R&D Mechanical Engineering at Magnus Metal

Revadim, South District, Israel -

Full Time

Start Date

Immediate

Expiry Date

13 Jun, 26

Salary

0.0

Posted On

15 Mar, 26

Experience

5 year(s) or above

Remote Job

Yes

Telecommute

Yes

Sponsor Visa

Skills

Mechanical Design, Structural Design, Component Selection, Assembly, Integration, FEA Analysis, Prototyping, Proof-of-Concept Development, Production Documentation, BOMs, CAD, SolidWorks, Transfer to Production, Fluid Flow Design, Sheet Metal Design, Thermal Management

Industry

Machinery Manufacturing

Description

Technical responsibility for all mechanical and mechanics challenges, including structural design, component selection, assembly, and integration into working setups and prototypes. Full ownership of the design process from conceptual design through detailed engineering and production documentation. Collaboration in a multidisciplinary environment with metallurgists, chemists, process engineers, and electrical engineers. Ability to perform FEA analysis and validate results. Hands-on mechanical work for prototyping and proof-of-concept development. Responsible for transfer to production while ensuring compliance with safety and regulatory standards. Duties and Responsibilities Core Responsibilities 1. Mechanical Design & Engineering Ownership · End-to-End Design: Full ownership of the mechanical design lifecycle, from initial conceptualization to detailed 3D modeling and engineering. · Structural Integrity: Leading structural design and material considerations to ensure robust mechanical solutions. · Documentation: Generating and managing comprehensive production documentation, including BOMs, assembly instructions, and technical drawings. · Component Selection: Identifying and sourcing optimal mechanical components and hardware. 2. Prototyping & Hands-on Development · POC Development: Building and testing Proof-of-Concept (POC) models to evaluate feasibility. · Assembly & Integration: Executing hands-on mechanical assembly and integrating mechanical systems into complex working setups. · Troubleshooting: Diagnosing and resolving mechanical challenges during the prototyping phase. 3. Multidisciplinary Collaboration · Cross-Functional Synergy: Partnering with metallurgists, chemists, and process engineers to align mechanical designs with chemical/material requirements. · Systems Integration: Collaborating with electrical engineers to ensure seamless electro-mechanical interfaces. 4. Production & Lifecycle Management · Transfer to Production (NPI): Managing the transition of prototypes into scalable production-ready products. · Continuous Improvement: Addressing mechanical challenges identified during the manufacturing or deployment stages. Requirements BSc. in Mechanical Engineering - 5+ years of industry experience (preferably in machine design or related field) in technical position of mechanical engineering. - Ability to develop and distill work plans & action items based on meetings & management input - Highly independent, highly self-motivated, with self-learning and problem-solving skills - Experience in design of fluid flow, Chassis and sheet metal design, motion systems, and thermal management systems - Knowledge of CAD systems (SolidWorks, etc.) - Ability to develop, document, and execute prototypes under tight schedules - Experience with transfer to production & production support of prototypes & medium volume production machines - Possessing technical skills, able to multi-task well and having an analytical approach to problem solving Highly Beneficial: - Experience in foundry systems and operation - Basic knowledge of 3D printing processes - Interest in metallurgy and its related technologies Other expectations: - Able to adapt to working in an interdisciplinary team - Able to present and document work in an organized manner - Enjoy doing ‘hands-on’ work Good command of English

Responsibilities

The role involves full ownership of the mechanical design lifecycle, from concept through detailed engineering and documentation, focusing on structural design, component selection, and integration into working prototypes. Key duties include hands-on prototyping, troubleshooting mechanical challenges, and collaborating across multidisciplinary teams including metallurgists and electrical engineers.