Vladislav Urman
About Vladislav Urman
Vladislav Urman is a Senior CAE/FEA Analyst at ABC Technologies in Toronto, Ontario, with over 14 years of experience in the field. He specializes in FEA validation, automation using Ansys ACT, and the integration of advanced simulation techniques.
Work at ABC Technologies
Vladislav Urman has been employed at ABC Technologies as a Senior CAE / FEA Analyst since 2010. In this role, he focuses on validating Finite Element Analysis (FEA) results through laboratory testing, which includes developing approaches and designing fixtures for fabrication. He has contributed to the continuous improvement of FEA modeling techniques and the integration of new analysis types. His work also involves customizing High Performance Computing (HPC) clusters to enhance the speed of FEA solutions.
Previous Experience in Engineering
Prior to his current position, Vladislav Urman held various engineering roles. He worked as a SolidWorks Application Engineer at CAD MicroSolutions Inc. from 2008 to 2009, providing customer support and troubleshooting. He briefly served as a Computer Aided Design Technician at Macro Engineering & Technology Inc. in 2010. His earlier experience includes roles as an Engineering Systems and Standardization Specialist at StackTeck Systems Ltd. and as a CAE Analyst at Blades Technology Intl, where he focused on forging process simulations for aircraft blades.
Education and Expertise
Vladislav Urman earned a Bachelor of Science in Mechanical Engineering from the Technion - Israel Institute of Technology, where he studied from 1993 to 1997. His educational background provides a strong foundation for his expertise in CAE and FEA analysis. He specializes in the integration and implementation of Extrusion Blow Moulding Simulations and has developed scripts to optimize data storage for solution files generated by the Ansys solver.
Technical Contributions and Innovations
Vladislav Urman has made significant contributions to the field of engineering through the development of Ansys ACT, which automates routine operations in the Ansys Workbench environment using Iron Python and scripting. He leads initiatives to couple Ansys with MSC.Digimat to simulate material anisotropy. His work also includes developing scripts for optimizing data storage and enhancing the performance of FEA solutions through customized HPC clusters.