Mechanical Design Engineer

Worcester
1 week ago
Create job alert

If you're a Mechanical Design Engineer who thrives on precision, performance and real-world application, this is an opportunity to join a highly specialised engineering business in Worcester. Your designs directly power advanced systems used in demanding environments worldwide. This isn't a desk-only design role, you'll see your concepts move from initial idea through detailed modelling, build, test and commissioning. You'll be working on-site five days a week at the Worcester facility, collaborating closely with production and commissioning teams, working 37 hours per week with an early finish on Friday's. The salary is around £40,000, with flexibility for someone who brings the right depth of rotating machinery expertise.

Responsibilities of the Mechanical Design Engineer:

Designing and developing mechanical components and assemblies for dynamometers, systems and associated products
Translating customer requirements into practical, cost-effective and manufacturable design solutions
Contributing to product testing and validation to ensure performance, safety and regulatory compliance
Producing and maintaining technical documentation including drawings, specifications, manuals and test procedures
Creating and managing components and BOM's within Visibility
Refining existing product designs to improve performance, durability and manufacturability
Troubleshooting and solving component and system faults across the product life-cycle
Designing tailored mechanical solutions to meet specific customer applications
Provide technical input to customer proposals and product capabilities.
Collaborating cross-functionally with engineering, production and field service teams
Keeping up to date with new technologies, materials and engineering best practice

Qualifications and Experience needed for this Mechanical Design Engineer role:

HNC/HND or Degree qualified in Mechanical Engineering.
Experience designing water brake dynamometers or rotating components.
Strong, current proficiency in SolidWorks.
Experience with PLM systems, FEA and CFD
Knowledge of analysis tools such as ANSYS or similar
Experience with MATLAB, Excel, LabVIEW or equivalent tools
Strong grounding in mechanics, thermodynamics, kinematics and materials science
Clear technical communication and strong documentation skills
A thorough, organised, inquisitive and self-driven approach to engineering

The benefits to you as a Mechanical Design Engineer:

Annual salary of £40,000
Working Hours: Monday - Thursday 8am - 4.30pm and Fridays 8am - 12.45pm.
The chance to work on specialist, high-performance engineering products
Project Ownership- from design through to build, installation and commissioning
Work within an engineering team where your ideas are valued
25 day's holiday plus bank holidays
A stable, established engineering environment where quality and integrity matter

If you're someone who takes pride in precise engineering, enjoys solving complex mechanical challenges, and wants to see your work operating in the real world - click apply

Related Jobs

View all jobs

Mechanical Design Engineer

Mechanical Design Engineer

Mechanical Design Engineer

Mechanical Design Engineer

Mechanical Design Engineer

Mechanical Design Engineer

Subscribe to Future Tech Insights for the latest jobs & insights, direct to your inbox.

By subscribing, you agree to our privacy policy and terms of service.

Industry Insights

Discover insightful articles, industry insights, expert tips, and curated resources.

Careers

How Many Materials Science Tools Do You Need to Know to Get a Materials Science Job?

If you’re navigating the materials science job market, it can feel like the list of tools, techniques and platforms you should learn grows every week. One job advert mentions electron microscopy, another mentions X-ray diffraction, yet another wants experience with thermal analysis, spectroscopy, simulation software, statistical packages, manufacturing QA systems and more. With so many specialised methods and instruments, it’s easy to feel overwhelmed — and to start thinking you need to know everything just to be considered. Here’s the honest truth most materials science hiring managers won’t tell you directly: 👉 They don’t hire you because you know every piece of equipment or software. They hire you because you can use the tools you do know to answer real questions, make reliable measurements and communicate results clearly. Tools are essential — no question — but they are secondary to problem-solving ability, scientific reasoning and experimental rigour. So the real question is: how many materials science tools do you actually need to know to get a job? The precise number depends on the role you want, but for most job seekers the answer is far fewer than you think. This article breaks down what employers really value, which tools are core, which are role-specific, and how to focus your learning so your CV and interviews stand out for the right reasons.

Jobs

What Hiring Managers Look for First in Materials Science Job Applications (UK Guide)

Materials science is a broad, interdisciplinary field that spans academia, industry, research, engineering and manufacturing. Whether you’re applying for roles in R&D, process development, quality assurance, failure analysis, nanomaterials or product scale-up, hiring managers make key decisions within the first few seconds of scanning your application. In competitive job markets, simply listing skills or qualifications isn’t enough. Hiring managers are looking for signals of relevance, technical depth, problem-solving capability and real-world impact — and they expect those signals to be clear right from the top of your CV or portfolio. This guide breaks down exactly what hiring managers typically look for first in materials science applications, why they look for it, and how you can optimise your CV, cover letter and portfolio so your application stands out and gets past the first filter.

Education

The Skills Gap in Materials Science Jobs: What Universities Aren’t Teaching

Materials science sits at the heart of innovation — from sustainable energy and advanced manufacturing to aerospace, electronics, healthcare and beyond. It is an interdisciplinary field combining physics, chemistry, engineering and applied science to design and improve materials that power modern technology. Despite the clear strategic importance of materials science, employers across the UK report persistent challenges hiring graduates who are truly job-ready. Organisations need professionals who can contribute immediately to research, development, manufacturing, quality control and product scale-up — yet many recent graduates struggle to bridge the gap between academic preparation and workplace demands. This gap is not caused by a lack of intelligence or enthusiasm. It is a growing skills gap between what universities teach and what real materials science jobs require. This article explores the materials science skills gap in depth: what universities teach well, what they often miss, why the gap exists, what employers want, and how aspiring professionals can bridge the divide to build successful careers in this vital UK industry.

🍪 We use cookies to enhance your browsing experience on our website. By continuing to use this site, you consent to the use of cookies as described in our Cookie Policy. You can review our Cookie Policy for more information.