Utilize advanced numerical simulation tools for precise electromagnetic field analysis and lead the resolution of Multi-Physics coupling challenges
Job Summary
Utilize advanced numerical simulation tools for precise electromagnetic field analysis and lead the resolution of Multi-Physics coupling challenges.
Develop application schemes for high-performance electromagnetic materials and innovative topological structures to significantly improve motor efficiency, power density, torque density, and reliability.
Explore the application of emerging technologies such as AI and Digital Twin in motor design, optimization, and condition monitoring.
Matching Summary
Utilize advanced numerical simulation tools for precise electromagnetic field analysis and lead the resolution of Multi-Physics coupling challenges.
Skills & Requirements
Must-have
Advanced numerical simulation tools
Electromagnetic field analysis
Multi-Physics coupling challenges
Prototype design and validation
High-performance electromagnetic materials
Motor and generator design modeling
Nice-to-have
AI and Digital Twin integration
Sustainability concepts in design
Academic and industry network building
Competitive intelligence analysis
Key Requirements
Ph.D. degree or Master's with 10+ years R&D experience
5+ years working experience
Fluent in English
Solid foundation in solid mechanics, vibration theory, and fatigue analysis