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AI-Li/SiCp composites and Ti-AI alloy powders and coatings prepared by a plasma spray atomization (PSA) technique

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Abstract

There has been increasing use of Al-Li alloys in the aerospace industry, due mainly to the low density and high elastic modulus of this material. However, the problem of low ductility and fracture toughness of this material has limited its present application to only weight- and stiffness-critical components. Development of Al-Li/ceramic composites is currently being investigated to enhance the service capabilities of this material. The Ti-Al alloy is also of interest to aerospace-type applications, engine components in particular, due to its attractive high-temperature properties. Preparation of fine powders by plasma melting of composite feedstock and coatings formed by plasma spraying was carried out to examine the effect of spray parameters on the microstructure and properties of these materials. Characterization of the powders and coatings was performed using the scanning electron microscope and image analyzer. Examination of the plasma-sprayed powders and coatings has shown that in the Al-Li/SiC composite there is melting of both materials to form a single composite particle. The SiC reinforcement was in the submicron range and contributed to additional strengthening of the composite body, which was formed by a cold isostatic press and consolidated by hot extrusion or hot forging processes. The plasma-sprayed Ti-Al powder showed four categories of microstructures: featureless, dendritic, cellular, and martensite-like.

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References

  1. E.A. Starke, Jr., Aluminium: Alloying,Encyclopaedia of Materials Science and Engineering, Vol 1, M.B. Bevers, Ed., Pergamon Press, Oxford, 1990, p 143–144

    Google Scholar 

  2. R. Grimes, Current Status of Aluminium-Lithium Based Alloys,Met. Mater., Vol 8 (No. 8), 1992, p 436–437

    CAS  Google Scholar 

  3. E.W. Lee, C.E. Neu, and J. Kozol, Al-Li Alloys and Ultrahigh-Strength Steels for U.S. Navy Aircraft,JOM, Vol 42 (No. 5), 1990, p 11–14

    Google Scholar 

  4. A.L. Geiger and M. Jackson, Low Expansion MMCs Boost Avionics,Adv. Mater. Proc, Vol 136, 1989, p 23–27

    Google Scholar 

  5. A.K. Dhingra, Metals Replacement by Composites,J. Met., Vol 38 (No. 3), 1986, p 17

    Google Scholar 

  6. Y. Flom and R.J. Arsenault, Interfacial Bond Strength in an Aluminium Alloy 6061-SiC Composite,Mater. Sci. Eng. A, Vol 77, 1986, p 191- 197

    Article  CAS  Google Scholar 

  7. A. Mortensen, J.A. Cornie, and M.C. Flemings, Columnar Dendritic Solidification in a Metal Matrix Composite,Metall. Trans. A, Vol 19 (No. 3), 1988, p 709–721

    Article  Google Scholar 

  8. V.C. Nardone and K.W. Prewo, On the Strength of Discontinuous Sili- con Carbide Reinforced Aluminium Composites,Scr. Met, Vol 20, 1986, p 43–48

    Article  CAS  Google Scholar 

  9. Y. Wu and E.J. Larvenia, Spray-Atomized and Co-Deposited 6061Al/SiCp Composites,JOM, Vol 43 (No. 8), 1991,p 16–23

    CAS  Google Scholar 

  10. M. Gupta, LA. Ibrahim, F.A. Mohamed, and E.J. Larvenia, Wetting and Interfacial Reactions in Al-Li-SiCp Metal Matrix Composites Proc- essed by Spray Atomization and Deposition,J. Mater. Sci., Vol 26, 1991, p 6673–6684

    Article  CAS  Google Scholar 

  11. M. Vedani, F. Marques Dos Santos, F. Brossa, G. Platti, and G. Donzelli, Paniculate Reinforced Aluminum Metal Matrix Composites Produced through a Plasma Spray Co-Deposition Technique,Proc. Adv. Alumi- num and Magnesium Alloys, ASM International, 1990, p 727–734

  12. Y.-W. Kim and D.M. Dimiduk, Progress in Understanding of Gamma Titanium Aluminides,JOM, Vol 43 (No. 8), 1991, p 40–47

    CAS  Google Scholar 

  13. Y.-W. Kim, Recent Advances in Gamma Titanium Aluminide Alloys,High Temperature Ordered Intermetallic Alloys IV, J.O Stiegler, L.A. Johnson, and D.P. Pope, Ed., MRS, Boston, 1991, p 777–794

    Google Scholar 

  14. Y.-W. Kim and F.H. Froes, Physical Metallurgy of Titanium Alu- minides,High Temperature Aluminides and Intermetallics, S.H. Whang et al., Ed., TMS, 1990, p 465–492

  15. J.H. Moll, C.F. Yolton, and B.J. McTiernan, P/M Processing of Tita- nium Aluminides,Int. J. Powder Metall., Vol 26 (No. 2), 1990, p 149–155

    CAS  Google Scholar 

  16. J. Dunkley, Producing Metal Powders,Metall. Mater., Vol 6 (No. 6), 1990, p 361–366

    Google Scholar 

  17. A. Lawley, An Overview of Powder Atomization Processes and Funda- mentals,Int. J. Powder Metall. Technol.,Vol 13, 1977, p 169–182

    CAS  Google Scholar 

  18. K.A. Khor, Production of Fine Metal and Ceramic Powders by the Plasma Melt and Rapid Solidification (PMRS) Process,J. Mater. Proc. Technol., Vol 29 (No. 1–3), 1992, p 267–281

    Article  Google Scholar 

  19. K.A. Khor, H.N. Cheang, M.H. Liang, M.J. Tan, T. Sano, and Y. Mura- koshi, Rapidly Solidified Al-AUoy Powders Produced by the PMRS Process,J. Mater.Proc. Technol.,Vol 37,1993,p417–429

    Article  Google Scholar 

  20. K.A. Khor, F.Y.C Boey, and T. Sano, Granulation of Al Alloy Compos- ite Aggregates for Cold Isostatic Pressing,J. Mater. Proc. Technol., Vol 37, 1993, p 431–439

    Article  Google Scholar 

  21. K.A. Khor, F.Y.C. Boey, and T. Sano, Ceramic Reinforcements for CIP- Extruded Al-Li Composites,Ceramics: Adding the Value (Proc. AUSTCERAM ’92), Vol 2, M. Bannister, Ed., CSIRO Press, Melbourne, 1992, p 724–729

    Google Scholar 

  22. K.A. Khor, A Versatile Powder Production and Collection System for Rapidly Solidified Metal and Ceramic Powders,Exp. Tech., Vol 16 (No. 4), 1992, p 13–16

    Google Scholar 

  23. K.A. Khor, A laboratory scale low pressure plasma spraying chamber for production of fine powders and coatings,Experimental Tech- niques, 1994 (in press)

  24. C.R. Feng, D.J. Michel, and C.R. Crowe, Microstructural Charac- teristics of Two-Phase Titanium Aluminides,Mater. Sci. Eng. A, Vol 145, 1991, p 257–264

    Article  Google Scholar 

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Authors and Affiliations

  1. School of Mechanical & Production Engineering, Nanyang Technological University, 2263, Singapore, Singapore

    K. A. Khor & F. Y. C. Boey

  2. Plasticity and Forming Division, AIST, MITI, Mechanical Engineering Laboratory, 1-2 Namiki, 305, Tsukuba, Japan

    Y. Murakoshi & T. Sano

Authors
  1. K. A. Khor
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  2. F. Y. C. Boey
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  3. Y. Murakoshi
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  4. T. Sano
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Khor, K.A., Boey, F.Y.C., Murakoshi, Y. et al. AI-Li/SiCp composites and Ti-AI alloy powders and coatings prepared by a plasma spray atomization (PSA) technique. JTST 3, 162–168 (1994). https://doi.org/10.1007/BF02648273

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