1) modified MC Nylon
改性MC尼龙
1.
This paper introduced the preparation method of modified MC nylon, discussed the physical & mechanical properties and modifying mechanism and reported the manufacturing technology and application of modified MC nylon engineering plastics pipe.
介绍改性MC尼龙的制备方法,探讨了该材料的物理力学性能及改性机理,阐述了改性MC尼龙管道的制备工艺和应用概况。
2) modified MC Nylon pipe
改性MC尼龙管
1.
The molding technique of modified MC Nylon pipe is introduced.
介绍改性MC尼龙管道的成型工艺。
3) FRP/MC nylon composite pipe
玻璃钢/改性 MC 尼龙复合管
1.
This artide introduces fabrication technique and application of FRP/MC nylon composite pipes.
本文介绍了玻璃钢/改性 MC 尼龙复合管的成型工艺、性能及应用情况。
4) MC nylon
MC尼龙
1.
Impacts of nano-ZnO on the structure and properties of MC nylon;
纳米ZnO对MC尼龙结构和性能的影响
2.
Preparation and DSC analyses of MC nylon modified by copoly merization;
共聚改性MC尼龙的制备和DSC分析
3.
Preparation and Characterization of MC Nylon 6/SiO_2 Nano-meter Composites;
MC尼龙6/SiO_2纳米复合材料的制备与表征
5) MC nylon 6
MC尼龙6
1.
Non-isothermal Crystallization Kinetics of Silica/MC Nylon 6 In-situ Nano-scale Composites;
纳米二氧化硅/MC尼龙6原位复合材料非等温结晶动力学的研究
2.
Study of discrete relaxation time spectrum of MC nylon 6/Kevlar fiber compos-ite melts;
MC尼龙6/Kevlar纤维复合材料松弛时间谱的计算研究
3.
A new method of synthesizing carbon fiber(CF,whose surface is grafted by nylon 6)/MC nylon 6 in-situ composites is proposed and the composites are characterized.
提出一种表面接枝尼龙6的碳纤维/MC尼龙6原位复合材料的制备方法并加以表征。
6) MC Nylon6
MC尼龙6
1.
Non-isothermal crystallization kinetics of Silica /MC nylon6 In Situ Nanocomposites
纳米二氧化硅/MC尼龙6原位复合材料非等温结晶动力学
2.
In this thesis, after homogeneously dispersing nano-silica in ε -caprolactam melt, silica/MC nylon6 in-situ nanocomposites possessing evenly dispersed silica were successfully obtained via anionic polymerization.
本工作将纳米SiO_2均匀分散在己内酰胺熔体中,通过阴离子聚合法制备了纳米粒子均匀分散的纳米SiO_2/MC尼龙6原位复合材料。
补充资料:玻璃纤维增强羟甲基尼龙改性酚醛模塑料
分子式:
CAS号:
性质:以羟甲基尼龙改性酚醛树脂为黏结剂,浸渍玻璃纤维,烘干而制成的热固性模塑料。主要性能:拉伸强度130~140MPa;弯曲强度240~320MPa;压缩强度210~220MPa;冲击强度150~170kJ/m2;介质损耗2.27×10-9(1MHz);介电常数6.06(1MHz);热导率0.53~0.63W/(m·K)。
CAS号:
性质:以羟甲基尼龙改性酚醛树脂为黏结剂,浸渍玻璃纤维,烘干而制成的热固性模塑料。主要性能:拉伸强度130~140MPa;弯曲强度240~320MPa;压缩强度210~220MPa;冲击强度150~170kJ/m2;介质损耗2.27×10-9(1MHz);介电常数6.06(1MHz);热导率0.53~0.63W/(m·K)。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条