1) green density
坯体致密度
1.
Effect of ZnO ceramic powder pre-treatment on green density;
ZnO压敏陶瓷粉料预处理对坯体致密度的影响
2) body density
坯体密度
1.
The influences of compression pressure,speed,holding time and forming agent on the BeO ceramics molding were investigated through analysis of the body density,microstructure of the BeO ceramics.
采用干压成型制备BeO陶瓷,通过分析BeO陶瓷的坯体密度和断口形貌,研究加压压力、加压速度、保压时间、粘结剂等工艺参数对BeO陶瓷成型工艺的影响。
3) isodense compact
等致密压坯
4) green density
压坯密度
1.
Warm compaction behavior of 316L stainless steel was investigated, influences of processing parameters of warm compaction on green density of 316L stainless steel were studied.
研究316L不锈钢的温压行为,分析温压工艺参数对压坯密度的影响。
2.
It is found that the green density and sintered density of YBa_2Cu_3O_(7-δ) powders with different granularity varied differently with the variation of pressure.
结果表明,不同粒度YBaCuO超导粉体的压坯密度、烧结密度(即烧结前后的致密度)随压力的变化规律不同。
3.
Influences of processing parameters of warm compaction on green density of 420 stainless steel were studied.
对420不锈钢粉末进行温压,探索温压工艺参数对压坯密度的影响,并对温压与室温模压(添加0。
5) compact density
压坯密度
1.
The effect of compact density on combustion synthesis of Fe-V-C mixture powders based in electric field was studied using Gleeble thermal simulation equipment.
采用Gleeble热模拟机,在电场和大热流密度作用下,研究压坯密度对Fe-V-C三元系粉末压坯燃烧合成的影响。
2.
Using Gleeble-1500D thermal simulation equipment, the effect of compact density on the low temperature combustion synthesis process of the compact of 55wt%(Ti+C)-45wt%Fe mixture powders was studied.
采用Gleeble-1500D 热模拟机,在电场和大热流密度作用下,研究压坯密度对55%(Ti+C)-45%Fe(质量分数)粉末压坯低温燃烧合成过程的影响。
3.
The paper analyzed the effect of sintering temperature,ball milling method and compact density on the density of MoSi2 disperslion-strengthened copper alloy.
分析了烧结温度、球磨方式和压坯密度对MoSi2弥散强化铜合金烧结密度的影响。
6) rough density
毛坯密度
补充资料:实坯坯
1.见"实丕丕"。
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