International Journal of Machine Design and Manufacturing

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Functionally graded structure is a type of advanced structure characterized by fluctuation in properties. This paper describes the review of FGM: basic concept, processing technique, application and gradation of FGM properties. This paper also describes the recent development in FGM and future research direction which is required to implement in design and analysis.

N. Tejaswini, K.R. Babu, K.S. Ram, Functionally graded material: an overview, In: International Conference on Advances in Engineering Science and Management. Vol. 51, 2015.

M.M. Gasik, Functionally graded materials: bulk processing techniques, International Journal of Materials and Product Technology 39 (1-2) (2010) 20-29.

R. M. Mahamood, E.T. Akinlabi, M. Shukla, S. Pityana, Functionally graded material: an overview, In: Proceedings of the World Congress on Engineering. WCE, 2012.

A. Kawasaki, R. Watanabe. Concept and p/m fabrication of functionally gradient materials, Ceramics Int. 1997; 23(1): 73–83p.

J. Groves, H. Wadley. Functionally graded materials synthesis via low vacuum directed vapor deposition, Compos Part B: Eng. 1997; 28(1): 57–69p.

Y. Watanabe, H. Sato. Review Fabrication of Functionally Graded Materials Under a Centrifugal Force. INTECH Open Access Publisher; 2011.

B. Kieback, A. Neubrand, H. Riedel, Processing techniques for functionally graded materials, Mater Sci Eng: A. 2003; 362(1): 81–106p.

X. Lin, T. Yue, Phase formation and microstructure evolution in laser rapid forming of graded ss316l/rene88dt alloy, Mater Sci Eng: A. 2005; 402(1): 294–306p.

D.W. Hutmacher, M. Sittinger, M.V. Risbud. Sca_old-based tissue engineering: rationale for computer-aided design and solid free-form fabrication systems, Trends Biotechnol. 2004; 22(7): 354–62p.

L. Marin. Numerical solution of the cauchy problem for steady-state heat transfer in two-dimensional functionally graded materials, Int J Solids Struct. 2005; 42(15): 4338–51p.

R.A. Miller, W.J. Brindley, M.M. Bailey. Thermal barrier coatings for gas turbine and diesel engines.

T. Hejwowski, A. Wero_nski.The effect of thermal barrier coatings on diesel engine performance, Vacuum. 2002; 65(3): 427–32p.

T.M. Yonushonis. Overview of thermal barrier coatings in diesel engines, J Therm Spray Technol. 1997; 6(1).

W. Pompe, H. Worch, M. Epple, W. Friess, M. Gelinsky, P. Greil, U. Hempel, D. Scharnweber, K. Schulte. Functionally graded materials for biomedical applications, Mater Sci Engineering: A. 2003; 362(1): 40–60p.

S. Matsuo, F. Watari, N. Ohata. Fabrication of a functionally graded dental composite resin post and core by laser lithography and finite element analysis of its stress relaxation effect on tooth root, Dent Mater J.. 2001; 20(4): 257–74p.

A. Watari, A. Yokoyama, M. Omori, T. Hirai, H. Kondo, M. Uo, T. Kawasaki. Biocompatibility of materials and development to functionally graded implant for bio-medical application, Compos Sci Technol. 2004; 64(6): 893–908p.

P.R. Marur, H.V. Tippur, Evaluation of mechanical properties of functionally graded materials, J. Test Evaluat. 1998; 26(6): 539–45p.

M. Malinina, T. Sammi, M.M. Gasik. Corrosion resistance of homogeneous and fgm coatings, In: Materials Science Forum.Vol. 492, Trans Tech Publ, 2005, 305–10p.

F. Delale, F. Erdogan. The crack problem for a nonhomogeneous plane, J Appl Mech. 1983; 50(3): 609–14p.

S. Suresh, A. Mortensen, Fundamentals of functionally graded materials, no. LMM-CHAPTER-1998-001, Inst Mater. 1998.

G. Bao, L. Wang, Multiple cracking in functionally graded ceramic/metal coatings, Int J. Solids Struct. 1995; 32(19): 2853–71p.

S. Chi, Y. Chung. Cracking in sigmoid functionally graded coating, J Mech. 2002; 18(2002): 41–53p.

Y. Chung, S. Chi. The residual stress of functionally graded materials, J Chin Inst Civil Hydraulic Eng. 2001; 13: 1–9p.