在试验的喷距范围内,喷距对粉末的熔化状态和涂层结合强度均无明显影响。
The melting state of powder and bonding strength of coating did not vary much within spraying distance in the experiment.
在试验的喷距范围内,喷距对粉末的熔化状态和涂层结合强度均无明显影响。
The melting state of powder and bonding strength of coating did not vary much within...
当爆炸参数选择正确时,可通过扩散和局部熔化的共同效应而达到冶金结合。
The metallurgical bonding was achieved by combining effect of diffusion and local melting when the explosive parameters were selected correctly.
较高的喷涂功率和较大的氢气流量,有助于改善粉末的熔化程度,从而提高涂层的沉积效率和结合强度。
Deposition efficiencies and bonding strengths of coatings are higher in the cases of higher spray power and higher H2 flow due to the better melting condition of powders during spray process.
通过引入描述纳米微粒形状效应的形状因子,建立了金属纳米微粒尺寸形状效应的结合能函数与熔化温度函数。
By introducing a shape factor, the functions on cohesive energy and melting temperature are developed which can describe thee effect of size and shape of metallic nanoparticles.
试验表明,焊缝成型良好,在弹体不发生熔化的前提下实现了冶金结合。
The experiments show that the welded seam is good and the metallurgical joint was achieved without melting the shell body.
结果表明,等离子表面冶金合金化涂层对基材具有良好的润湿性,基材表面熔化区的形成使得涂层与基材实现了完全的冶金结合。
Results indicated that plasma surface metallurgical coating of Fe-Cr-Ni-B-Si had well wettability, and metallurgical bonding was obtained between coating and substrate.
本文利用分子动力学方法研究了铅纳米薄膜的熔化温度与结合能的关系。
The molecular dynamics simulation method has been used to study the relation between the melting temperature and the cohesive energy of Pb nanofilms.
在爆炸焊接的过程中,结合区一薄层基体金属,在高温下将发生熔化、熔解或化合。
A thin layer of fusion zone is fused and compounded at the high tem" perature in explosion welding process."
在爆炸焊接的过程中,结合区一薄层基体金属,在高温下将发生熔化、熔解或化合。
A thin layer of fusion zone is fused and compounded at the high tem" perature in explosion welding process."
应用推荐