Journal of Welding and Joining

The Korean Welding and Joining Society (대한용접접합학회)
권호 표지

A Study on the Formation of Functionally Composite Layer on Al Alloy Surface by Plasma Transferred Arc Overlaying Process

Plasma Transferred Arc 오버레이법에 의한 Al 합금 표면층의 복합기능화에 관한 연구

  • 임병수 (삼성종합기술원 에너지 Lab) ;
  • 황선효 (대전산업대학교 소재생산가공학과) ;
  • 서창제 (성균관대학교 금속공학과)
  • Published : 1999.10.01
Download PDF
⟨ Previous Next ⟩

Abstract

The objective of this research was to study the formation of the thick hardened layer with the addition of metal powder(Cu) and ceramics powders(TiC) on the aluminum 5083 alloys by plasma transferred arc process(PTA process) and to characterize the effect of overlaying conditions on the overlaid layer formation. This was followed by investigating the microstructures of the overlaid layers and mechanical properties such as hardness and wear resistance. The overlaid layer containing copper powder was alloyed and intermetallic compound($CuAl_2$) was formed. The overlaid layers with high melting point TiC powders, however, did not react with base metal. Wear resistance of the alloyed layer was remarkably improved by the formation of $CuAl_2$, precipitate phase, which prevented wear of base aluminum alloys and at higher wear speed, accelerated sliding of the counter part. Wear resistance of the composite layer was also remarkably improved because TiC powder act as a load barring element and Fe debris fragments detached from the counter part act as a solid lubricant on the contact surface.

Keywords

References

  1. Proceedings of the ASM 1993 Materials Congress Wear Regimes in Ceramics Particulate Reinfored Aluminium Alloys J.Zhang;A.T.Alpas
  2. Seripta Metall. Mater. v.26 Wear Rate Transitions in Cast Aluminum Silicon Alloys Reinfored with SiC Particles A.T.Alps;J.Zhang
  3. Scripta Metall. Mater. v.24 Sliding and Abrasive Wear Behaviour of an Aluminnum (2014)-SiC Particle Reinforced Composite A.T.Alps;J.D.Emburry
  4. Mater. Sci. & Eng. A v.161 Wear Regimes and Transitions in A1203 Particulate Reimforced Aluminum Alloys J.Zang;A.T.Alps
  5. Compatibility Criteria for Sliding Metals in Friction and Lubrication in Metal Processing E.Rabinowicz;F.F.Ling(eds.);R.L.Whitely(eds.);P.M.Ku(eds.);M.B.Peters(eds.)
  6. The Influene of Surface Fillms on the Friction and Deformation of Surfaces in Properties of Metallic Surfaces F.P.Bowden;D.Tabor
  7. J. Met. v.349 Abrasive Wear of Aluminum-Matrix Composites K.J.Bhansali;R.Mehranian
  8. Mater. Sci. Technol. v.5 Wear of Alumina-Fiber aluminum composites by Two-Body Abrasion A.G.Wang;I.M.Hutchings
  9. Tribology of Composite Materials Y.Pan;M.E.Fine;H.S.Cheng;P.K.Rohatgi(eds.);P.J.Blau(eds.);C.S.Yust(eds.)
  10. J. Mater. Sci. v.17 Composites of Al Alloys Fabrication and Wear Behaviour F.M.Hosking;F.Folgarportillo;R.Wunderlin;R.Mehrabian
  11. Wesr. v.77 Wear and Abrasion of Cast Al-Alumina Particle Composites M.K.Surappa;S.V.Prasad;P.K.Rohatgi
  12. Wear of Materials Friction and Abrasion of Casr-Alumin Particle composites N.Saka;D.P.Karalekas;K.C.Ludema(eds.)
  13. Wear of Materials Wear Mechanisms in Particle Reinforced and Laminated Metal Matrix Composites A.T.Alps;J.D.Emurry;K.C.Lunema(eds.);R.G.Boyer(eds.)
  14. 輕金屬 v.40 no.10 プラズマ粉體肉盛法によるアルニミウム合金表面への炭化物複合化 淸水;永井;松田;中田
  15. 溶接學會講演槪要 v.49 アルニミウム表面へのTi及びTi系セラミックスの複合化-PTA法 によるAl表面 mm order傾斜機能合金化硏究(1)-(318) 松田;中田;徐;橋本
  16. 溶接學會講演槪要 v.46 PTA法によるアルニミウム表面複合化の硏究(第2報)-Ni, Cu合金化に關する檢討-(302) 淸水;永井;松田;中田
  17. 溶接便覽 溶接學會(編)
  18. Alとその合金の溶接 水野;幕田
  19. 輕金屬熔接 v.26 no.9 初步のTIG arc 現象 安田
  20. 熔接學會論文集 v.3 no.2 TIG arcによる He gasのarc 特性におよばす影響 平岡;岡田
  21. Al構造物の熔接施工管理 輕金屬熔接構造協會
  22. Plasma工學 岡田;荒田
  23. 輕金屬熔接 v.29 no.1 He shield 交流 TIGによる Al板の熔接 日向;安田;恩澤
  24. 大越式 飛速磨耗試驗機 取扱說明書 東京試驗機 製作所