2012-11-23 10:37:38 - Trials conducted by Cytec’s industrial materials business (formed by the legacy Cytec HPIM and the legacy Umeco), an international leader in advanced composite materials and composite tooling technology, and Surface Generation Ltd, a provider of advanced processing technologies, have demonstrated a significant advance in the production of carbon fibre-reinforced composite parts.
Testing using Cytec (previously known as Umeco)’s market leading LTM carbon fibre tooling and MTM44-1 structural prepreg material revealed that Surface Generation’s unique ‘Production to Functional Specifications’ (PtFS) process provided significantly greater regional control than traditional autoclave and oven curing and out-performed the other methods across a range of temperature, cycle time and energy consumption metrics:
• Surface Generation’s process, in conjunction with the LTM tooling, used a quarter of the energy required by an autoclave to cure parts and half of the energy required for a traditional oven cure.
• The LTM tool-face temperature measurements were consistently within 0.5 °C to 2 °C of specified levels, using localised control of energy input to suit varying component thickness which is not possible
with autoclave and oven cure processes.
PtFS encompasses a range of active thermal management technologies, allowing temperatures to be precisely controlled and varied to the exact requirements of each mould area and process stage. The unique process removes the need for large capital equipment, improves work flow and enables production of larger and more complex designs.
Cytec’s unparalleled expertise in leading edge composite tooling materials and technology, and out of autoclave processing for structural components, mean they intend to collaborate further with Surface Generation to further characterise and exploit both companies’ complimentary technologies.
Ben Halford, Chief Executive at Surface Generation, comments: “PtFS represents the most significant step forward the industry has seen in years. Our unique process allows energy to be varied intelligently across the mould, delivering a precise and efficient means of curing carbon composite structures. These trials with Cytec, who are market leaders and pioneers in composite tooling technology, provide more evidence that the future of carbon composite processing lies outside of the oven and auto-clave.”
Alasdair Ryder, High Volume Manufacturing Manager at Cytec, comments: “The combination of out-of-autoclave technologies from Cytec and Surface Generation has significant potential to drive cost, quality and efficiency improvements in carbon fibre composite manufacturing processes. We look forward to working with Surface Generation to explore opportunities with aerospace, automotive, motorsport and renewable businesses around the world.”
For more information please contact:
James Taylor, Roaring Mouse PR
+44 (0)114 3600716 / +44 (0)7796 138291
About Surface Generation
Surface Generation is a carbon composite processing company based in Rutland, United Kingdom. Its patented ‘Production to Functional Specifications’ (PtFS) process is used to combine, compact, process and meld composite materials far more efficiently and with much greater precision than is possible using traditional autoclave or oven processes. Its technologies are used by component providers and manufacturers across a range of industries, including aerospace, automotive, defence and leisure.
Business Unit Manager - High Volume Manufacturing
+44 (0) 1773 766134 / +44 (0) 7786 932400
Cytec’s vision is to deliver specialty material and chemical technologies beyond our customers’ imagination. Our focus on innovation, advanced technology and application expertise enables us to develop, manufacture and sell products that change the way our customers do business. Our pioneering products perform specific and important functions for our customers, enabling them to offer innovative solutions to the industries that they serve. Our products serve a diverse range of end markets including aerospace and industrial materials, mining and plastics.