Thesis Work – Simulating collisions between cast iron components
ABB A/S
Placering
Västerås
Thesis Work – Simulating collisions between cast iron components
At ABB, we are dedicated to addressing global challenges. Our core values: care, courage, curiosity, and collaboration - combined with a focus on diversity, inclusion, and equal opportunities - are key drivers in our aim to empower everyone to create sustainable solutions. That's our story. Make it your story.
This position reports to
R&D Team Lead
Your role and responsibilities
At ABB, you can be sure you are helping to create a better world. Why not take the chance to do this while working in one of the most fascinating technology areas in modern industry – Robotics! ABB Robotics is a leading supplier of industrial robots and robot software, in addition to its equipment and complete application solutions. We’re found in 53 countries and have installed more than 500,000 robots, supported by the broadest service network and offering in the industry. Now we are offering an exciting master thesis within Mechanical Analysis R&D. You can be a part of our team responsible for simulation, optimization and calculations on the robots. To achieve a proper balance between performance, strength, quality, safety and cost, we continuously develop new types of manipulators consisting of motors, gears and arms. When developing structural arms one challenge is to ensure that they can withstand operational loads, including unexpected loads, safely. Many ABB robots can rotate its arms about six rotational axis which enables complex motions. The purpose of this thesis project is to develop a method to analyze the collision event between cast iron components. This requires explicit simulation models with accurate material models. The methodology will then be used to develop new designs for the mechanical stop. Details: • January-June 2025 • 30 ECTS/högskolepoäng(hp) • One student • Most time on site in Västerås Your responsibilities: • Literature study on cast iron collision behavior. • Specify model criteria based on the literature. • Build simulation model/models in SimCenter to investigate the collision. • Perform simulations and evaluate the result accuracy. • Use the result to suggest designs for the impact zones. • Participate in the setup of a physical robot collision test, if needed. • Living ABB’s core values of safety and integrity, which means taking responsibility for your own actions while caring for your colleagues and the business.
Qualifications for the role
- Engineering student in Mechanical engineering, Technical physics, Aeronautical or program with similar profile, with orientation towards Computational mechanics and/or materials.
- Basic knowledge in Solid mechanics and Finite Element Method.
- You are self-driven, structured and analytical
- Fluent English in speaking and writing, English is the corporate language and used for all documentation
More about us
Bring your very own sense of pride and purpose as you help us drive forward the Fourth Industrial Revolution – creating a sustainable future for our planet, and your career. Join ABB and harness the power of our diverse global network, as you collaborate with and learn from our world-class teams. Above all, challenge yourself every day. Let’s write the future, together. More information: Supervisor Mike Demant, +46 107 32 86 88, will answer your questions. Recruiting Manger Viktoria Sakar, +46 730 60 90 55, Union representatives - Sveriges Ingenjörer: Eric Ramsel +46 730 82 20 30. Positions are filled continuously and start date is January. Apply with your CV, academic transcripts and a cover letter in English Welcome to apply! We value people from different backgrounds. Could this be your story? Apply today or visit www.abb.com to read more about us and learn about the impact of our solutions across the globe. #MyABBStory #Li-onsite
Locations
Västerås, Sweden
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