1) laser melt doping
激光熔掺
2) laser doping
激光掺杂
1.
They include laser doping, laser annealing, laser depositing film, solid-phase reaction induced by laser and laser photolithograph.
这些应用大致涵盖激光掺杂、激光退火、激光沉积薄膜、激光引发固相反应和激光光刻等几方面。
2.
The application of laser thermal effects, laser doping and laser firing, in high efficiency solar cell fabrication is summarized.
综述了激光热效应在高效太阳电池制造中的应用,如激光掺杂和激光烧结工艺;介绍了这两种工艺的具体典型实例:激光掺杂有选择性发射结太阳电池、激光掺杂半导体指栅太阳电池、激光烧结电极太阳电池等。
3) 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
4) laser re-melting
激光熔凝
1.
Microstructure and wear resistance of 3Cr2W8V die steel treated by laser re-melting and nitriding;
3Cr2W8V模具钢激光熔凝+渗氮复合处理的组织与耐磨性研究
5) Laser remelting
激光熔凝
1.
Influence of calorific effect of chemical reaction on geometric characteristics of laser remelting zone;
化学反应热效应对激光熔凝区几何特征的影响
2.
Influences on microhardness characteristics of pulsed Nd:YAG laser remelting zone of thin plate die steel;
薄板模具钢脉冲Nd:YAG激光熔凝区显微硬度特征的影响因素
3.
State of the arts of pulsed laser remelting andpulsed laser phase transformation;
脉冲激光熔凝和相变硬化的研究现状
6) laser remelting
激光重熔
1.
Microstructure observation of coating prepared by hot-dipped aluminum and laser remelting on the surface of 5CrNiMo;
5CrNiMo热浸镀铝激光重熔层组织观察
2.
Microstructures and properties of laser remelting nickel-based alloy sprayed coating;
激光重熔镍基合金复合涂层组织和性能
3.
Study on microstructure and thermal fatigue resistance of laser remelting Co-based alloy hardfaced layers;
激光重熔Co基合金堆焊层的组织和耐热疲劳性的研究
补充资料:掺铬氟化铝锂钙激光晶体
分子式:Cr3+:LiCaAlF6
CAS号:
性质:一种可调谐激光晶体。三方晶系结构。熔点780℃。密度2.95g/cm3。折射率nD=1.387。晶体断面坚硬,发射谱吸收带为红光和蓝光区,可调谐波段范围720~840nm,峰值光波长780nm,发射截面1.2×10-20cm2,荧光寿命170μs。采用垂直布里奇曼法生长晶体。用于激光测距机、激光富达、海下通讯等用激光器件制作。
CAS号:
性质:一种可调谐激光晶体。三方晶系结构。熔点780℃。密度2.95g/cm3。折射率nD=1.387。晶体断面坚硬,发射谱吸收带为红光和蓝光区,可调谐波段范围720~840nm,峰值光波长780nm,发射截面1.2×10-20cm2,荧光寿命170μs。采用垂直布里奇曼法生长晶体。用于激光测距机、激光富达、海下通讯等用激光器件制作。
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参考词条