Surface Modification and Repair for Aircraft Life Enhancement and Structural Restoration

Author:

Liu Qian Chu1,Baburamani Pud1,Zhuang Wyman1,Gerrard Darrem2,Hinton Bruce2,Janardhana Madabushi3,Sharp Khan1

Affiliation:

1. Defence Science and Technology Organisation

2. Defence Science and Technology Organisation (DSTO)

3. RAAF

Abstract

Maintenance of ageing military aircraft structures encompasses both engineering and scientific management. In support of this, surface modification and repair methods are used on an opportunity basis to extend the life of aircraft in terms of fatigue and safety. Often, certain surface modification technologies have proved to be both cost effective and amenable for safe application. Some candidate technologies include shot peening, cold spray, deep surface rolling, friction stir welding, laser shock peening, and laser cladding. Whilst some technologies have been successfully applied to Australian Defence Force (ADF) aircraft in the past, some newer technologies are also being considered. The supersonic particle deposition (SPD) technology also known as cold spray coating has been recently approved for application on a helicopter gear box. Another technology of significance to ADF application is Laser Cladding (LC) technology. This paper briefly summarises the research work on these technologies at DSTO and discusses potential applications for aircraft components in the near future. It also provides an analysis of technologies and their potential advantages and disadvantages.

Publisher

Trans Tech Publications, Ltd.

Subject

Mechanical Engineering,Mechanics of Materials,Condensed Matter Physics,General Materials Science

Reference16 articles.

1. P.K. Sharp, J.Q. Clayton and G. Clark, Fat. Fract. Eng. Mater. Struct., Vol. 17 (1994), p.243.

2. Q. Liu, S.A. Barter and G. Clark, (2002a), The Australian Conference of Applied Mechanics 2002 (ACAM 2002), Sydney, February 20-22, (2002).

3. P. K. Sharp, S. A. Barter and G. Clark, DSTO Technical Note, DSTO-TN-0279, Defence Science and Technology Organisation Commonwealth of Australia, (2000).

4. A. H. Clauer and J.L. Dulaney, 3rd National Turbine Engine High Cycle Fatigue Conference, February 2-5, San Antonio Texas, (1998).

5. SAE Aerospace, Aerospace material Specification-Laser peening, AMS 2546, August (2004).

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