Inorganic bonding was suitable for assembly and fixing of small punch of rubber, plastic and stamping die.
氧化铜无机粘接适合于橡胶、塑料以及冷冲压模具小型芯小冲头的装配与固定。
The new rubber reinforcing agents were made by the modification of inorganic fillers, such as clay, coal powder and aluminum sulfate residue with polyvinyl alcohol coupling agent.
以聚乙烯醇类高分子偶联剂作改性剂,对陶土、粉煤灰和硫酸铝渣等无机填料进行改性,制成新型橡胶补强剂。
The coal resource wastes are mostly inorganic material, it is very important to modify filler surface to enhance the compatibility with rubber.
煤炭资源的废弃物多为无机材料,对其表面改性以增强其与橡胶的相容性就显得极其重要。
But, the densities of the inorganic minerals are higher than reinforce materials-carbon black, which heavy restricts the use of inorganic mineral materials in the rubber.
但是,无机非金属矿物填料的密度均高于炭黑、白炭黑等补强材料的密度,这严重制约着无机矿物材料在橡胶中的使用。
Others use inorganic material such as shredded rubber from tires.
其他人使用无机物质,比如轮胎上的破碎的橡胶。
Application of inorganic bonding and acid corrosion in rubber die design and manufacturing was introduce.
介绍了氧化铜无机粘接和三酸腐蚀制造工艺技术在橡胶模具设计与制造过程中的应用。
Surface modified filler made from inorganic mineral using ultra fine can replace carbon black completely or partially, thus the cost of rubber production can be cut down.
经超细粉碎、改性后的无机矿物可全部或部分代替炭黑等常规橡胶填料,从而降低橡胶生产成本。
Analysis methods for inorganic components in rubber introduced systematically.
较系统地介绍了橡胶中无机物分析的方法。
In this paper, the technique and mechanism that flexible rubber particles and right inorganic particles toughen polymers are reviewed.
聚合物增韧是高分子新材料研究与开发的重要手段。
In this paper, the technique and mechanism that flexible rubber particles and right inorganic particles toughen polymers are reviewed.
聚合物增韧是高分子新材料研究与开发的重要手段。
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