Develop high-fidelity battery module and pack models for shock and mechanical robustness simulations.
Perform explicit dynamic shock simulations using LS-DYNA for battery-level and subsystem-level load cases.
Execute and debug simulations across varying environmental conditions ensuring accurate material behaviour representation.
Analyse and post-process key performance indicators (KPIs) related to structural integrity and joint performance.
Conduct component-level and subsystem-level simulations for battery modules enclosures and mounting systems.
Define and derive custom shock load cases based on real-world scenarios (transport handling misuse etc) and perform special investigations including root-cause analysis and what-if studies to address design concerns.
Prepare clear structured simulation reports and technical presentations for stakeholders.
Collaborate with design testing and system teams to improve product robustness and reliability.
What should you bring along
Strong experience in explicit dynamics and shock analysis with a solid understanding of transient structural behaviour.
Hands-on experience with LS-DYNA including:
Model setup and solver controls
Contacts material definitions and failure modelling
Debugging and stabilization of explicit simulations
Good understanding of material behaviour under varying operating conditions including metals plastics foams and adhesives.
Experience working on High Voltage (HV) battery systems and their mechanical integration.
Ability to define realistic load cases and boundary conditions for shock events.
Strong analytical and problem-solving skills to identify risks and propose countermeasures.
Experience in simulation result interpretation and stakeholder communication.
Meta Post Primer SPDM tools e.g. CB2 Strong cross-cultural communication skills Understanding of battery safety and validation practices Scripting & automation
Required Experience:
Manager
RoleShock Simulation Engineer Battery ModuleVisit our websiteto know more.Follow us onLinkedInIInstagramIFacebookIXfor the exciting updates.About the UNIT/ Unit OverviewVirtual Validation Unit (CAE)LocationPuneExperience:5 to 10 yearsNumber of openingsTwoWhat awaits you/ Job Profile Develop high-...
Develop high-fidelity battery module and pack models for shock and mechanical robustness simulations.
Perform explicit dynamic shock simulations using LS-DYNA for battery-level and subsystem-level load cases.
Execute and debug simulations across varying environmental conditions ensuring accurate material behaviour representation.
Analyse and post-process key performance indicators (KPIs) related to structural integrity and joint performance.
Conduct component-level and subsystem-level simulations for battery modules enclosures and mounting systems.
Define and derive custom shock load cases based on real-world scenarios (transport handling misuse etc) and perform special investigations including root-cause analysis and what-if studies to address design concerns.
Prepare clear structured simulation reports and technical presentations for stakeholders.
Collaborate with design testing and system teams to improve product robustness and reliability.
What should you bring along
Strong experience in explicit dynamics and shock analysis with a solid understanding of transient structural behaviour.
Hands-on experience with LS-DYNA including:
Model setup and solver controls
Contacts material definitions and failure modelling
Debugging and stabilization of explicit simulations
Good understanding of material behaviour under varying operating conditions including metals plastics foams and adhesives.
Experience working on High Voltage (HV) battery systems and their mechanical integration.
Ability to define realistic load cases and boundary conditions for shock events.
Strong analytical and problem-solving skills to identify risks and propose countermeasures.
Experience in simulation result interpretation and stakeholder communication.
Meta Post Primer SPDM tools e.g. CB2 Strong cross-cultural communication skills Understanding of battery safety and validation practices Scripting & automation
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