Kaolin is one of very important non-metal mineral resources used widely in papermaking, rubber and plastics manufacturing.
高岭土是一种重要的非金属矿产资源,广泛用于造纸、橡胶和塑料等方面。
Kaolin is an important non - metallic mineral resources and it can be used in papermaking, rubber, plastics and so on.
高岭土是一种重要的非金属矿产资源,可广泛用于造纸、橡胶、塑料等方面。
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。
Mineral element content and dry rubber content in latex varied with season or tree age, leading to final differences in loss of mineral elements from latex.
橡胶树年龄不同,或在一年中的不同季节,胶乳中矿质元素百分含量和干胶产量均不同,最终导致胶乳中矿质元素的流失量存在差异。
The study based on the craft mineral in tailings, introduced the recovery process of sericite from tailings and explored the characterization of sericite and utilization in rubber.
研究从尾矿的工艺矿物学入手,介绍了绢云母的回收工艺,探讨了绢云母产品的表征及其在橡胶制品中的应用情况。
A new technology of synthesizing SP and SP-C with mineral (a kind of rubber packing agents) as catalyst has been sought, and the optimum technology conditions has been selected.
探索出一种以矿物质(橡胶填充剂)为催化剂合成sp及SP - C的新工艺。选择了最佳的工艺条件。
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。
Introduced the recovery principle of the sericite minerals in the mineral tail, mainly explored the application of superfine sericite in rubber, plastics and coat.
介绍了选矿尾矿中绢云母矿物的回收及其在橡胶、塑料、涂料中的应用技术。
To prevent rubber products to aging, should avoid direct sunlight and mineral oil contact.
为防止橡胶制品地老化,应避免阳光直接照射及矿物油接触。
U Rubber lining for mineral processing facility.
在现场进行选矿设备橡胶衬里冷粘指导。
The interaction between mineral filling and silicone rubber matrix was systematically investigated by using material physical chemistry and composite method.
采用材料物理化学和复合材料的方法,系统地研究了八种矿物及其超细粉体和改性粉体与硅橡胶基体的相互作用。
The interaction between mineral filling and silicone rubber matrix was systematically investigated by using material physical chemistry and composite method.
采用材料物理化学和复合材料的方法,系统地研究了八种矿物及其超细粉体和改性粉体与硅橡胶基体的相互作用。
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