中国组织工程研究

中国组织工程研究 ›› 2011, Vol. 15 ›› Issue (38): 7135-7138.doi: 10.3969/j.issn.1673-8225.2011.38.024

• 材料力学及表面改性 material mechanics and surface modification • 上一篇    下一篇

激光焊接新型钴铬合金的力学性能

梁锐英,赵艳萍,温黎明,白宇宏,吴文慧,徐艳丽,孟  贺   

  1. 河北联合大学口腔医学院,河北省唐山市  063000
  • 收稿日期:2011-03-09 修回日期:2011-05-13 出版日期:2011-09-17 发布日期:2011-09-17
  • 通讯作者: 赵艳萍,副教授,河北联合大学口腔医学院,河北省唐山市 063000 hbmyzyp@ sina.com
  • 作者简介:梁锐英★,女,1974年生,河北省唐山市人,汉族,2006年天津医科大学毕业,硕士,讲师,主要从事口腔材料研究。 lry110@126.com
  • 基金资助:

    唐山市科学技术研究与发展计划项目(09130202A3-11)。

Mechanical study of laser welded new Co-Cr alloy

Liang Rui-ying, Zhao Yan-ping, Wen Li-ming, Bai Yu-hong, Wu Wen-hui, Xu Yan-li, Meng He   

  1. Stomatology Department of North China Coal Medical University, Tangshan  063000, Hebei Province, China
  • Received:2011-03-09 Revised:2011-05-13 Online:2011-09-17 Published:2011-09-17
  • Contact: Zhao Yan-ping, Associate professor, Stomatology Department of North China Coal Medical University, Tangshan 063000, Hebei Province, China hbmyzyp@sina.com
  • About author:Liang Rui-ying★, Master, Lecturer, Stomatology Department of North China Coal Medical University, Tangshan 063000, Hebei Province, China lry110@126.com
  • Supported by:

    the Science and Technology Research and Development Program of Tangshan City, No. 09130202A3-11*

PDF

298

被引次数

6

摘要:

背景:新型钴铬合金为一种不含镍和铍等有害成分的齿科合金材料,但关于其激光焊接的研究尚未见报道。
目的:分析新型钴铬合金的激光焊接参数,优选激光焊接电压条件。
方法:铸造0.5 mm×6 mm×30 mm的新型钴铬合金试件60个,将试件分成6组。1组作为对照组;5组试件从中间断开,进行激光焊接,光斑直径设定为0.6 mm,脉冲持续时间10 ms,电压分别为220,250,280,310,340 V,焊后进行拉伸强度测试,记录拉伸强度和延伸率。
结果与结论:激光焊接新型钴铬合金拉伸强度随电压升高而增加。延伸率在电压低于280 V时,随电压增大而增加;高于280 V时,随电压增大而降低。电压为280 V时,激光焊接新型钴铬合金的拉伸强度为(679.94±46.87) MPa,延伸率为(5.91±0.38)%。提示电压280 V,脉冲持续时间10 ms,光斑直径0.6 mm条件下激光焊接新型钴铬合金的拉伸强度和延伸率均能满足临床要求。

关键词: 新型钴铬合金, 激光焊接, 力学性能, 拉伸强度, 延伸率, 口腔生物材料

Abstract:

BACKGROUND: There are no reports on laser welding about a kind of Co-Cr alloys, which do not include Ni and Be nowadays.
OBJECTIVE: To apply laser welding technique to prepare a new Co-Cr alloy in order to provide welding parameters for clinic application.
METHODS: Sixty plastic plate patterns (0.5 mm×6 mm×30 mm) were casted from new Co-Cr alloy. All the plates were randomly divided into 6 groups, one as control group, and the others as examination group. The plates of examination group were perpendicularly cut at the center of the plates. After the cut halves were fixed in a jig, they were laser welded using a NG:YAG laser at a several level output energy in increments of 30 V from 220 to 340 V. The spot diameter and pulse duration employed was 0.6 mm and 10 ms. Uncut specimens served as the non-welded control specimens. Tensile testing was conducted and the breaking force was recorded and the data was statistically analyzed. 
RESULTS AND CONCLUSION: The tensile strength of laser welding New Co-Cr alloys increased with the electric voltage. The elongation increased with the electric voltage at the electric voltage lower than 280 V, but showed contrary trend when the electric voltage higher than 280 V. The tensile strength and elongation was (679.94±46.87) MPa and (5.91±0.38)% respectively at the optimized welding parameters. The tensile strength and elongation of laser welded New Co-Cr alloy under the optimized parameters (280 V, 10 ms, spot diameter 0.6 mm) can be satisfied with the clinical requirement.

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