September 16, 2021 - Japan
September 16, 2021 - Japan
The project has resulted in the development of automated, cost-effective processing technologies that can manufacture large-scale thermoplastic parts at high-speed deposition rates of up to 4000 inches (100 meters) per minute. High-speed Automated Fibre Placement (AFP) equipment from Electroimpact has been enhanced for processing thermoplastic materials with a variable-spot-size laser heating system. This system uses a large range of processing temperatures for robust process control across individual tows to accommodate severe contours while enabling thermoplastic composite parts to be repairable during AFP lay-up, thereby reducing risk of wastage during part manufacture, Toray said in a press release.
To maximise production efficiencies, the AFP layup is formed directly on to an out of autoclave heated lay-up tooling system, engineered by Janicki Industries, which is then fully consolidated in-situ, achieving a complete thermal process cycle in less than one hour. The tooling system is designed for scalability to accommodate parts that are too large for traditional heated press applications and achieves significantly faster cycle times than high temperature autoclaves.
Toray Cetex TC1225 low melt PAEK (LMPAEK) uni-directional tape from Toray Advanced Composites was selected to further optimise processing. Proven to show best-in-class levels of impregnation, TC1225 LMPAEK enables the production of highly consistent, quality parts while also eliminating the need to wet-out fibre bundles during the consolidation cycle, allowing out of autoclave processing with near zero porosity. Combined with a relatively low processing temperature when compared to other PAEK-based systems, Toray Cetex TC1225 LMPAEK enables a faster layup speed while achieving comparable mechanical properties, according to Toray.
“The key to this technology is rapid heating and cooling rates with edge-to-edge uniformity throughout the process. Complete consolidation under vacuum bag only pressure is achieved by controlling the key stages of melt, flow, and crystallisation with precise temperature control,” Todd Chace, director of research and development at Janicki said in a statement.
“Individually, each of these technologies represents a step forward in thermoplastic composite processing. When combined, a major leap in large-scale, rapid part fabrication is achieved, underlining the importance of partnership across the value chain to advance the adoption of thermoplastic composites into industry," Steve Cease, VP technology & strategic marketing at Toray Advanced Composites said.