[1]
|
J. Banker and A. Nobili, “Aluminum-Steel Electric Transition Joints, Effects of Temperature and Time upon Mechanical Properties,” In: W. Schneider, Ed., Light Metals 2002, The Minerals, Metals, & Materials Society, 2002, pp. 439-445.
|
[2]
|
J. W. Elmer and D. D. Kautz, “Fundamentals of Friction Welding,” ASM Handbook, Welding, Brazing, & Soldering, Vol. 6, 1993, pp. 150-155.
|
[3]
|
T. Stotler, “Procedure Development and Practice Considerations for Inertia and Direct-Drive Friction Welding,” ASM Handbook, Welding, Brazing & Soldering, Vol. 6, 1993, pp. 888-891.
|
[4]
|
A. Patterson, “Fundamentals of Explosion Welding,” ASM Handbook, Welding, Brazing & Soldering, Vol. 6, 1993, pp. 160-164.
|
[5]
|
J. G. Banker and E. G. Reineke, “Explosion Welding,” ASM Handbook, Welding, Brazing & Soldering, Vol. 6, 1993, pp. 303-305.
|
[6]
|
L. M. Smith and M. Celant, “Practical Handbook of Cladding Technology,” CASTI Publishing, Inc., Edmonton, 1998.
|
[7]
|
D. L. Olson, T. A. Siewert, S. Liu and G. R. Edwards, “Roll Welding,” ASM Handbook, Welding, Brazing & Soldering, Vol. 6, 1993, pp. 312-314.
|
[8]
|
N. Noda, S. Nakai and T. Tsuji, “Thermal Stresses in Functionally Graded Material of Particle-Reinforce Composite,” Japanese Society of Mechanical Engineering Series A, Vol. 41, 1998, pp. 178-184.
|
[9]
|
O. Bleek, D. Munz, W. Schaller and Y. Yang, “Effect of a Graded Interlayer on the Stress Intensity Factor of Cracks in a Joint under Thermal Loading,” Engineering Fracture Mechanics, Vol. 60, No. 5-6, 1998, pp. 615-623.
doi:10.1016/S0013-7944(98)00044-7
|
[10]
|
M. Nemat-Alla, “Reduction of Thermal Stresses by Developing Two Dimensional Functionally Graded Materials,” International Journal of Solids and Structures, Vol. 40, 2003, pp. 7339-7356.
doi:10.1016/j.ijsolstr.2003.08.017
|
[11]
|
M. Nemat-Alla, “Reduction of Thermal Stresses by Composition Optimization of Two-Dimensional Functionally Graded Materials,” Acta Mechanica, Vol. 208, No. 3, 2009, pp. 147-161.
doi:10.1007/s00707-008-0136-1
|
[12]
|
M. Nemat-Alla, K. Ahmed and I. Hassab-Allah, “Elastic-Plastic Analysis of Two Dimensional Functionally Graded Materials under Thermal Loading,” International Journal of Solids and Structures, Vol. 46, No. 15-16, 2009, pp. 2774-2786.
doi:10.1016/j.ijsolstr.2009.03.008
|
[13]
|
D. Alton and J. Michael, “Combustion Synthesis of Advanced Materials,” ASM Handbook, Powder Metal Technologies and Applications, Vol. 7, 1998, p. 1252.
|
[14]
|
B. Kieback, A. Neubrand and H. Riedel, “Processing Techniques for Functionally Graded Materials,” Materials Science and Engineering A, Vol. 362, No. 1-2, 2003, pp. 81-106. doi:10.1016/S0921-5093(03)00578-1
|
[15]
|
R. Watanabe and A. Kawaski, “Powder Metallurgical Fabrication of the Thermal Stress Relief Type of Functionally Gradient Materials,” Sintering, Elsevier, Tokyo, Vol. 2, 1987, pp. 1197-1202.
|
[16]
|
T. Schubert, T. Weibgarber, B. Kieback, H. Balzer, H. C. Neubing, U. Baum and R. Braum, “Aluminum PM is a Challenge that Industry Can Overcome,” Metal Powder Report, Vol. 60, No. 3, 2005, pp. 32-37.
doi:10.1016/S0026-0657(05)00370-X
|
[17]
|
K. Y. Sastry, L. Froyen, J. Vleugels, O. Van der Biest, R. Schattevoy and K. Hummert, “Field Assisted Sintering Consolidation of Al-Si-Fe-X Alloy Powder/Flakes Produced through Air Atomization/Melt Spinning,” Material Science Forum, Vol. 519-521, 2006, pp. 1409-1414.
doi:10.4028/www.scientific.net/MSF.519-521.1409
|
[18]
|
P. C. Sharma, “Production Engineering,” S. Chand & Company Ltd., New Delhi, 1993, pp. 894-8896
|