Lorenzo M. Smith
Affiliations: | Oakland University, Rochester Hills, MI, United States |
Area:
Mechanical Engineering, Metallurgy EngineeringGoogle:
"Lorenzo Smith"Parents
Sign in to add mentor| Ronald Averill | grad student | 1999 | Michigan State | |
| (Solid finite elements for sheet metal forming simulation) | ||||
Children
Sign in to add trainee| Sen Jiang | grad student | 2006 | Oakland University |
| Wooho Yang | grad student | 2007 | Oakland University |
| Macarthur L. Stewart | grad student | 2011 | Oakland University |
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Publications
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| Wanintradul C, Golovashchenko SF, Gillard AJ, et al. (2014) Hemming process with counteraction force to prevent creepage Journal of Manufacturing Processes. 16: 379-390 |
| Ibrahim R, Golovashchenko S, Smith LM, et al. (2014) Analysis of dynamic loads on the dies in high speed sheet metal forming processes Journal of Materials Engineering and Performance. 23: 1759-1769 |
| Stewart ML, Smith LM, Hall N. (2011) A numerical investigation of breast compression: A computer-aided design approach for prescribing boundary conditions Ieee Transactions On Biomedical Engineering. 58: 2876-2884 |
| Brown LW, Smith LM. (2011) A Simple Transversely Isotropic Hyperelastic Constitutive Model Suitable for Finite Element Analysis of Fiber Reinforced Elastomers Journal of Engineering Materials and Technology-Transactions of the Asme. 133: 21021 |
| Smith LM, Zhou YJ, Zhou DJ, et al. (2009) A new experimental test apparatus for angle binder draw bead simulations Journal of Materials Processing Technology. 209: 4942-4948 |
| Matin PH, Smith LM, Petrusevski S. (2006) A method for stress space forming limit diagram construction for aluminum alloys Journal of Materials Processing Technology. 174: 258-265 |
| Smith LM, Sun T. (2006) A non-finite element approach for tubular hydroforming simulation featuring a new sticking friction model Journal of Materials Processing Technology. 171: 214-222 |
| Smith LM, Ganeshmurthy N, Murty P, et al. (2004) Finite element modeling of the tubular hydroforming process. Part 1. Strain rate-independent material model assumption Journal of Materials Processing Technology. 147: 121-130 |
| Rama SC, Ma K, Smith LM, et al. (2003) A two-dimensional approach for simulation of hydroforming expansion of tubular cross-sections without axial feed Journal of Materials Processing Technology. 141: 420-430 |
| Smith LM, Ganeshmurthy S, Alladi K. (2003) Double-sided high-pressure tubular hydroforming Journal of Materials Processing Technology. 142: 599-608 |