Heat insulating PLA/HNTs foams with enhanced compression performance fabricated by supercritical carbon dioxide

Heat insulating PLA/HNTs foams with enhanced compression performance fabricated by supercritical carbon dioxide

Biodegradable PLA foams are in great demand in many fields such as packaging and construction. However, foaming ability of PLA is confined by its poor melt viscoelasticity. To address this problem, a naturally formed nanofiller, halloysite nanotubes (HNTs) were added. By adding HNTs, foaming window...

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Bibliographic Details
Published in:The Journal of supercritical fluids Vol. 177; p. 105344
Main Authors: Guo, Fumin, Liao, Xia, Li, Shaojie, Yan, Zhihui, Tang, Wanyu, Li, Guangxian
Format: Journal Article
Language:English
Published: Elsevier B.V 01-11-2021
Subjects:
Compression resistance
Heat insulation
PLA/HNTs foams
Supercritical carbon dioxide foaming
Heat insulation
Compression resistance
Supercritical carbon dioxide foaming
PLA/HNTs foams
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Summary:Biodegradable PLA foams are in great demand in many fields such as packaging and construction. However, foaming ability of PLA is confined by its poor melt viscoelasticity. To address this problem, a naturally formed nanofiller, halloysite nanotubes (HNTs) were added. By adding HNTs, foaming window of PLA was successfully extended. The compressive performance and thermal conductivities of the obtained foams were investigated. It could be seen that the PLA/HNTs composite foam with an expansion ratio of 19.2 folds exhibited the lowest thermal conductivity 34.29 mW/(m·K). The compressive modulus increased from 3.6 to 11.8 MPa with the increase of mass fraction of HNTs from 0 to 5 wt%. To further improve the compressive performance of foams, an annealing process was conducted. After annealing, compressive modulus of pure PLA foam almost doubled because of the increased crystallinity. Vicat softening temperature of annealed foams also increased by about 5 °C. [Display omitted] •PLA/halloysite nanotubes foams with high compressive moduli were prepared by scCO2.•The composite foams exhibited thermal conductivities as low as 34.29 mW/(m·K).•Annealing process improved the compressive modulus and heat resistance of foams.
ISSN:0896-8446
1872-8162
DOI:10.1016/j.supflu.2021.105344