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1)  laser synthesizing
激光熔覆合成
2)  laser cladding forming(LCF)
激光熔覆成形(LCF)
3)  Laser cladding forming
激光熔覆成形
1.
Laser cladding forming(CLF) has been used to build up solid samples from the Ni-based powders.
利用激光熔覆成形技术制备出平整无变形的镍基合金样品,对显微组织中的层生长模式、晶粒生长模式,重熔情况以及一些缺陷等凝固组织的特征进行了详细分析。
2.
This paper analyzes the main factors affecting the laser cladding forming accuracy of metal parts, and puts forwards some suggestions on reducing the actions of these factors.
分析了影响激光熔覆成形金属零件精度的主要因素 ,提出了相应的解决办法。
3.
The numerical simulation of the thermal phenomena in multi-layer laser cladding forming was carried out and the effects of process parameters such as laser power,scanning speed,spacing interval and coefficient of heat convection were investigated,which play an important role in keeping consistent building condition,especially how to keep the molten pool size stable at different cladding height.
对激光熔覆成形制造过程中进行多层熔覆时的传热行为进行了数值模拟,分析了激光功率、扫描速度、扫描间隔时间以及对流换热系数对多层熔覆成形中熔池尺寸及其稳定成形的影响,获得了保持熔池尺寸和成形条件稳定条件下的优化的激光熔覆工艺参数。
4)  laser cladding alloying
激光熔覆合金化
1.
3 mm coating is formed by laser cladding alloying on the matrix,and the casting is ultra refinement,high strength and toughness and high wear resistance.
为了提高高锰钢辙叉运行初期的表面硬度和耐磨性,采用在其有害空间附近的心轨和翼轨表面预置纳米碳化物陶瓷复合粉末镀层材料,然后用激光熔覆合金化,基体表面形成厚度约为0。
5)  laser cladding
激光熔覆
1.
In-situ synthesis of Co_p/Cu composite coating by laser cladding;
激光熔覆原位合成Co_p/Cu复合涂层
2.
Research progress of laser cladding on the surface of magnesium alloys;
镁合金表面激光熔覆研究现状
3.
Influence of rare earths on Fe-based amorphous composite coatings by laser cladding;
稀土RE对激光熔覆Fe基非晶复合涂层的影响
6)  laser-cladding
激光熔覆
1.
Research of preventing the edges of tooth surface from collapsing in laser-cladding process;
齿面激光熔覆中的防边缘塌陷工艺研究
2.
Microstructure and Tribology Characteristics OF Laser-cladding Composite Ceramic Coating;
纳米复合陶瓷涂层激光熔覆后的组织与耐磨性能
3.
The WC–Ni–P composite coatings were made by laser-cladding on 1045 steel substrate.
利用激光熔覆技术在45钢表面制备了WC/Ni–P复合涂层,在Plint TE–66微磨料磨损试验机上进行了磨损试验,研究了不同稀土含量(CeO2)以及不同粒度WC粉末对涂层熔覆性能、硬度和磨损性能的影响。
补充资料:激光法合成纳米超细粉


激光法合成纳米超细粉


激光珐合成纳米起细粉
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
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