1) liquid infiltration
液态浸渗
1.
Both the load and the displacement of the ram as well as their relationship during extrusion which directly follows liquid infiltration were experimentally measured and analyzed.
实验测定分析了液态浸渗后直接挤压过程的冲头载荷与位移关系曲线及它们各自随时间的变化,指出了不同工艺条件下所获得的载荷-位移曲线存在很大差异的原因,揭示了工艺参数对液态浸渗后的挤压过程性质有着决定性作用。
2.
A numerical simulation technique based on the stable alternating direction implicit (SADI) method and the upper bound element technique(UBET) is presented and applied to simulations of extrusion directly following liquid infiltration which involves infiltration,solidification, and large plastic deformation in one process.
采用稳定的交替方向隐式(SADI)有限差分方法、上限元法(UBET)等数值计算方法模拟了融浸渗、凝固和大塑性变形为一体的液态浸渗后直接挤压的工艺过程。
2) infiltration
[英][,infil'treiʃən] [美][,ɪnfɪl'treʃən]
液态浸渗
1.
Mechanical Properties of Alumina Short Fiber Reinforced Aluminium Matrix Composites Fabricated by Extrusion Directly Following infiltration;
液态浸渗后直接挤压铝基复合材料的力学性能
2.
Infiltration process of fiber reinforced magnesium aluminium matrix composites made by liquid infiltration was mainly studied in the paper.
本文着重研究了液态浸渗法制备纤维增强镁、铝基复合材料的浸渗工艺。
3) liquid metal infiltration
液态浸渗法
1.
Development of the carbon fiber reinforced magnesium matrix composites fabricated by liquid metal infiltration;
液态浸渗法制备碳纤维增强镁基复合材料研究进展
4) 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
5) infiltration
[英][,infil'treiʃən] [美][,ɪnfɪl'treʃən]
液相浸渗
1.
And C/Mg composite is prepared under a low pressure infiltration and the damping property is improved.
该涂层改善了碳纤维与镁合金基体的润湿性,实现了低压液相浸渗制备C/Mg复合材料,并提高了复合材料的阻尼性能。
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