聚甲醛POM N2320巴斯夫BASF
更新时间:2024-12-21 08:00:00
价格:请来电询价
厂家:德国巴斯夫POM
型号:N2320
产地:巴斯夫股份有限公司
联系电话:0769-22103662
联系手机: 18025120985
联系人:刘洋平
让卖家联系我
详细介绍
POM/德国巴斯夫/N2320-003 POM/德国巴斯夫/N2320-003 POM/德国巴斯夫/N2320-003 美国杜邦POM日本宝理POM泰国三菱POM德国巴斯夫POM杜邦旭化成POM台湾丽钢POM神化宁煤POM上海蓝星POM
POM(聚甲醛)N2320-003/德国巴斯夫 注塑
重要参数:熔体流动速率:7.5 g/10min吸水率:0.8 %拉伸强度:65 MPa断裂伸长率:27 %维卡软化点:150 ℃
POM(聚甲醛)N2320-U03/德国巴斯夫 注塑生产厂商:德国巴斯夫公司
重要参数:熔体流动速率:7.5 g/10min吸水率:0.8 %拉伸强度:63 MPa断裂伸长率:29 %维卡软化点:150 ℃
POM(聚甲醛)N2310 P/德国巴斯夫 注塑
重要参数:熔体流动速率:7.5 g/10min密度:1.4 g/cm3吸水率:0.8 %拉伸强度:2600 MPa热变形温度:95 ℃
POM(聚甲醛)N2320Y/德国巴斯夫
重要参数:熔体流动速率:9 g/10min密度:1.4 g/cm3吸水率:0.2 %缺口冲击强度:6 拉伸强度:65 MPa
POM(聚甲醛)N2640 Z2/德国巴斯夫
重要参数:熔体流动速率:7 g/10min密度:1.37 g/cm3吸水率:0.8 %拉伸强度:2000 MPa热变形温度:85 ℃
POM(聚甲醛)W2320 003/德国巴斯夫 注塑
重要参数:熔体流动速率:25 g/10min密度:1.4 g/cm3吸水率:0.8 %拉伸强度:2800 MPa热变形温度:100 ℃
POM(聚甲醛)H2320004/德国巴斯夫
重要参数:密度:1.4 g/cm3吸水率:0.8 %成型收缩率:2.1 %缺口冲击强度:8 拉伸强度:65 MPa
POM(聚甲醛)H2320-004/德国巴斯夫 注塑级
重要参数:密度:1.4 g/cm3吸水率:0.2 %热变形温度:95 ℃
POM(聚甲醛)H2320006/德国巴斯夫
重要参数:密度:1.4 g/cm3吸水率:0.8 %缺口冲击强度:6 拉伸强度:64 MPa断裂伸长率:30 %
韩国工程塑料POM韩国科隆POM南通三菱POM南通宝泰菱POM日本三菱POM德国赫斯特POM日本旭化成POM台湾
台塑POM云天化POM泰科纳POM
100P/美国杜邦/POM 500P/美国杜邦/高粘度耐磨级POM 美国杜邦900P/高流动性,低黏度/POM
POM/杜邦-旭化成/4520 F20-03/通用/泰国三菱POM 500T美国杜邦/POM
POM/德国巴斯夫/N2320-003 美国杜邦/100T/POM M90-04/通用/日本宝理POM
台湾台塑/fm090/POM聚甲醛
The dimensions are tiny but their potential is huge: nanotechnology is one of the strongest innovation drivers in research and development. BASF is convinced of the possibilities offered by this cross-sectional technology. We can use it to develop sustainable innovations to meet the challenges of the future.
The global population is predicted to reach nine billion by 2050. They will all need adequate living space, a secure energy supply and good medical care. Nanotechnology will be indispensable in making this happen while simultaneously safeguarding the environment.
BASF uses nanotechnology to develop new products and improve existing ones. Nanotechnology is a cross-sectional technology. It is used in many sectors, such as health, electronics, building and construction and automotive to develop innovative nanomaterials with new performance features.