为 2.1mm圆 管所流出的克(g)数。其值越大,表示该塑胶材料的加工流动性越佳,反之则越差。(4)测试的具体操作过程是:将待测高分子(塑料)原料置入小槽中,槽末接 有细管,细管直径为2.095mm,管长为8mm。加热至某温度后,原料上端藉由活塞施加某一定重量向下压挤,量测该原料在10分钟内所被挤出的重量,即 为该塑料的流动指数。有时您会看到这样的表示法?MI25g/10min ,它表示在 10分钟内该塑料被挤出25克。一般常用塑料的MI值大约介于1~25之间。MI愈大,代表该塑料原料粘度愈小及分子重量愈小,反之则代表该塑料粘度愈大及分子重量愈大。收缩率 测试的标准:ASTMD955 塑胶制品经冷却、固化并脱模成形后,其尺寸与原模具尺寸之差的百分比。 (3)因结构不同的关系,结晶性塑料与非结晶性塑料的收缩率存在明显的差异。一般地,结晶性塑料的收缩率比非结晶性塑料的收缩率大上好几倍(如下表所示)。同时有添加玻璃纤维或其它强化剂的塑胶材料,其收缩率可降低好几倍。
影响成型收缩的因素有热收缩、结晶度(热塑性)或硬化度(热固性) 、弹性回 复、分子配向、与成型条件等因素。 <1>热塑性塑料 <2>热固性塑料 塑料名称 成形收缩率(%) 塑料名称 成形收缩率(%) EP 0.1~0.5 SP 0.0~0.5 MF 0.5~1.5 UF 0.6~1.4 塑料名称 成形收缩率 (%) ABS 0.3~0.8 AS 0.2~0.7 CA 0.3~0.8 CAB 0.4~0.5 CAP 1 CP 0.4~0.5 EC 0.4~0.5 EPS 0.4 FEP 3.0~4.0 FRP 0.1~0.4 EVA 0.5~1.5 HDPE 1.2~2.2 HIPS 0.2~1.0 LCP 0.1~1.0 LDPE 1.5~3.0 塑料名称 成形收缩率 (%) PA 0.6~2.5 PA-6 0.5~2.2 PA-66 0.5~2.5 PA-610 1.2 PA-612 1.1 PA-11 1.2 PA-12 0.3~1.5 PAR 0.8~1.0 PBT 1.3~2.4 PC 0.4~0.7 PCTFE 0.2~2.5 PE 0.5~2.5 PET 2.0~2.5 PES 0.5~1.0 PMMA 0.2~0.8 塑料名称 成形收缩率 (%) POM 0.8~3.5 PP 1.0~2.5 PPO 0.5~0.7 PPS 0.6~1.4 PS 0.2~1.0 PVA 0.5~1.5 PVAC 0.5~1.5 PVB 0.5~1.5 硬质PVC 0.1~0.5 软质PVC 1.0~5.0 PVCA 1.0~5.0 PVDC 0.5~ 2.5 PVFM 0.5~1.5 SAN 0.2~0.6 SB 0.2~1.0
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;
塑料原料之物性说明 一流动特性(FLOW PROPERTIES) 热塑性塑料成型过程一般需经历加热塑化, 流动成型和冷却固化三个基本步骤.所谓加热塑化就是经过加热使固体高聚物变成粘性流体; 流动成型是借助注射机或挤塑机的柱塞或螺杆的移动,以很高的压力将粘性流体注入温度较低的闭合模具内,或以很高的压力将粘性流体从所要求形状的口模挤出,得到连续的型材;冷却固化是用冷却的方法使制品从粘流态变成玻璃态.几乎所有高聚物都是利用其粘流态下的流动行为进行加工成型的.表征流动特性的物理量如下: 1.熔融指数值(MELT INDEX) 熔融指数是评价热塑性聚合物特别是聚烯烃的挤压性的一种简单而实用的方法,其定义为: 在一定温度下, 熔融状态的高聚物在一定负荷下, 十分锺内从规定直径和长度的标准毛细管中流出的重量.其一般在熔融指数仪中测定. 可挤压性是指聚合物通过挤压作用形变时获得形状和保持形状的能力, 研究聚合物的挤出性质能对制品的材料和加工工艺作出正确的选择和控制,通常条件下,聚合物在固体状态不能通过挤压而成型,只有当聚合物处于粘流态时才能通过挤压获得宏观而有用的形变.挤压过程中,聚合物熔体主要受到剪切作用,故可挤压性主要取决于熔体的剪切粘度和拉伸粘度.大多数聚物熔体的粘度随剪切力或剪切速率增大而降低.. 熔融指数仪测定在给定剪切力下聚合物的流动度,用定温下10分锺内聚合物从出料孔挤出的重量(克)来表示,其数值就称为熔融指数. 所以流动度,即熔融指数实际上反映了聚合物分子量的大小,分子量较高的聚合物更易于缠结,分子体积更大,故有较大的流动阴力,表现出较高的粘度和低的流动度,亦即熔融指数低. 由于荷重小(1.2kgf)通测定的MI值不能说明注射或挤出成型时聚合物的实际流动性能.但用[MI]值能方便地表示聚合物流动性的高低. 2. 粘度 VISCOSITY ( Psi *S)
The above statement is based on our current level of knowledge and covers the above products directly manufactured and supplied by CHI MEI CORPORA TION at the date of issue. CHI MEI CORPORA TION makes no warranties, whether express or implied, and assumes no liability in connection with any use of above information. Notwithstanding the foregoing, CHI MEI CORPORA TION shall in no event be held obligated or liable for any claims due to or arising from (i) any customer provided, consigned, materials and/or parts, which are incorporated or adopted in the products; (ii) any combination of the products with material not provided or authorized by our company; (iii) any modifications to the products which are made or directed by customer; (iv) our compliance with the specifications, instructions, and/or designs provided by customer; (v) any anti-trust, unfair competition and/or other unlawful actions effected by customer; or (vi) any defects, infringement, breach and/or violatio n which are arising out of customer’s faults or otherwise not solely and directly attributable to CHI MEI CORPORA TION. In no event will CHI MEI CORPORA TION be liable for any indirect, special, exemplary, punitive, or consequential damages (including lost profits) of any nature whatsoever whether arising out of the purchase, shipment, unloading, handling, or use of any product or otherwise. PMMA ACRYREX ? CM-205 產品敘述: High viscosity 物性 ISO 測試方法 測試條件 單位 CM-205 熔融指數 230℃×3.8KG ml/10 min 1.9 比重 1183 23 ℃ g/cm 3 1.19 拉伸強度 527 50 mm/min, yield MPa 70 50 mm/min, break MPa 70 延伸率 527 50 mm/min % 12 彎曲強度 178 2 mm/min MPa 103 彎曲彈性模數 2 mm/min GPa 2.8 IZOD 衝擊強度 180/1A 23 ℃ Notched KJ/m 2 2 -30 ℃ Notched KJ/m 2 - Charpy 衝擊強度 179 23 ℃ Notched KJ/m 2 2 -30 ℃ Notched KJ/m 2 - 維氏軟化溫度 306 1 Kg,50 ℃/hr ℃ 115 5 Kg,50 ℃/hr ℃ 107 熱變形溫度 75/A 1.8 MPa Unannealed ℃ 95 1.8 MPa Annealed ℃ 104 線膨脹係數 11359 - - 6 X 10-5 燃燒等級 - UL-94 - 1.5mm HB 成型收縮率 294-4 - % 0.2~0.6 標記 1043 - - >PMMA< January 16, 2017 Notes :These are typical properties only and are not to be construed as specifications. Users should confirm results by their own tests.
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
塑胶原料物性大全塑胶原料物性大全PVC硬度对照表 万年历查询 塑料单位换算表 7-1 概论 7-2 塑品设计之通则 6-1 结构发泡成形方法 6-2 结构发泡设计之考虑 6-3 塑品设计 6-4 组装方法 5-1 概论 5-2 材料之考虑 5-3 设计之考虑 5-4 尺寸因素与公差 4-1 概论 4-2 模具设计 4-3 产品设计之建议 3-1 概论 3-2 材料之考虑 3-3 设计之建议 3-4 发泡异形押出 3-5 拉挤成形(pultrusions) 2-1 概论 2-2 原型之设计
2-3 产品设计 2-4 模具设计 2-5 组装设计 1-1 塑料材料的选择 1-2 塑料加工方式的选择 PVC塑料配方的设计 PVC造粒中起粒原因分析 TPR/TPE热塑性弹性体的注塑成型 制品烫印故障的成因及对策 塑料压铸工艺介绍 塑料原料在加工过程中的不良反应与解决办法塑料抗静电配方 塑料挤出机的电器故障和维修方法 塑料挤胀成型技术 嵌件注塑成型技术的特点 抗静电PVC产品配方 水溶性塑料薄膜的特点及生产要领 注塑成型中出现熔接痕现象的分析和解决 注塑成型步骤一物料干燥 注塑成型步骤三(1)机台的参数设置 注塑成型步骤三塑化计量设置 注塑成型步骤二模温的设定 注塑过程中改性尼龙的应用介绍 牛奶膜的生产工艺介绍 硬质CPVC的挤出工艺解析
聚丙烯PP的成型 聚丙烯导电配方 聚丙烯类阻燃配方 聚乙烯PE的注塑成型工艺 聚乙烯的着色配方(绿色类) 聚乙烯着色配方(红色类) 聚乙烯着色配方(黄色类) 聚乙烯类阻燃配方 聚氯乙烯填充配方 迈格机械新款系列吹瓶机技术详解 通用工程塑料PBT在注塑行业里的具体应用采用小浇口进行注射成型的优点 PVC塑料扣板使用方法 废旧塑料的风筛分离 再生LDPE工艺流程 再生PET工艺流程 再生PP聚丙乙烯工艺流程 再生PVC(硬料)工艺流程 塑料造粒小贴士 ABS塑料及产品注射成型工艺 LLDPE拉伸膜、保鲜膜的生产与应用研究 PET塑料及产品注射成型工艺 PET注拉吹制品壁厚分布的研究 TPR/TPE热塑性弹性体的注塑成型工艺 UPVC注射成型工艺
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
塑膠原材料物性表 材料名稱密度收縮率成本USD/kg燃燒狀態料管溫度射出壓力 (Kg/cm2)模溫 (C°)用途ABS (BK) 1.42~2.4 ABS (HB COLOR) 1.05 1.42~1.75/450 ABS (HB GF10) 1.2 1.75~3.72/about 500 ABS (HB GF20) 1.220.002 2.19/60-80 ABS (HB GF30) 2.25~4.26/ ABS (Natural) 1.25~2.4/ ABS (PA/757BK) 1.53~1.75/ ABS (PA/765AB) 2.2/ ABS (V0 GF10) 1.2 3.86/about 500 ABS (V0) 1.05 1.42~2.11 ABS (透明) 1.96~2.06 ABS (Acrylonitrile Butadiene Styrene)丙烯睛-丁二烯-苯乙烯1.05~1.1 0.005 1.25~2.4 易燃, 暗黃,有黑煙. 軟 化.特有氣味. 硬, 脆. 金 屬聲 180~260450~210050~80 電器,日用品外殼,玩具,家具,運動用品,燈 飾,汽車配件 AS (GF20) 1.260.002210-28060-80 AS=SAN(Styrene-Acrylonitrile Copolymer)丙烯睛-苯乙烯1.06 0.004/190~280 700~2300 40~80 食具,日用品,透明裝飾面,主表面 EPS 發泡膠 Expanded PolyStyrene貨品包裝,絕緣板, 裝飾品 EVA 乙烯-醋酸乙烯共聚物. Ethlene-Vinyl Acetate Copolymer橡皮膠120~25030~50鞋底,吹氣玩具製品,包裝膠膜 HIPS (BW-4(H45))/ HIPS (HB) 高衝擊聚苯乙烯 High Impact PS/ 1.1~1.3/ HIPS (PA-765BK) 2.2耐沖擊.玩具,日用品,收音機殼,電視機殼. HIPS (V0)/ 1.55 PA +GF30 (V0)260~29050~90 PA 66 (HB)/250~31050~90噪音小,軟. 牙刷,線圈架, 拉絲,束帶,齒輪,電動玩具外殼,電器配件,運動用品 PC(GE10G15) 5.508/ PC(GF40) 1.820.15%270-31080-120 PC(HB) 3.63 PC(L-1250YN) 1.2 3.7/ PC(N) 聚碳酸脂. 防彈膠 Polycarbonate 1.2 0.60% 4.2~4.75 稍難燃, 黃色焰,黑煙. 軟化. 特有味 260~300 (330劣化) 700~2100 85~120 咖啡壺,電動工具外殼,安全頭盔,透明片, 防硬玻璃,電器零件 PC(透明) 4.0~4.2 PC+ABS 2.32~2.98 PC+ABS (FR2000, V0) 4.485215~240about 75060~80 PC+ABS (KU2-1468,V0)240~280about 75060~90 材料名稱密度收縮率成本USD/kg燃燒狀態料管溫度射出壓力 (Kg/cm2)模溫 (C°)用途 PE 聚乙烯1.14 0.45% 易燃, 尖端黃,下端藍. 邊滴邊燃. 石腊燃燒味170-25040-60 PE (Polyethlene)0.95 3.50%150-23020-40包裝膠袋,膠瓶,水桶,電線,大貨桶,玩具PE(High Density PE) 高密160~310700~140025~70包裝膠袋,膠瓶,膠花,電線,大貨桶,玩具PE(Low Density PE) 低密150~310600~140025~70包裝膠袋,膠瓶,水桶,電線,大貨桶
DuPont ? Zytel ? nylon resin Zytel ? 101L NC010 Value DAM 50%RH Identification Resin Identification ISO 1043PA66 Part Marking Code ISO 11469>PA66< Mechanical Yield Stress ISO 527MPa (kpsi) 82 (11.9)55 (8.0) Strain at Break ISO 527% 50mm/min 45 Nominal Strain at Break ISO 527%25>100 Yield Strain ISO 527% 4.525 Tensile Modulus ISO 527MPa (kpsi)3100 (450) 1400 (200) Tensile Creep Modulus ISO 899 MPa (kpsi) 1h 1400 (200) 1000h 820 (119) Poisson's Ratio 0.41 Flexural Modulus ISO 178MPa (kpsi)2800 (410) 1200 (174) Notched Charpy Impact Strength ISO 179/1eA kJ/m 2 -30°C (-22°F) 4.53 23°C (73°F) 5.515 Unnotched Charpy Impact Strength ISO 179/1eU kJ/m 2 -30°C (-22°F)400NB 23°C (73°F) NB NB Contact DuPont for Material Safety Data Sheet, general guides and/or additional information about ventilation, handling, purging, drying, etc.ISO Mechanical properties measured at 4.0mm, ISO Electrical properties measured at 2.0mm, and all ASTM properties measured at 3.2mm. Test temperatures are 23°C unless otherwise stated. The DuPont Oval Logo, DuPont?, The miracles of science? and Zytel? are trademarks or registered trademarks of DuPont Company. Copyright? 2005. 050630/050630 The information provided in this data sheet corresponds to our knowledge on the subject at the date of its publication. This information may be subject to revision as new knowledge and experience becomes available. The data provided fall within the normal range of product properties and relate only to the specific material designated; these data may not be valid for such material used in combination with any other materials, additives or pigments or in any process, unless expressly indicated otherwise. The data provided should not be used to establish specification limits or used alone as the basis of design; they are not intended to substitute for any testing you may need to conduct to determine for yourself the suitability of a specific material for your particular purposes. Since DuPont cannot anticipate all variations in actual end-use conditions DuPont makes no warranties and assumes no liability in connection with any use of this information. Nothing in this publication is to be considered as a license to operate under or a recommendation to infringe any patent rights. DuPont advises you to seek independent counsel for a freedom to practice opinion on the intended application or end-use of our products. Caution: Do not use this product in medical applications involving permanent implantation in the human body. For other medical applications see "DuPont Medical Caution Statement", H-50102. https://www.doczj.com/doc/d112113919.html, Zytel ? 101L NC010 is a lubricated polyamide 66 resin for injection molding. Property Test Method Units
L exan* Resin 940A E urope-Africa-Middle East: COMMERCIAL LEXAN 940A is a medium viscosity flame retardant grade, especially suitable for electrical applications. T YPICAL PROPERTIES 1 TYPICAL VALUE UNIT STANDARD M ECHANICAL T aber Abrasion, CS-17, 1 kg 10m g/1000cy G E Method T ensile Stress, yield, 50 mm/min 63M Pa I SO 527T ensile Stress, break, 50 mm/min 65M Pa I SO 527T ensile Strain, yield, 50 mm/min 6%I SO 527T ensile Strain, break, 50 mm/min 100%I SO 527T ensile Modulus, 1 mm/min 2350M Pa I SO 527F lexural Stress, yield, 2 mm/min 90M Pa I SO 178F lexural Modulus, 2 mm/min 2300M Pa I SO 178H ardness, H358/30 95M Pa I SO 2039-1I MPACT Izod Impact, unnotched 80*10*4 +23°C N B k J/m2I SO 180/1U Izod Impact, unnotched 80*10*4 -30°C N B k J/m2I SO 180/1U Izod Impact, notched 80*10*4 +23°C 12k J/m2I SO 180/1A Izod Impact, notched 80*10*4 -30°C 10k J/m2I SO 180/1A Charpy Impact, notched, 23°C 30k J/m2I SO 179/2C Charpy 23°C, Unnotch Edgew 80*10*4 sp=62mm N B k J/m2I SO 179/1eU Charpy -30°C, Unnotch Edgew 80*10*4 sp=62mm N B k J/m2I SO 179/1eU T HERMAL T hermal Conductivity 0.2W /m-°C I SO 8302 CTE, 23°C to 80°C, flow 7.E-051/°C I SO 11359-2 Ball Pressure Test, 125°C +/- 2°C P ASSES -I EC 60695-10-2V icat Softening Temp, Rate A/50150°C I SO 306V icat Softening Temp, Rate B/50141°C I SO 306V icat Softening Temp, Rate B/120 142°C I SO 306H DT/Be, 0.45MPa Edgew 120*10*4 sp=100mm 136°C I SO 75/Be H DT/Ae, 1.8 MPa Edgew 120*10*4 sp=100mm 125°C I SO 75/Ae R elative Temp Index, Elec 130 °C U L 746B Source, GMD, Last Update:11/06/2000 PLEASE CONTACT YOUR LOCAL SALES OFFICE FOR AVAILABILITY IN YOUR AREA All information, recommendation or advice given by General Electric Company USA, or any of its subsidiaries, affiliates or authorized representatives, whether written or oral, is given in good faith, to the best of its knowledge and based on current procedures in effect. Each user of the products shall convince himself, through all available sources (including finished product testing in its appropriate environment) of the suitability of the products supplied for its own particular purpose. Because actual use of the products by the user is beyond the control of General Electric Company, its subsidiaries and affiliates, such use is in the exclusive responsibility of the user. General Electric Company, its subsidiaries and affiliates cannot be held responsible respectively liable for any loss incurred through incorrect or faulty use of the products. Information, recommendations and/or advice are neither made to infringe on any patents, nor to grant a license under any patent or intellectual property right of General Electric Company or any of its subsidiaries or affiliated companies, nor to grant the right to file for any patent protection * Lexan is a trademark of the General Electric Company ? 1997-2006 General Electric Company.All rights reserved 1) 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, expect the melt volume rate are measured on injection m oulded samples.All samples are prepared according to ISO 294. 2) 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.