Job Profile: Early Career Manufacturing Support Metallurgist / Materials Engineer
About the Role
Location United Kingdom England Lincoln Company Siemens Energy Limited Organization Gas Services Business Unit Distributed Full / Part time Full-time Experience Level Not defined A Snapshot of Your Day Join our dynamic metallurgical laboratory where you provide accurate materials advice to ensure reliable, cost effective products. You’ll partner with Design, Quality, Manufacturing, and Procurement to support small gas turbine engine components manufactured in Lincoln. You gather and analyse process data, review drawings and special processes, and validate components to uphold quality. You advise on non conforming materials and guide material selection and manufacturing processes with clear, practical recommendations. As you grow, you deepen your expertise in industrial manufacturing, especially in the aerospace sector, and become a trusted voice for materials decisions. How You’ll Make an Impact •Support suppliers, procurement, quality, manufacturing, and engineering with timely metallurgical advice for small gas turbine components. •Gather and analyse process related data to inform decisions and resolve issues. •Review manufacturing special processes, validate components, and review engineering drawings to ensure compliance and quality. •Advise on the disposition of non conforming materials and recommend corrective actions. •Guide engineering on material selection and manufacturing processes to maintain the highest possible quality and cost effectiveness. What You Bring •A Degree or equivalent in a Materials/Metallurgical discipline. •Relevant industrial experience is preferred; recent graduates will be considered. •Practical, hands on experience in metallurgical preparation and evaluation of components related to gas turbine manufacture. •Knowledge of special processes in one or more of: aerospace/high performance metallic and ceramic materials; precision investment castings; additive manufacture and powder techniques; critical rotating forgings; structural engine castings; CNC and conventional machining (grinding, EDM, laser, near surface metallurgy); surface engineering and modification (thermal spray, PVD, CVD coatings, weld cladding); thermal processing (HIP, vacuum, and other heat treatments). •A solid understanding of typical materials used in gas turbine manufacturing and their associated manufacturing techniques.