Lactide in in situ polymerisation (ISP) during monomer infusion under flexible tooling (MIFT)

J Summerscales

Lactide in in situ polymerisation (ISP) during monomer infusion under flexible tooling (MIFT)

School of Engineering, Computing and Mathematics

Research output: Contribution to conference › Conference paper (not formally published) › peer-review

Abstract

The ERDF/InterReg 2 Seas Mers Zeeën SeaBioComp project sought to develop durable bio-based composites for use in the marine environment. The long-term ecological impact of plastic litter and microplastics in the marine environment is a growing issue that has gained considerable momentum in public perception and global media. Bio-based polymers, or polymers from renewable resources, could be a viable substitute to conventional oil-based polymers for many applications. The change might significantly reduce greenhouse gas emissions and has potential to ease end-of-life issues if the materials are biodegradable. One of the polymers of interest is poly(lactic acid), or poly(lactide) produced from the dimer. The SeaBio- Comp project primarily used compression moulding or fused filament additive manufacture of the polymer to produce demonstrator components.

Original language	English
Publication status	Published - 20 Jun 2023
Event	6th International Conference on Natural Fibers (ICNF2023) Nature Inspired Sustainable Solutions - 6th International Conference on Natural Fibers (ICNF2023) Nature Inspired Sustainable Solutions Duration: 19 Jun 2023 → 21 Jun 2023

Conference

Conference	6th International Conference on Natural Fibers (ICNF2023) Nature Inspired Sustainable Solutions
Period	19/06/23 → 21/06/23

Keywords

in situ polymerisation
lactide
monomer infusion under flexible tooling

Cite this

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title = "Lactide in in situ polymerisation (ISP) during monomer infusion under flexible tooling (MIFT)",

abstract = "The ERDF/InterReg 2 Seas Mers Zee{\"e}n SeaBioComp project sought to develop durable bio-based composites for use in the marine environment. The long-term ecological impact of plastic litter and microplastics in the marine environment is a growing issue that has gained considerable momentum in public perception and global media. Bio-based polymers, or polymers from renewable resources, could be a viable substitute to conventional oil-based polymers for many applications. The change might significantly reduce greenhouse gas emissions and has potential to ease end-of-life issues if the materials are biodegradable. One of the polymers of interest is poly(lactic acid), or poly(lactide) produced from the dimer. The SeaBio- Comp project primarily used compression moulding or fused filament additive manufacture of the polymer to produce demonstrator components.",

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author = "J Summerscales",

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note = "6th International Conference on Natural Fibers (ICNF2023) Nature Inspired Sustainable Solutions ; Conference date: 19-06-2023 Through 21-06-2023",

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TY - CONF

T1 - Lactide in in situ polymerisation (ISP) during monomer infusion under flexible tooling (MIFT)

AU - Summerscales, J

PY - 2023/6/20

Y1 - 2023/6/20

N2 - The ERDF/InterReg 2 Seas Mers Zeeën SeaBioComp project sought to develop durable bio-based composites for use in the marine environment. The long-term ecological impact of plastic litter and microplastics in the marine environment is a growing issue that has gained considerable momentum in public perception and global media. Bio-based polymers, or polymers from renewable resources, could be a viable substitute to conventional oil-based polymers for many applications. The change might significantly reduce greenhouse gas emissions and has potential to ease end-of-life issues if the materials are biodegradable. One of the polymers of interest is poly(lactic acid), or poly(lactide) produced from the dimer. The SeaBio- Comp project primarily used compression moulding or fused filament additive manufacture of the polymer to produce demonstrator components.

AB - The ERDF/InterReg 2 Seas Mers Zeeën SeaBioComp project sought to develop durable bio-based composites for use in the marine environment. The long-term ecological impact of plastic litter and microplastics in the marine environment is a growing issue that has gained considerable momentum in public perception and global media. Bio-based polymers, or polymers from renewable resources, could be a viable substitute to conventional oil-based polymers for many applications. The change might significantly reduce greenhouse gas emissions and has potential to ease end-of-life issues if the materials are biodegradable. One of the polymers of interest is poly(lactic acid), or poly(lactide) produced from the dimer. The SeaBio- Comp project primarily used compression moulding or fused filament additive manufacture of the polymer to produce demonstrator components.

KW - in situ polymerisation

KW - lactide

KW - monomer infusion under flexible tooling

UR - https://www.plymouth.ac.uk/staff/john-summerscales

M3 - Conference paper (not formally published)

T2 - 6th International Conference on Natural Fibers (ICNF2023) Nature Inspired Sustainable Solutions

Y2 - 19 June 2023 through 21 June 2023

ER -

Lactide in in situ polymerisation (ISP) during monomer infusion under flexible tooling (MIFT)

Abstract

Conference

Keywords

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Embargoed Document

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