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Mechanical Engineering |
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We have mechanical design offices using up to date CAD software where ideas and concepts are developed into working designs. We use analysis early in the project to check out structural, thermal, vibration or CFD issues with appropriate FEA software. Completing projects requires both our in-house or external manufacturing services followed by assembly and commissioning skills. Our large pool of mechanical engineers across our sites has extensive and varied experience from many years of collaborative project work with international partners, and can deliver solutions to challenging new projects. We have done extensive mechanical work on three of the LHC detectors: ATLAS, CMS and LHCb. The EMMA project uses our considerable experience from Synchrotron Radiation instruments and Beamline components. The MICE project prototypes techniques for a future neutrino factory. Our work on Advanced LIGO could help detect the first gravity waves, while the T2K experiment target uses an excellent STFC mechanical design. The 4K Helical undulator relies on accurate engineering to produce its highly uniform field. Please open the Mechanical Engineering Overview document to learn more about Mechanical Engineering Projects at STFC. Alternatively, browse our website or contact us to find out more about our current projects and expertise. |
The Mechanical Engineering within STFC Technology is project based,
projects varying in time from a few days to many years. The larger projects
are usually collaborations with other research institutes e.g. CERN (the
European Particle Physics Centre), and the hardware may be built anywhere
in the world. Our Mechanical project managers can handle all aspects from
planning and scheduling, through financial management to health and
safety e.g. CDM Regulations in order to deliver a project to specification
within an ISO 9000 QA Framework.