1) eutectic alloy
低共熔合金
2) acolite
低熔合金
3) germanium-gold eutectic mixture
锗金低共熔混合物
4) eutectic
[英][ju:'tektik] [美][ju'tɛktɪk]
低共熔的,低共熔(混合)物
5) low melting point alloy
低熔点合金
1.
The applications of the low melting point alloy die in sheet metal forming;
低熔点合金模具在板料冲压工艺中的应用
2.
Approach to Manufacturing Technology for Silicone Rubber Moulds for Low Melting Point Alloy Jewelry
低熔点合金饰品离心铸造中硅橡胶型的制作工艺
3.
Through analyzing on the upper part of oil box and the design of the drawing die structure,the characteristics of the low melting point alloy were described,and discussed the characteristics of low melting point alloy die and the application in plate materical drawing process, the attention problems of die design were pointed out.
以分析油箱上体工艺特性和设计其低熔点合金拉伸模具结构为例,论述了低熔点合金材料的特点,介绍了低熔点合金模具的特点及其在板料冲压工艺中的应用,指出了模具设计应注意的问题。
6) low melting alloy
低熔点合金
1.
By using low melting alloy as fusible core and nylon 66 modified by 30% glass fiber,fistula plastic parts with intricated type were prepared.
以低熔点合金为可熔型芯材料,注射成型形状复杂的30%玻纤增强尼龙66中空塑料件。
2.
The cuboid technology makes use of the property of expansion in cooling down and contraction in heating up of low melting alloys,together with shifting the reference base,to solve the head-ache problem of machining middling and long blades,which,because of their complex blade profile,are difficult to be fixed in a certain position and therefore effect the machining precision of their roots.
方箱工艺利用低熔点合金冷胀热缩的特性,通过定位基准转换的方法,解决了叶片加工中大型动叶片由于叶片型面复杂难于定位而导致叶根的加工精度无法保证的难题。
3.
In view of some problems emerged in melting lose core process of low melting alloy in traditional lose core injection molding technology,a new type of water soluble lose core material was developed.
针对传统失芯注射成型利用低熔点合金熔融去芯时出现的问题,研制了一种新型水溶性失芯材料。
补充资料:线型低密度聚乙烯/低密度聚乙烯共混物
分子式:
CAS号:
性质:系由线性低密度聚乙烯与低密度聚乙烯组成的共混物,20%的低密度聚乙烯可显著改善线性低密度的加工性能,提高薄膜韧性和透光性,当低密度聚乙烯达50%时,可提高薄膜撕裂强度和断裂伸长率。可通过粒料直接掺混制备。主要用于吹塑农膜、包装膜及挤出包覆电缆。
CAS号:
性质:系由线性低密度聚乙烯与低密度聚乙烯组成的共混物,20%的低密度聚乙烯可显著改善线性低密度的加工性能,提高薄膜韧性和透光性,当低密度聚乙烯达50%时,可提高薄膜撕裂强度和断裂伸长率。可通过粒料直接掺混制备。主要用于吹塑农膜、包装膜及挤出包覆电缆。
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