[What the role is]
The role is with the Additive Manufacturing Innovation Centre (AMIC) which is a Centre of Excellence for Additive Manufacturing Technology & Design Innovations set-up jointly by EDB and NYP and located at Nanyang Polytechnic. The strategic intents of AMIC is to support the national AM initiatives to drive greater industry AM adoption and develop core capabilities in Design for AM optimization & process innovation, besides supporting the needs of NYP’s PET and CET programmes. It also provides co-creation, collaboration and project incubation services for industry and conducts regular sharing sessions, clinics, etc.
[What you will be working on]
·       Contribute to AMIC’s strategic planning towards achieving the KPIs.
. Support AMIC and work towards meeting the key performance indicators & deliverables and project milestones.
·       Implement and follows through new innovation projects engagement with industry.
·       Execute project to ensure timelines, budget and deliverables are adhered to.
·       Contribute actively in professional developmental activities such as industrial engagement and collaboration projects.
·       Support resource planning and schedules to ensure successful initiation, planning, design, execution, monitoring, controlling and timely completion of projects.
·       Support industry AM adoption, capabilities development, growth, technical disclosure, licensing and industry proof of concept projects.
·       Leverage on past industry experience and exposure to provide new industry leads for engagement.
·       Organise and run competitions, workshop and training to meet industry outreach and training deliverables.
[What we are looking for]
• Working experience minimum 2 years in Additive Manufacturing/3D Printing, Design for Additive Manufacturing
• Relevant qualification in Mechanical Engineering, Manufacturing Engineering, or related disciplines
• Highly motivated, result-oriented, independent team player
• Able to learn on the job, work independently, multi-task and perform under pressure