Thermal Engineer in the Motors, Power and Electronic Systems Research Team, within Dyson’s Research, Design and Development (RDD) department; based in Malmesbury, Wiltshire, U.K.
Stretch the boundaries of speed, power/torque density and efficiency in electric motor systems in a number of different applications
Have the ability to understand the overall product concept and contribute significantly to the design of the product through the use of expert knowledge of the latest technologies / methods in the industry. Meet target specifications such as cost, size, weight and efficiency within the planned timeline of each project that would make a great product
Deliver mechanical solutions that are reliable and fit for purpose to satisfy life requirements and to help achieve product guarantee periods and comply with all relevant International Standards
Generate innovative / novel solutions with strong / high value IP for Dyson products
Work closely with the other engineering disciplines to ensure that the product performance, reliability and cost expectations are met, all within the planned timeline of the project
Optimise product performance and solve complex engineering problems
Communicate clearly and effectively the results and project status to a broad spectrum of associated project members
Have the ability to assess and handle supplier relationships with technical and commercial negotiations, maintaining confidence in BOM and assembly costs throughout a project
Contribute to time planning and manage your time in line with project deadlines.
Minimum BEng/MEng degree (2:1 degree or better) in Mechanical Engineering with a demonstrable level of industrial experience in the design and development of mechanical systems
Minimum technical experience and knowledge:
Specification, Analysis & Design:
- Significant experience in analysis of mechanical and thermal techniques, including Finite Element analysis (Ansys APDL) for structural, fatigue, vibration, thermal and acoustics
- Ability to simplify complex thermal problem into mathematical models and perform preliminary performance prediction, analysis and design recommendation
- Experience on thermal analysis of batteries and/or power electronics techniques and tools
- Good understanding of statistics and be able to use statistics as a tool on engineering decision making
- Experience in broad range of cooling technologies
- Ability to use 3D computer aided design (CAD) software packages
- Strong technical expertise with breadth and depth covering materials (including composites), particularly for high stress and fatigue, thermal properties and calculation / simulation methods / tools
- Appreciation of other engineering disciplines such aerodynamics, thermodynamics, CFD analysis and electrical, electronics and electromagnetic systems
- Ability to specify system components to ensure conformance with engineering design and performance specifications.
- Quality processes including DFMEA, DoE, failure analysis/problem solving capability
Test and Validation:
- Ability to devise lab based measurement techniques and have a strong command of analysis software and equipment for component and system level characterisation and validation
- Ability to work across a number of different projects and platforms simultaneously
- Strong “design-for-manufacture” mentality to deliver high performance and reliable mechanical system solutions meeting cost, size and time requirements
- Strong knowledge of manufacturing techniques of parts (moulding / machining) and common issues with these plus experience in manual and automated assembly techniques
- Appreciation of complying with national, European and Worldwide regulations and legislation.
PhD in a relevant field is highly desirable due to the University based PhD research elements
Assembly supplier selection