1) squeeze infiltration
挤压浸渗
1.
Al2O3-SiO2/AZ91D composites were fabricated by squeeze infiltration process.
采用挤压浸渗法制备Al2O3-SiO2/AZ91D复合材料。
2) Squeezing-infiltration
复合挤压浸渗
3) Liquid Infiltration-Extrusion
液态浸渗挤压
1.
The FEM Simulation of the Liquid Infiltration-Extrusion Process Including Damage for Composites;
复合材料液态浸渗挤压有限元模拟及损伤研究
2.
The FEM Simulation of the Liquid Infiltration-Extrusion Process for Composites;
复合材料液态浸渗挤压过程的有限元模拟
3.
Research on the FEM Simulation of the Liquid Infiltration-Extrusion Process for Fabricating MMC;
液态浸渗挤压复合材料过程的有限元模拟
4) gas pressure infiltration
气压浸渗
1.
Al/SiCP electronic packaging materials embedded metal components were fabricated by gas pressure infiltration.
采用气压浸渗技术完成了Al/SiCP电子封装材料嵌入金属元件的制备,应用能谱分析、XRD观察了界面层微观组织,并对界面连接强度进行了抗弯强度性能测试。
5) moulding pressure infiltration
模压浸渗
1.
Production technology of ZrW_2O_8/Al6013 composites prepared by moulding pressure infiltration method was introduced and the microstructure and coefficients of thermal expansion of ZrW_2O_8/Al6013 composites were studied.
介绍了模压浸渗复合法制备ZrW2O8/A l6013复合材料的工艺过程,并对该复合材料的组织和热膨胀性能进行了初步探讨。
6) pressure infiltration
压力浸渗
1.
The superplastic characteristics of the betaSiC whisker reinforced LY12 aluminum composite, fabricated by pressure infiltration and hotrolling after extrusion with a low extrusion ratio, were investigated The results show that the SiCw/LY12 composite exhibit a total elongation of 200%370% in the initial strain rate region from 33103 to 33102 s1at 788808
对压力浸渗、小挤压比挤压以及进一步轧制制备的β-SiC晶须增强LY12铝基复合材料的超塑性变形行为进行了研究。
2.
The scientific and technical matters concerned with the stability and the rheology properties of SiC slips, the packing behaviors of SiC powders, the manufacture of SiC tape and bulk skeletons, and the process of pressure infiltration were investigated.
研究了SiC料浆的稳定性和流变特性、SiC粉末的填实过程、SiC薄带和骨架的制备技术、SiC的固相烧结和骨架密度的控制,以及压力浸渗等科学问题和工艺问题。
3.
The article discussed the effect of preparing particle reinforced metal matrix composites by the path of pressure infiltration and the way of "nonuniform reinforced" to reduce the critical osmotic pressure and deformation degree of prefabricated body; and the possibility of improve plasticity and toughness of complex material to certain degree was also discussed.
本文通过“非均匀增强”的方式,探讨了用压力浸渗法制备颗粒增强金属基复合材料的途径,对减小临界浸渗压力及降低预制体变形程度的效果,以及在一定程度上改善复合材料塑性和韧性的可能性。
补充资料:热浸渗铝镀层
分子式:
CAS号:
性质:用热浸镀方法在钢表面形成的镀铝层。钢件浸入700~730℃的熔融铝液中,表面生成铝铁化合物,同时一部分铝原子渗入钢铁基体形成扩散层。为使镀层与基体金属牢固结合,一般在热浸后还要进行一次900~980℃的高温处理,使镀层软熔扩散,形成合金层。镀层具有优良的耐大气腐蚀性、抗高温氧化性和抗高温硫腐蚀性能。在石油、化工、能源、海洋工程等领域广泛应用。
CAS号:
性质:用热浸镀方法在钢表面形成的镀铝层。钢件浸入700~730℃的熔融铝液中,表面生成铝铁化合物,同时一部分铝原子渗入钢铁基体形成扩散层。为使镀层与基体金属牢固结合,一般在热浸后还要进行一次900~980℃的高温处理,使镀层软熔扩散,形成合金层。镀层具有优良的耐大气腐蚀性、抗高温氧化性和抗高温硫腐蚀性能。在石油、化工、能源、海洋工程等领域广泛应用。
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