压力成型 meaning in English
compression molding
pressure forming
Examples
- In this article , the reason how the friction produces in the process of metal forming was analyzed , and the friction was thought to be mainly caused by the plastic flow of metal in the pits of tool surface
本文从微观入手对金属压力成型过程中摩擦的形成原因进行了分析,认为摩擦主要是由于被压入工具表面凹坑金属的塑性流动所引起的。 - In this article , the reason how the friction produces in the process of metal forming was analyzed , and the friction was thought to be mainly caused by the plastic flow of metal in the pits of tool surface
摘要本文从微观入手对金属压力成型过程中摩擦的形成原因进行了分析,认为摩擦主要是由于被压入工具表面凹坑金属的塑性流动所引起的。 - The factors such as the forming technology , the milling time and the mass ration of copper and paraffin in the composite materials which affect the thermal sensitivity , the thermal expansion and the thermal stability of the composite materials are investigated
通过压力成型的方法获得纳米铜粒石蜡温敏复合材料。研究了复合材料不同成型工艺、球磨时间以及复合材料中所含铜粉和石蜡不同质量配比对复合材料热敏性、热膨胀性和热稳定性的影响。 - By using the high pure alumina micro - powder ( > 99 . 0 % ) and the polymorphous alumina fiber as materials , by adding alumina sulfate as the binder or polypropylene - amide as the disperser respectively , through mixing , dispersing , and compression molding , at different temperatures of 1200 c , 1350 c , 1400 c , 1500 c , and 1550 c with no pressure , the alumina fiber - alumina composites were made
本试验采用高纯氧化铝微粉( 99 . 0 )和多晶氧化铝纤维为原料,分别加入硫酸铝和聚丙烯酰胺作结合剂和分散剂,经混合、分散、压力成型及在1200 、 1350 、 1400 、 1500 、 1550下无压烧成制得氧化铝纤维? ?氧化铝复合材料。 - The research on the properties of the copper nanoparticles / paraffin thermosensitive composite materials reveals : the thermal sensitivity and the thermal expansion are " aried by the cempress moulding in heat condition with the change in density ; the thermal sensitivity is varied by the mechanical milling with the change in particle shape and particle dimension ; the mass ration of copper and paraffin in the composite materials also affects the thermal sensitivity , the thermal expansion and the thermal stability with the change in copper nanoparticles and paraffin interface
对复合颗粒进行压力成型后制备的复合材料进行性能测试分析表明:热压成型工艺通过改变复合材料的致密度来影响材料的热敏性和热膨胀性。高能球磨工艺主要通过改变球磨时间使铜粒形状和粒径发生变化来影响复合材料的热敏性,以及改变铜粉和石蜡的质量比使纳米铜粒和石蜡的复合界面发生变化来影响材料的热敏性、热膨胀性和热稳定性。