laser cladding layer 激光熔敷层
Cu cladding layer 铜熔敷层
PMMA cladding layer PMMA包层
cladding layer cracking 熔覆层开裂
The obtained microhardness of better cladding layer is 2.25 times of that of stainless steel substrate in the experiment.
熔覆层显微硬度为不锈钢基体的2.25倍。
参考来源 - 铝合金表面激光熔覆Cu基复合涂层研究By using laser cladding technology, copper alloy coating with liquid separation characteristic was prepared on 6061 aluminum alloy, obtaining high wear-resistant coating with hard particle distributing dispersively in cladding layer.
利用激光熔覆技术在6061铝合金表面制备具有液相分离特点的铜基合金复合涂层,获得了硬质颗粒弥散分布耐磨涂层。
参考来源 - 铝合金表面激光熔覆Cu基复合涂层研究·2,447,543篇论文数据,部分数据来源于NoteExpress
The preparation of ternary boride hard alloy cladding layer on steel substrate is studied.
研究采用铸渗法制备三元硼化物硬质合金覆层钢基材料。
Then, for surface cladding layer, advances in the plasma and electro-chemistry methods are reviewed.
表面敷层方面介绍了铸造铝合金的等离子喷涂、 电化学方法的研究现状;
Therefore, we could realize the effect of strain field reducing to different lattices cladding layer.
因此我们可以了解由不同晶格常数的夹层形成之应力场的影响。
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