Laser Micromachining of Stainless Steels for Biomedical Applications

机译：生物医学应用不锈钢的激光微加工

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This paper shows how computational techniques have been used to develop axi-symmetric, straight, sonic-line, minimum length micro nozzles that are suitable for laser micro-machining applications. Gas jets are used during laser micro machining of medical device materials to shield the interaction zone between laser and workpiece material, and they determine the machining efficiency of such applications. The paper discusses the nature of laser-material interactions and the importance of using computational fluid dynamics to model pressure distributions in short nozzles that are used to deliver gas to the laser-material interaction zone. Experimental results are presented that highlight unique problems associated with laser micro machining using gas jets.

机译：本文展示了如何使用计算技术来开发适用于激光微加工应用的轴对称，直线，声波线，最小长度的微喷嘴。气体射流用于医疗器械材料的激光微加工中，以屏蔽激光和工件材料之间的相互作用区域，它们决定了此类应用的加工效率。本文讨论了激光材料相互作用的性质，以及使用计算流体动力学来模拟短喷嘴中压力分布的重要性，这些短喷嘴用于将气体输送到激光材料相互作用区。提出的实验结果突出了与使用气体喷嘴进行激光微加工相关的独特问题。

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来源
《Heat Treating Society Conference and International Surface Engineering Congress; 20030915-20030917; Indianapolis,IN; US》|2003年|P.283-292|共10页
会议地点 Indianapolis IN(US);Indianapolis IN(US)
作者
M. J. Jackson; G. M. Robinson;
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作者单位

Center for Manufacturing Research, Tennessee Technological University, P. O. Box 5014, Cookeville, TN 38505, United States of America;

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会议组织
原文格式 PDF
正文语种 eng
中图分类热处理;
关键词
laser micromachining; gas jets; stainless steel; biomedical applications; gas nozzles;

机译：激光微加工;气体喷嘴;不锈钢;生物医学应用;气体喷嘴;

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专利

1. Micromachining of 316LVM stainless steel tubes using periodic acousto-optic modulation of pulsed Nd:YAG lasers for cardiovascular stent applications [J] . S. K. Sudheer, V. P. Mahadevan Pillai, V. U. Nayar, Journal of Microlithography, Microfabrication, and Microsystems. (JM3) . 2006,第2期

机译：使用Nd：YAG脉冲激光的周期性声光调制对316LVM不锈钢管进行微加工，用于心血管支架应用
2. Localized corrosion of laser marked M340 martensitic stainless steel for biomedical applications studied by the scanning vibrating electrode technique under polarization [J] . Manhabosco Sara M., dos Santos Alvaro Pritzel, Marcolin Marcelo L., Electrochimica Acta . 2016,第Null期

机译：极化条件下扫描振动电极技术研究生物医学用激光标记的M340马氏体不锈钢的局部腐蚀
3. Process mapping of laser surface modification of AISI 316L stainless steel for biomedical applications [J] . Evans Chikarakara, Sumsun Naher, Dermot Brabazon Applied Physics . 2010,第2期

机译：用于生物医学应用的AISI 316L不锈钢激光表面改性的工艺图
4. Laser Micromachining of Stainless Steels for Biomedical Applications [C] . M. J. Jackson, G. M. Robinson Hear Treating Society conference . 2003

机译：用于生物医学应用的不锈钢激光微机械
5. Friction Welding For Cladding Applications: Processing, Microstructure and Mechanical Properties of Inertia Friction Welds of Stainless Steel to Low Carbon Steel and Evaluation of Wrought and Welded Austenitic Stainless Steels for Cladding Applications in Acidchloride Service. [D] . Switzner, Nathan. 2017

机译：熔覆应用的摩擦焊接：不锈钢至低碳钢的惯性摩擦焊接的加工，显微组织和力学性能，以及在酸性氯化物中用于熔覆应用的锻造和焊接奥氏体不锈钢的评估。
6. Impact of Surface Treatment on the Functional Properties Stainless Steel for Biomedical Applications [O] . Marcin Basiaga, Witold Walke, Magdalena Antonowicz, 2020

机译：表面处理对生物医学应用功能特性不锈钢的影响
7. Process mapping of laser surface modification of AISI 316L stainless steel for biomedical applications [O] . Chikarakara, Evans, Naher, Sumsun, Brabazon, Dermot 2010

机译：用于生物医学应用的AISI 316L不锈钢激光表面改性的工艺图

Laser Micromachining of Stainless Steels for Biomedical Applications

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