瞬时液相扩散焊的发展及应用前景
Development of Transient Liquid Phase Diffusion Welding and Its Application Prospect
浏览(2268) 下载(2)
- DOI:
- 作者:
- 姚凯1,2, 范振红3, 李玉国4
YAO Kai1,2, Fan Zhenghong3, Li Yuguo4
- 作者单位:
- 1. 中国石油大学(北京)石油工程学院, 北京 102200;
2. 胜利油田现河采油厂, 山东东营 257000;
3. 中国石油大学(华东)机电工程学院, 山东东营 257061;
4. 东营市环境监测站, 山东东营 257000
China University of Petroleum, Beijing 102200, China
- 关键词:
- 瞬时液相扩散焊;原理;现状;应用
transient liquid;phase diffusion;welding principle;current status application
- 摘要:
- 瞬时液相扩散焊技术是一种新型的焊接技术,文章介绍了该焊接技术的原理,综述了国内外的研究现状及应用前景。国内对瞬时液相扩散焊技术的研究尚处于起步阶段,主要是针对一些异种难焊金属的焊接工艺;国外的研究更多的是对瞬时液相扩散焊工艺实现的一些关键因素的研究。关于瞬时液相扩散焊的质量检测技术主要有两种,射线探伤和超声波检测。瞬时液相扩散焊技术以其特有的优势已经广泛应用于航空、航天、核能以及其他技术领域,在管道焊接方面也具有很大的发展潜力。
Transient liquid phase diffusion welding (TLP) is a new type welding technique. This paper describes the principle, the current research status at home and abroad and the application prospect of this technique. In our country TLP is just at the primary stage aiming mainly at the welding process for some dissimilar and difficult metals. The research work in foreign countries focuses on key factors related to implementing the process. There are mainly two quality inspection techniques of TLP, i.e. radiographic inspection and ultrasonic inspection. TLP has been widely applied in the technical fields of aviation, aerospace and nuclear energy as well as other fields because of its particular predominance. It has a significant developing potential in pipeline welding field.2007,2(2): 1-4 收稿日期:2006-3-13分类号:TG456作者简介:姚凯(1969- ),男,1992 年毕业于石油大学(华东)采油工程专业,现为石油大学(北京) 博士研究生,主要从事石油天然气开发工程研究。参考文献:
[1] 陈思杰、王英. 异种钢管的瞬时液相扩散焊接[J]. 热加工工艺,2005,(4):43-47.
[2] 陈敏之.Inconel1718SPS 超合金的液相扩散连接[J]. 工艺动态,1999,(6):2-6.
[3] 王学刚、严黔、李辛庚. 20 钢管高温钎焊与瞬时液相扩散焊接组织与性能[J]. 焊接工艺,2005,26(5):56-60.
[4] 陈思杰,井晓天,李辛庚.TP304 钢管的瞬时液相扩散焊工艺研究[J].热加工工艺,2004,(11):58-60.
[5] 于冶水,吴铭方.瞬时液相扩散焊CuAlBe 合金和1Cr18Ni9Ti 不锈钢[J].焊接学报,2000,21(3):32-35.
[6] 刘黎明,牛济泰.采用非夹层液相扩散焊连接铝基复合材料Al2O3/6061Al[J].试验与研究,1999,28(5):1-3.
[7] 祝汉良,李志强.Ti3Al 超塑性扩散焊连接的理论计算[J].材料科学与工艺,1999,(7):224-230.
[8] Sinclair C W. Modeling transient liquid bonding in multicomponentSystems[J].Journal of Phase Equilibria,1999,20(4):361-369.
[9] Gale WF,Guan Y. Microstructural development in copper-interlayer transient liquid phase bonds between martensitic NiAl and NiTi [J].Journal ofMaterials Science,1997,(32):357-364.
[10] Ohsasa K,Shinmura T,Narita T. Numerical modeling of the transient liquid phase bonding process of Ni using Ni -B-Cr ternaryfiller metal[J].Journal of Phase Equilibria,1999,20(3):199-206.
[11] Cain S R,Wilox J R,Venkatraman R. A diffusion model for transient liquid phase bonding[J]. Acta mater,1997,45(2):701-707.
[12] Gale WF,Guan Y.The influence of post-bond heat treatment on microstructural development in martensite -forming NiAl -NiTi transient liquid phase bonds employing copper interlayers [J].Journal of materials science,1997,(32):2543-2547.
[13] Douglad M.Matson et al.Ultrasonic inspection of a diffusion-bonded platelet rocket chamber liner [J]. Materials Evaluation,1993,51(5):545-551.
[14] 刘松平.超塑成型/扩散连接构件微间隙缺陷的高频超声检测[J].无损检测,1993,15(9):241-243.
[15] Hutchins D A. Non-contact ultrasonic inspection of diffusion bonds in titanium[J]. Ultrasonics,1991,(4):294-301.
[16] 陈明和,韩秉强.TC4(Ti-6Al-4V) 钛板超塑性成形后的力学性能研究[J].热加工工艺,1995,(5):14-16.
[17] 陈卫,杨蕴林.结构钢与工具钢的恒温超塑性固相焊接[J].焊接学报,1996,17(1):31-38.
[18] 崔建中,马龙翔.超塑变形机制[J].金属科学与工艺,1991,10(1):68~76.
[19] Zanner F J,Fisher R W.Diffusion welding of commerical bronze to a titaniumalloy[J].Welding Journal,1975,54(4):12-105.
[20] KingWH,Owczarski WH,J.Welding[J].Welding,1967,(46):289.