How to cite this paper
Ahi, P., Jenab, K., Ghasempoor, A & Rajabi, M. (2012). A survivability model for ejection of green compacts in powder metallurgy technology.International Journal of Industrial Engineering Computations , 3(1), 15-24.
Refrences
Briscoe, B.J. and Rough, S.L. (1998). The effects of wall friction in powder compaction. Colloids and Surfaces, A: Physicochemical and Engineering Aspects, 137(1-3), 103-116.
Dasgupta, A. and Pecht, M. (1991). Materials Failure Mechanisms and Damage Models. IEEE Transactions on Reliability, 40 (5), 531-536.
DeWolf, I. (2003). MEMS reliability. Microelectronics Reliability, 43 (7), 1047-1048.
ISO7438. (1985). Metallic Materials – Bend Test.
Korachkin, D., Gethin, D.T., Lewis, R.W., Tweed, J.H., & Guyoncourt, D. M.M. (2008). Measurement of Young’s modulus and tensile failure properties of green powder compacts. Powder Metallurgy, 51 (2), 150-159.
Lefebvre, L.P. and Mongeon, P.E. (2003). Effect of tool coatings on ejection characteristics of iron powder compacts. Powder Metallurgy, 46 (1), 43-48.
Lewis, E.E. and Chen, H.C. (1994). Load-Capacity Interference and the Bathtub Curve. IEEE Transactions on Reliability, 43 (3), 470-475.
Poquillon, D., Baco-Carles, V., Tailhades, Ph., & Andrieu, E. (2002). Cold compaction of iron powders-relations between powder morphology and mechanical properties Part II: Bending tests, results and analysis. Powder Technology, 126 (1), 75-84.
Redanz, P. (1998). Numerical modeling of cold compaction of metal powder. International Journal of Mechanical Science, 40 (11), 1175-1189.
Redanz, P. (2001). A study of stresses in powder compacted components during and after ejection. International Journal of Solids and Structures, 38 (5), 759-775.
Senthilvelan, T., Raghukandan, K., & Venkatraman, A. (2003a). Testing and Quality Standards for Powder Metallurgy Products. Materials and Manufacturing Processes, 18 (1), 105-112.
Senthilvelan, T., Raghukandan, K., & Venkatraman, A. (2003b). Tooling Design and Compaction Analysis on P/M Copper Bushes. Materials and Manufacturing Processes, 18 (1), 113-122.
Smith, L.N., Midha, R.P., & Graham, A.D. (1998). Simulation of metal powder compaction, for the development of a knowledge based powder metallurgy process advisor. Journal of Materials Processing Technology, 79 (1-3), 94-100.
Sopchak, N. D. and Misiolek , W. Z. (2000). Density Gradients in Multilayer Compacted Iron Powder Parts. Materials and Manufacturing Processes, 15 (1), 65-79.
Straffelini, G. and Molinari, A. (1996). Microstructure and mechanical reliability of powder metallurgy (P/M) Ferrous Alloys. Journal of Materials Engineering and Performance, 5 (1), 27-33.
Dasgupta, A. and Pecht, M. (1991). Materials Failure Mechanisms and Damage Models. IEEE Transactions on Reliability, 40 (5), 531-536.
DeWolf, I. (2003). MEMS reliability. Microelectronics Reliability, 43 (7), 1047-1048.
ISO7438. (1985). Metallic Materials – Bend Test.
Korachkin, D., Gethin, D.T., Lewis, R.W., Tweed, J.H., & Guyoncourt, D. M.M. (2008). Measurement of Young’s modulus and tensile failure properties of green powder compacts. Powder Metallurgy, 51 (2), 150-159.
Lefebvre, L.P. and Mongeon, P.E. (2003). Effect of tool coatings on ejection characteristics of iron powder compacts. Powder Metallurgy, 46 (1), 43-48.
Lewis, E.E. and Chen, H.C. (1994). Load-Capacity Interference and the Bathtub Curve. IEEE Transactions on Reliability, 43 (3), 470-475.
Poquillon, D., Baco-Carles, V., Tailhades, Ph., & Andrieu, E. (2002). Cold compaction of iron powders-relations between powder morphology and mechanical properties Part II: Bending tests, results and analysis. Powder Technology, 126 (1), 75-84.
Redanz, P. (1998). Numerical modeling of cold compaction of metal powder. International Journal of Mechanical Science, 40 (11), 1175-1189.
Redanz, P. (2001). A study of stresses in powder compacted components during and after ejection. International Journal of Solids and Structures, 38 (5), 759-775.
Senthilvelan, T., Raghukandan, K., & Venkatraman, A. (2003a). Testing and Quality Standards for Powder Metallurgy Products. Materials and Manufacturing Processes, 18 (1), 105-112.
Senthilvelan, T., Raghukandan, K., & Venkatraman, A. (2003b). Tooling Design and Compaction Analysis on P/M Copper Bushes. Materials and Manufacturing Processes, 18 (1), 113-122.
Smith, L.N., Midha, R.P., & Graham, A.D. (1998). Simulation of metal powder compaction, for the development of a knowledge based powder metallurgy process advisor. Journal of Materials Processing Technology, 79 (1-3), 94-100.
Sopchak, N. D. and Misiolek , W. Z. (2000). Density Gradients in Multilayer Compacted Iron Powder Parts. Materials and Manufacturing Processes, 15 (1), 65-79.
Straffelini, G. and Molinari, A. (1996). Microstructure and mechanical reliability of powder metallurgy (P/M) Ferrous Alloys. Journal of Materials Engineering and Performance, 5 (1), 27-33.