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超音速微粒轰击表面纳米化设备研制
引用本文:王晓明,MA Shi-ning,李长青,FENG Xue-qiang. 超音速微粒轰击表面纳米化设备研制[J]. 装甲兵工程学院学报, 2008, 22(3)
作者姓名:王晓明  MA Shi-ning  李长青  FENG Xue-qiang
作者单位:装甲兵工程学院,装备再制造技术国防科技重点实验室,北京,100072
摘    要:超音速微粒轰击是材料表面纳米化的重要手段,性能优异的专用设备是实现这一工艺的前提。为此,采用数值模拟分析的方法研制了超音速微粒轰击喷枪,在距喷枪出口50mm处获得了平均约320m/s的轰击粒子速度;在对机器人选型和控制系统设计的基础上,集成了超音速微粒轰击表面纳米化设备;应用该设备实现了对38CrSi中碳钢的表面纳米化处理,验证了研制设备的性能。

关 键 词:超音速微粒轰击  表面纳米化  数值模拟  设备研制

Development of Supersonic Fine Particles Bombarding Equipment for Surface Nanocrystallization
WANG Xiao-ming,MA Shi-ning,LI Chang-qing,FENG Xue-qiang. Development of Supersonic Fine Particles Bombarding Equipment for Surface Nanocrystallization[J]. Journal of Armored Force Engineering Institute, 2008, 22(3)
Authors:WANG Xiao-ming  MA Shi-ning  LI Chang-qing  FENG Xue-qiang
Affiliation:1.National Defense Key Laboratory for Remanufacturing Technology; Academy of Armored Force Engineering; Beijing 100072; China; 2. Training Department; China);
Abstract:Supersonic fine particles bombarding (SFPB) is an important means to perform surface nanocrystallization, and the special equipment with excellent features is the key to prepare nanocrystallline surface layer. Consequently, based on the theory of numerical value modeling, the SFPB spraying gun used for surface nanocrystallization is developed, which may produce average bombarding particles velocity of 320 m/s at distance of 50 mm from outlet of the gun. Then, the equipment discussed above is integrated afte...
Keywords:supersonic fine particles bombarding  surface nanocrystallization  numerical value modeling  equipment development
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