Sheffield Forgemasters is poised to expand into nuclear fabrication after passing a highly-testing audit to regain coveted ASME status as a key supplier of heavy forgings and castings to the civil nuclear power market.
The company is on track to receive its nuclear qualification after an audit by the American Society of Mechanical Engineers recommended it for Material Organisation and welding accreditations.
ASME NPT (Nuclear Partials) is an advanced accreditation, enabling the business to become the only UK producer of heavy forgings and castings able to physically weld-fabricate such safety critical components for the heart of a nuclear power plant.
Ian Nicholls, group technical director, said: “The accreditation is a huge development with enhanced requirements and disciplines embracing all our processes, employees and selected sub-suppliers.”
Sheffield Forgemasters will be able to supply castings and forgings for civil nuclear applications, and will be able to carry out weld construction activities on these materials through ASME NPT Certification.
The ASME CNC committee will need to approve the audit’s findings before the certificate is granted.
Ian added: “ASME accreditation opens up significant possibilities for the UK’s nuclear new-build programme and taps into a growing need for nuclear power to solve the world’s energy crisis.”
“The ASME code is the most comprehensive series of guidelines for civil nuclear manufacture in the world with an emphasis on doctrines that resonate with the European Nuclear manufacturing code, RCC-M, and other submarine nuclear standards.
“Code compliance is a significant undertaking for any company wishing to enter the UK civil nuclear supply chain, requiring comprehensive understanding to avoid code violation. Businesses will need to understand how to engage with this process, and currently, very few UK companies do.”
Sheffield Forgemasters first gained ASME accreditation as a Nuclear Materials Organisation in 1992, and will now continue its work to develop manufacturing technologies for the next generation of SMR civil nuclear power plants.
