1994-1995:
1. M.N. Tamin, D. Zheng and H. Ghonem, “Time-Dependent Behavior of Continuous Fiber-Reinforced Metal Matrix Composites: Modeling and Applications,” J.Composites Technology & Research, Vol. 16, No. 4, October 1994, pp. 314-322.
2. M. Tamin, D. Zheng and H. Ghonem, “Evolution of Internal States in Titanium Metal Matrix Composites Subjected to Cyclic and Creep Loading Conditions,” Advances in Fatigue Lifetime Predictive Techniques, ASTM STP, Monteral, Quebec, 1994.
3. M.N. Tamin and H. Ghonem, “Fracture Criterion for Bridging Fibers in Titanium Metal Matrix Composites at Elevated Temperature,” Durability of Composite Materials, R.C. Wetherhold, ed., ASME, NY, MD-Vol. 51, 1995, pp. 51-58.
4. M.N. Tamin, D.J. Osborne and H. Ghonem, “Influence of Interfacial Properties on Fiber Debonding in Titanium Metal Matrix Composites,” Fatigue and Fracture at Elevated Temperature, A. Nagar and S. Mall, eds., ASME, NY, AD-Vol. 50, 1995, pp. 121-134.
1996-2000:
5. M.N. Tamin and H. Ghonem, “Evolution of Bridging Fiber Stress in Titanium Metal Matrix Composites at Elevated Temperature,” Advances in Fatigue Lifetime Predictive Techniques, 3rd Vol. ASTM STP 1292, M.R. Mitchell and R.W. Landgraf, eds., ASTM, Philadelphia, PA, 1996, pp. 24-38.
6. M.N.Tamin and H. Ghonem, “Fatigue Damage Mechanisms of Bridging Fibers in Titanium Metal Matrix Composites,” J. Engineering Materials and Technology, Transactions of the ASME, Vol. 122, Oct. 2000, pp. 370-375.
7. M.N. Tamin, “Finite Element Formulation for Elasto-Viscoplastic Material Behavior,” Jurnal Teknologi, UTM, 15, 1990.
8. M.N. Tamin, “Numerical Investigation of the Stress Distribution in a Semi-Infinite Plate due to a Pin Loading,” Buletin Jentera, Vol. 8, 1989, pp. 72-78.
9. M.N. Tamin, “Elasto-Plastic Finite Element Simulation and Numerical Study of a Compact Tension Fracture Specimen,” Buletin Jentera, Vol. 7, 1988, pp. 53-67.
2001-2005:
10. S. Hamada, H. Hamada, H. Suzuki, M.N. Tamin and A. Nozue, “Microstructure and Environment- Dependent Fatigue Crack Propagation Properties of Ti-48Al Intermetallics,” J. Materials Science and Engineering, vol. 37, 2002, pp. 1107-1113.
2006-2010:
11. M.N. Tamin, Y.B. Liew, A.N.R. Wagiman and L. W. Keat, “Solder Joint Fatigue in a Surface-Mount Assembly Subjected to Mechanical Loading,” IEEE Transaction on Components and Packaging Technologies, Vol. 30, No. 4, Dec 2007, pp. 824-829.
12 I. Sudin. M.N. Tamin, V.C. Venkatesh, T.T. Mon, “Evaluation of a Material Flow Stress Model Adopted in Finite Element Modelling of Metal Cutting,” International Journal for Manufacturing Science & Technology, Vol. 9, 2007, pp. 67-73.
13. M.N. Tamin, I. Sudin and T.T. Mon, “Thermal-Mechanical Responses of Ti-6Al-4V During Orthogonal Cutting Process,” Defect and Diffusion Forum, Vols. 273-276, 2008, pp. 673-678.
14.M.N. Tamin, F.M. Nor and W.K. Loh, “Hybrid Experimental-Computational Approach for Solder/IMC Interface Shear Strength Determination in Solder Joints,” IEEE Transaction on Components and Packaging Technologies, Vol. 33(3), 2010, pp. 614-620.
2011-2015:
15. S.S.R. Koloor, A. Abdul-Latif and M.N. Tamin, “Mechanics of Composite Delamination under Flexural Loading,” Key Engineering Materials, Vols. 462-463, 2011, pp. 726-731.
16. N.M. Shaffiar, Z.B. Lai and M.N. Tamin, “Damage Mechanics Model for Solder/Intermetallics Interface Fracture Process in Solder Joints,” Key Engineering Materials, Vols. 462-463, 2011, pp. 1409-1414.
17. M.A. Khattak, M.A. Khan and M.N. Tamin, “Effects of Thermal Aging on Ductile-to-Brittle Transition Temperature Behavior of Welded A516 Steel,” Key Engineering Materials, Vols. 462-463, 2011, pp.1379-1384.
18. H. Osman and M.N. Tamin, “Creep Deformation Characteristics of Austenitic Stainless Steel Foils,” Key Engineering Materials, Vols. 462-463, 2011, pp.906-911.
19. A.A. Borhana, A.T. Mohamad, A. Abdul-Latif, Z. Ahmad, A. Ayob and M.N. Tamin, “Ductile Failure Prediction of Spot Welded Lap Joint,” Applied Mechanics and Materials, vol. 165, 2012, pp. 285-289.
20. S.S.R. Koloor, H. Hussin and M.N. Tamin, “Mode-I Fracture Characterization of CFRP Laminated Composites,” Key Engineering Materials II, vol. 488-489, 2012, pp. 552-556.
21. S.S.R. Koloor and M.N. Tamin, “Effects Of Lamina Damages on Flexural Stiffness of CFRP Composites,” Composites: Enabling Tomorrow’s Industry Today, vol. 1, 2012, pp. 237-243.
22. H.O. Ali and M.N. Tamin, “Modified Monkman-Grant Relationship for Austenitic Stainless Steel Foils,” Journal of Nuclear Materials, vol. 433, 2013, pp. 74-79. http://dx.doi.org/10.1016/j.jnucmat.2012.08.048
23. Y. Prawoto and M.N. Tamin, “A New Direction in Computational Fracture Mechanics in Materials Science: Will the Combination of Probablistic and Fractal Fracture Mechanics Become Mainstream?” Computational Materials Science, vol. 69, 2013, pp. 197-203.
24. A.A. Borhana, H.O. Ali and M.N. Tamin, “Large Strain Shear Compression Test of Sheet Metal Specimens,” Experimental Mechanics, vol. 53(8), 2013, pp. 1449-1460. http://dx.doi.org/10.1007/s11340-013-9763-0
25. F.M. Nor, H.Y. Lee, J.Y. Lim, M.N. Tamin and D. Kurniawan, “Effect of Starter Defect to GIIC of Unidirectional CFRP Composite,” Applied Mechanics and Materials, vol. 493, 2014, pp. 773-776.
26. R. Alipour, S. Izman and M.N. Tamin, “Document Estimation of Charge Mass for High Speed Forming of Circular Plates using Energy Method,” Advanced Materials Research, vol. 845, 2014, pp. 803-808.
27. H.O. Ali, A.A. Borhana and M.N. Tamin, “Material Parameters for Creep-Rupture of Austenitic Stainless Steel Foils,” J. Materials Engineering and Peformance, vol. 23(8), 2014, pp. 2858-2863.
28. K.J. Wong, X.J. Gong, S. Aivazzadeh and M.N. Tamin, “R-curve Modelling of Mode I Delamination in Multidirectional Carbon/Epoxy Composite Laminates,” Applied Mechanics and Materials, vol. 606, 2014, pp. 159-163.
29. M. Johar, M.S.E. Kosnan and M.N. Tamin, “Cyclic Cohesive Zone Model for Simulation of Fatigue Failure Process in Adhesive Joints,” Applied Mechanics and Materials, vol. 606, 2014, pp. 217-221.
30. M.M. Noh, F. Mozafari, M.A. Khattak and M.N. Tamin, “Effect of Pitting Corrosion on Strength of AISI 410 Stainless Steel Compressor Blades,” Applied Mechanics and Materials, vol. 606, 2014, pp. 227-231.
