Lead Scientist - Computational Materials Scientist – High Temperature Metallic Materials
GE AEROSPACE
Bengaluru, India
Physics-based and data-driven models
Microstructural evolution and mechanical behavior
High-temperature metallic materials
The role is responsible for developing, implementing, and validating models that describe alloy chemistry, process, structure, property correlations in high-temperature metallic materials
Job Summary
The role is responsible for developing, implementing, and validating models that describe alloy chemistry, process, structure, property correlations in high-temperature metallic materials.
Combine thermodynamics, physical metallurgy, and mechanics with computational and machine learning approaches to accelerate materials design and qualification.
Contribute to a strong publication and/or patent portfolio, and present work internally and externally to establish technical leadership.
Matching Summary
The role is responsible for developing, implementing, and validating models that describe alloy chemistry, process, structure, property correlations in high-temperature metallic materials.
Skills & Requirements
Must-have
physics-based and data-driven models
microstructural evolution and mechanical behavior
high-temperature metallic materials
computational and machine learning approaches
digital workflows and tools
Nice-to-have
thrive in a fast-paced environment
balancing exploratory research
delivery on business-critical milestones
Key Requirements
Doctorate or Masters degree with 5 years experience
2+ years research experience
Strong knowledge of thermodynamics, physical metallurgy