In situ polymerisation during monomer infusion under flexible tooling (MIFT)
ORCID
- John Summerscales: 0000-0002-3557-0404
- Jasper Graham-Jones: 0000-0003-3081-7049
- Maozhou Meng: 0000-0001-6138-9433
Abstract
A significant majority of large fibre composite structures in the marine environment currently use a thermoset resin matrix. These materials have excellent durability in the sea, but are difficult to dispose of at end-of-life. After a rigorous selection process [1], methyl methacrylate and lactide monomers have been identified as potential thermoplastic matrix systems which can be manufactured using in situ polymerisation (ISP) during composite manufacture by liquid composite moulding (LCM) processes. LCM includes resin transfer moulding (RTM) for components up to about 3 m square, then Infusion under Flexible Tooling (RIFT for resins, or MIFT for monomers). The acrylic is a “drop in” for polyester resin, but lactide requires elevated temperature processes. At end of life, acrylic is lower in the recycling hierarchy.
Publication Date
2022-04-06
Embargo Period
9999-09-09
Keywords
in situ polymerisation (ISP), Large structures, Marine environment, Monomer Infusion under Flexible Tooling (MIFT), Thermoplastic matrix
Recommended Citation
Summerscales, J., Qin, Y., Graham-Jones, J., Meng, M., & Pemberton, R. (2022) 'In situ polymerisation during monomer infusion under flexible tooling (MIFT)', Retrieved from https://pearl.plymouth.ac.uk/secam-research/1488
