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 Abstract: In this paper, H13 powder is cladded on P20 base during continuous CO2 laser, the influence of processing technologies such as the laser power is analyzed. The 3-D model of synchronous powder feeding is established under Gauss heat source, the simulation results are compared with the experimental data. The results show that the temperature field and the size of heat affected zone are affected by laser power. In the heat affected zone, experimental sizes are compared with simulative sizes, the average errors in width and in depth are 15% and 4.5%, respectively.  相似文献
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扫描速度对激光快速成型316L不锈钢组织性能的影响   总被引:1,自引:0,他引:1  
研究了在激光功率900W条件下,扫描速度对激光快速成型不锈钢零件组织,性能的影响,在各扫描速度下,所成型的不锈钢薄壁板件的组织均为枝晶组织,随扫描速度提高,不锈钢薄壁板的定向生长树枝晶组织细化,枝晶间距变小,同时其沿X方向的机械性能(抗拉强度及硬度)降低。  相似文献
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Laser cladding nickel-based alloy coating (Ni60) and nickel-based composite coating doped with WC particles by 35 % (WCp/Ni) were produced on the low-carbon steel substrate by CO2 continuous wave laser with power of 5 kW using the injected powder technique. The effect of laser power on microstructure and wear resistance of laser cladding WCp/Ni cermet coating was investigated. The WCp/Ni alloy coating with evenly distributed WC ceramic phases and the better bond with the substrate alloy was obtained at a power of 2.2 kW. Diffusion solution reaction happened between WC particles and the substrate alloy during laser cladding, and led to the formation of block rich-tungsten carbide on the edges of the WC particles, especially at higher power. The WCp/Ni alloy coating consists of the undissolved WC particles, the block or dendritic rich-tungsten carbide, the bar-like rich-chromium carbide, and dendrite solid solution and eutectic structure among the carbides. Microhardness and wear resistance of the WCp/Ni coating at different powers were much higher or better than those of Ni60 alloy coating, and the best results were obtained at power of 2.2 kW.  相似文献
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高宁 《粉末冶金技术》2007,25(3):203-208
为了提高激光合成纳米金刚石的效率,对不同的激光器作用于不同的碳原料悬浮液的合成效果进行了研究.以Nd:YAG毫秒脉冲激光(功率密度为106W·cm-2)作用于土状石墨,成功合成了纳米金刚石,实现了较低激光功率密度下的制备,有利于提高合成效率;以红宝石纳秒脉冲激光(功率密度>109W·cm-2)作用于鳞片石墨合成了纳米金刚石;以上2种激光没有使碳黑转变为纳米金刚石.较低功率密度(106W·cm-2)毫秒脉冲激光照射石墨悬浮液时,其相变机理为:石墨颗粒吸收激光能量快速升温并达到熔融状态,激光脉冲过后,碳液滴迅速冷却,进入金刚石稳定区,金刚石形核并长大.  相似文献
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