... element, computational fluid dynamics methods, etc.) to understand the thermomechanical impact on the material/component. • Experience with physics-based modeling to understand how the ...
New
... element, computational fluid dynamics methods, etc.) to understand the thermomechanical impact on the material/component. • Experience with physics-based modeling to understand how the ...
New
... element, computational fluid dynamics methods, etc.) to understand the thermomechanical impact on the material/component. • Experience with physics-based modeling to understand how the ...
New
Warren, MI · On-site
$97K - $134K/yr
... with simulation-based engineering tools and computational models Strong programming and problem ... multiphysics, or system-level engineering models
Warren, MI · On-site
$97K - $134K/yr
... with simulation-based engineering tools and computational models Strong programming and problem ... multiphysics, or system-level engineering models
Warren, MI · On-site
$97K - $134K/yr
... with simulation-based engineering tools and computational models Strong programming and problem ... multiphysics, or system-level engineering models
Quick apply
Warren, MI · On-site
$97K - $134K/yr
... with simulation-based engineering tools and computational models Strong programming and problem ... multiphysics, or system-level engineering models
Create and manage Computational Design definitions and scripts for digital models, simulations, and visualization to support decision-making throughout the design process. Use and create ...
Create and manage Computational Design definitions and scripts for digital models, simulations, and visualization to support decision-making throughout the design process. Use and create ...
Create and manage Computational Design definitions and scripts for digital models, simulations, and visualization to support decision-making throughout the design process. Use and create ...
Create and manage Computational Design definitions and scripts for digital models, simulations, and visualization to support decision-making throughout the design process. Use and create ...
The BESS Battery Modeling CAE Supervisor will lead Ford Energy's system-level battery modeling and ... Technical Translator capable of converting complex multiphysics simulations into practical ...
The BESS Battery Modeling CAE Supervisor will lead Ford Energy's system-level battery modeling and ... Technical Translator capable of converting complex multiphysics simulations into practical ...
Modeling & Simulation : Influence design decisions through computational modeling, simulation, and analysis that predict system and component performance. * Interface Integration : Ensure seamless ...
Modeling & Simulation : Influence design decisions through computational modeling, simulation, and analysis that predict system and component performance. * Interface Integration : Ensure seamless ...
Modeling & Simulation : Influence design decisions through computational modeling, simulation, and analysis that predict system and component performance. * Interface Integration : Ensure seamless ...
Modeling & Simulation : Influence design decisions through computational modeling, simulation, and analysis that predict system and component performance. * Interface Integration : Ensure seamless ...
Modeling & Simulation : Influence design decisions through computational modeling, simulation, and analysis that predict system and component performance. * Interface Integration : Ensure seamless ...
Modeling & Simulation : Influence design decisions through computational modeling, simulation, and analysis that predict system and component performance. * Interface Integration : Ensure seamless ...
Modeling & Simulation : Influence design decisions through computational modeling, simulation, and analysis that predict system and component performance. * Interface Integration : Ensure seamless ...
Modeling & Simulation : Influence design decisions through computational modeling, simulation, and analysis that predict system and component performance. * Interface Integration : Ensure seamless ...
Modeling & Simulation : Influence design decisions through computational modeling, simulation, and analysis that predict system and component performance. * Interface Integration : Ensure seamless ...
Modeling & Simulation : Influence design decisions through computational modeling, simulation, and analysis that predict system and component performance. * Interface Integration : Ensure seamless ...
The BESS Battery Modeling CAE Supervisor will lead Ford Energy's system-level battery modeling and ... Technical Translator capable of converting complex multiphysics simulations into practical ...
The BESS Battery Modeling CAE Supervisor will lead Ford Energy's system-level battery modeling and ... Technical Translator capable of converting complex multiphysics simulations into practical ...
Modeling & Simulation : Influence design decisions through computational modeling, simulation, and analysis that predict system and component performance. * Interface Integration : Ensure seamless ...
Modeling & Simulation : Influence design decisions through computational modeling, simulation, and analysis that predict system and component performance. * Interface Integration : Ensure seamless ...
Modeling & Simulation : Influence design decisions through computational modeling, simulation, and analysis that predict system and component performance. * Interface Integration : Ensure seamless ...
Modeling & Simulation : Influence design decisions through computational modeling, simulation, and analysis that predict system and component performance. * Interface Integration : Ensure seamless ...
Modeling & Simulation : Influence design decisions through computational modeling, simulation, and analysis that predict system and component performance. * Interface Integration : Ensure seamless ...
Modeling & Simulation : Influence design decisions through computational modeling, simulation, and analysis that predict system and component performance. * Interface Integration : Ensure seamless ...
Modeling & Simulation : Influence design decisions through computational modeling, simulation, and analysis that predict system and component performance. * Interface Integration : Ensure seamless ...
Modeling & Simulation : Influence design decisions through computational modeling, simulation, and analysis that predict system and component performance. * Interface Integration : Ensure seamless ...
Modeling & Simulation : Influence design decisions through computational modeling, simulation, and analysis that predict system and component performance. * Interface Integration : Ensure seamless ...
Modeling & Simulation : Influence design decisions through computational modeling, simulation, and analysis that predict system and component performance. * Interface Integration : Ensure seamless ...
... simulation, and real-world EV systems. Our Research team offers the opportunity to: * Work alongside leading experts in electrochemistry, materials science, and Multiphysics modeling * Solve ...
... simulation, and real-world EV systems. Our Research team offers the opportunity to: * Work alongside leading experts in electrochemistry, materials science, and Multiphysics modeling * Solve ...
... simulation, and real-world EV systems. Our Research team offers the opportunity to: * Work alongside leading experts in electrochemistry, materials science, and Multiphysics modeling * Solve ...
... simulation, and real-world EV systems. Our Research team offers the opportunity to: * Work alongside leading experts in electrochemistry, materials science, and Multiphysics modeling * Solve ...
... thermal models based on test results, and provide technical advice to internal and external ... Conduct battery pack thermal and CFD (computational fluid dynamics) analysis - running simulations ...
... thermal models based on test results, and provide technical advice to internal and external ... Conduct battery pack thermal and CFD (computational fluid dynamics) analysis - running simulations ...
| Aspect | Computational Modeling Simulation Multiphysics | Computational Engineer |
|---|---|---|
| Credentials | Typically requires degrees in engineering, physics, or related fields; certifications in simulation software are common | Similar educational background; often holds engineering degrees and software certifications |
| Work Environment | Primarily in R&D labs, engineering firms, or manufacturing settings focusing on complex simulations | Involved in product development, software development, or systems design in various industries |
| Industry Usage | Used in aerospace, automotive, energy, and manufacturing for advanced simulations | Applied across industries for designing, analyzing, and optimizing systems and products |
While both roles involve computational skills and engineering principles, Computational Modeling Simulation Multiphysics specializes in complex, multi-physics simulations, whereas Computational Engineer focuses on designing and implementing computational solutions across various engineering projects.
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2025 Senior Engineer, Modeling and Simulation
Scope of Work & Purpose:
We are seeking a subject matter expert that will lead state-of-the art materials development and evaluation through modeling and simulation along with software development, delivering innovative materials and manufacturing solutions for our customers and collaboratively within our member industrial base. This individual will drive innovations in material simulation through collaborative software development to automate and accelerate modeling across multiple domains, including material response as a function of the manufacturing processes (e.g., casting, forging, welding, etc.) and its impact on the resultant structure/properties.
RESPONSIBILITIES
• Develop application-focused performance simulations to support programmatic work within time and budget constraints, internal to company and collaboratively with member organizations.
• Conceive, develop ideas, and project plans for new, innovative modeling and simulation development programs.
• Document and communicate development initiatives, including progress and final reports, presentations, conferences, and stakeholder communication.
• Support program development efforts, including preparation of white papers and proposals.
PREFERRED QUALIFICATIONS
• A Ph.D. or Master’s degree in Materials, Chemistry, Physics, Engineering, Computer Science, or related field with 3-5 years’ experience OR a Bachelor’s degree in these fields with 8-10+ years’ experience.
• Experience with physics-based modeling of manufacturing processes (i.e., via finite element, computational fluid dynamics methods, etc.) to understand the thermomechanical impact on the material/component.
• Experience with physics-based modeling to understand how the manufacturing process impacts the structure/properties of a material (e.g., microstructure evolution via CALPHAD, phase field, or cellular automata, etc.).
• Experience with programming, scientific computing, and object-oriented programming (e.g., C++ and/or Python).
• Experience working in collaborative coding environment and using tools for version control, continuous integration, and model/code commits/reviews.
• Experience developing routines around software application programming interfaces (APIs).
• Experience in software chaining, CAE tool interface(s), GUI construction, I/O and hardware control is a plus.
• Experience with development of machine learning/artificial intelligence models to accelerate model development is a plus.
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