首页|期刊导航|生物质资源与工程(英文)|Enhancing compatibility and biodegradability of polylactic acid/biomass composites through torrefaction of forest residue
Enhancing compatibility and biodegradability of polylactic acid/biomass composites through torrefaction of forest residue
June-Ho Choi Younghoon Kim Hyun Gil Cha Jae-Won Lee Hoyong Kim Myeong Rok Ahn Chae-Hwi Yoon Yeon-Su Lim Jong Ryeol Kim Hyolin Seong Chan-Duck Jung Sang-Mook You Jonghwa Kim
生物质资源与工程(英文)2025,Vol.10Issue(1):51-61,11.
生物质资源与工程(英文)2025,Vol.10Issue(1):51-61,11.DOI:10.1016/j.jobab.2024.10.003
Enhancing compatibility and biodegradability of polylactic acid/biomass composites through torrefaction of forest residue
Enhancing compatibility and biodegradability of polylactic acid/biomass composites through torrefaction of forest residue
摘要
关键词
Forest residue/Torrefaction/Bulk-loading filler/Polylactic acid composite/Hydrophobicity/Tensile strength/BiodegradabilityKey words
Forest residue/Torrefaction/Bulk-loading filler/Polylactic acid composite/Hydrophobicity/Tensile strength/Biodegradability引用本文复制引用
June-Ho Choi,Younghoon Kim,Hyun Gil Cha,Jae-Won Lee,Hoyong Kim,Myeong Rok Ahn,Chae-Hwi Yoon,Yeon-Su Lim,Jong Ryeol Kim,Hyolin Seong,Chan-Duck Jung,Sang-Mook You,Jonghwa Kim..Enhancing compatibility and biodegradability of polylactic acid/biomass composites through torrefaction of forest residue[J].生物质资源与工程(英文),2025,10(1):51-61,11.基金项目
This work was supported by the Korea Research Institute of Chemical Technology(KRICT)Project(No.KS2442-10)and the R&D Program(No.20017973)of the Ministry of Trade,Industry,and Energy(MOTIE/KEIT). (KRICT)
