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1)  solid loading
固相含量
1.
Gelcasting was applied to shaping of titanium alloy(Ti6Al4V) powders and the preparation of titanium alloy powder’s slurries with high solid loading was investigated.
将凝胶注模工艺应用于金属Ti6Al4V合金粉末的成形,研究了高固相含量的Ti6Al4V合金粉末的料浆的制备,比较了金属浆料与陶瓷浆料的不同。
2.
Thedependence of AT suspension rheological properties on various solid loading and different dispersants wasstudied,and the influence of monomer(AM) and cross-linking agent(MBAM) content on properties of ATbodies was also discussed.
研究了分散剂和固相含量对钛酸铝浆料流变性的影响,并探讨了单体和交联剂用量对钛酸铝坯体性能的影响规律。
3.
The preparation of titanium alloy powder's slurries with high solid loading was investigated.
将凝胶注模工艺应用于金属Ti及Ti-6Al-4V合金粉末的坯体成形,研究了高固相含量的Ti粉和Ti-6Al-4V合金粉末的料浆的制备。
2)  solids loading
固相含量
1.
The influences of solids loading on the rheological properties used for aqueous gel-casting were studied, and also in this paper the microstructures, densities, and strengths of yttria-stabilized zirconia were investigated.
主要研究料浆固相含量对氧化钇稳定氧化锆料浆流变性质,以及YSZ的微结构、密度和强度的影响规律,并分析讨论其原因。
3)  solid content
固相含量
1.
Experimental study on the effect of solid content and density of high density drilling fluid on its rheological properties;
固相含量和密度对高密度钻井液流变性影响的实验研究
2.
Strontium ferrite is an important permanent magnetic material,but making the strontium ferrite slurry with high solid content and low viscosity is very difficult.
锶铁氧体是重要的永磁材料,但锶铁氧体粉体很难制备高固相含量、低粘度的浆料。
4)  high solid loading
高固相含量
1.
In this paper, optimization conditions of preparation of high solid loading ceramics slurries are in vestigated by ways of powder sulface modification and uses of dispersant, some better technique ways of powder surface modification being intruduced,uses of dispersant being disscussed, and problem at present time are pointed.
通过从粉体表面改性和分散剂的使用两方面对高固相含量料浆的制备工艺进行了研究,介绍了一些陶瓷粉体表面改性方法,讨论了分散剂的作用,并指出了存在的问题。
5)  low solid content
低固相含量
6)  high solid loading slurry
高固相含量浆料
补充资料:固相成型
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性质:泛指塑料在熔融温度以下,至少低于熔点10~20℃,塑料尚处于固态时所进行的一类成型方法。其最大优点是节省能量。对于非结晶型塑料来说,把在玻璃化温度以上、熔点以下的高弹区域内进行的成型加工,称为热成型;把在玻璃化温度以下进行的成型加工称为冷成型或室温成型。也可以指结晶型塑料的固态挤出、固态压延等成型方法,可以得到晶体细化和高度取向的制品。

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