Senior CAE engineer at Dexmate

Santa Clara, California, United States -

Full Time

Start Date

Immediate

Expiry Date

18 Apr, 26

Salary

0.0

Posted On

19 Jan, 26

Experience

5 year(s) or above

Remote Job

Yes

Telecommute

Yes

Sponsor Visa

Skills

Finite Element Analysis, Mechanical Design, Structural Dynamics, Material Science, CAE Software, Static Analysis, Dynamic Analysis, Durability Analysis, Experimental Validation, Problem Solving, Collaboration, Optimization, Robotics, Multi-Body Dynamics, Programming, CAD Software

Industry

Robotics Engineering

Description

What You'll Do As a CAE Engineer on the Dexmate Robotics team, you will be at the forefront of designing and validating mechanical systems for our next-generation manipulation robots. You'll guide design decisions using high-fidelity finite element models grounded in sound engineering principles, working closely with mechanical, electrical, controls, software, and manufacturing teams to bring unprecedented robotic capabilities to life. Core Responsibilities: Develop and analyze comprehensive finite element models for robotic systems, from individual components to full assemblies Conduct static, dynamic, structural, and multi-body dynamics (MBD) simulations to evaluate performance against key requirements for strength, stiffness, durability, and manipulation accuracy Guide mechanical design teams with actionable insights and design direction based on rigorous analysis Optimize structural designs to minimize weight while maximizing stiffness, reliability, and performance under real-world operational loads Define and analyze load cases for manipulation tasks, impacts, handling scenarios, and day-to-day operations Validate FEA models through experimental testing and iterate based on physical performance data Challenge traditional CAE methods and pioneer more efficient, accurate approaches for robotic systems Collaborate with controls engineers to understand dynamic load profiles and system-level performance requirements Support root cause analysis and failure investigation for production issues Develop CAE workflows, best practices, and documentation to scale analysis capabilities across the team What You'll Bring Required Qualifications: Bachelor's degree in Mechanical Engineering, Aerospace Engineering, Applied Mechanics, or related field with 5+ years of experience OR Master's degree with 3+ years of experience OR PhD in designing and analyzing mechanical systems using FEA and CAE tools 3+ years of experience in designing and analyzing mechanical systems using FEA and CAE tools Strong fundamentals in solid mechanics, structural dynamics, and material science Proficiency in CAE software (Abaqus, ANSYS, LS-DYNA, COMSOL, OptiStruct, or equivalent) Experience with both implicit and explicit finite element analysis Demonstrated ability to conduct static, dynamic, and durability analyses Strong understanding of mechanical design principles and ability to translate analysis into actionable design recommendations Experience with experimental validation methods and correlation between simulation and physical testing Excellent communication skills and ability to collaborate effectively across multidisciplinary teams Self-motivated problem solver who can work independently on challenging technical problems Preferred Qualifications: Advanced degree (MS/PhD) in Mechanical Engineering or related field Experience in robotics, automation, or mechatronics industries Proficiency with multi-body dynamics simulation (ADAMS, MuJoCo, PyBullet) Experience analyzing aluminum structures, composites, and advanced materials Knowledge of advanced joining methods (adhesives, welding, mechanical fasteners) Expertise in non-linear analysis, contact mechanics, and material characterization Proficiency in programming/scripting for automation (Python, MATLAB) Experience with CAD software (SolidWorks, OnShape, CATIA, NX, etc.) Familiarity with structural dynamics, vibration analysis, and modal testing Experience with thermal-structural coupling and multi-physics simulations Understanding of manufacturing processes and design for manufacturability Knowledge of fatigue analysis and life prediction methodologies

Responsibilities

Develop and analyze finite element models for robotic systems, conducting various simulations to evaluate performance. Collaborate with design teams to provide insights and optimize structural designs based on rigorous analysis.