Pushing the Boundaries of Starch Foams: Novel Laminar Composites with Paper Reinforcement  

作　　者：Manisara Phiriyawirut Pukrapee Rodprasert Peerapat Kulvorakulpitak Ratiwan Cothsila Nattarat Kengkla 

机构地区：[1]Department of Tool and Materials Engineering,Faculty of Engineering,King Mongkut’s University of Technology Thonburi,Bangkok,10140,Thailand

出　　处：《Journal of Renewable Materials》2025年第1期101-114,共14页可再生材料杂志(英文)

基　　金：funded by the Thailand Science Research and Innovation(TSRI)under Fundamental Fund 2023(Project:Advanced Materials and Manufacturing for Applications in New S-Curve Industries).

摘　　要：This work explores the development of biodegradable laminar composite foams for cushioning applications.The focus lies on overcoming the inherent brittleness of starch foams by incorporating various paper types as rein-forcement.Tapioca starch and glutinous starch were blended in varying ratios(100:0–0:100)to optimize the base material’s properties.The morphology,density,flexural strength,and impact strength of these starch blends were evaluated.The results revealed a trade-off between impact strength and density,with increasing glutinous starch content favoring impact resistance but also leading to higher density.The optimal ratio of tapioca to glutinous starch for achieving maximumflexural strength and modulus was determined to be 60:40.Theflexural strength of the composite material at this ratio reached a peak value of 5.3±0.6 MPa,significantly surpassing theflexural strength of pure tapioca foam,which was measured to be 3.5±0.4 MPa.Building on this foundation,novel lami-nar composite foams were fabricated using the 60:40 starch blend reinforced with mulberry paper,kraft paper,and newsprint paper.To enhance the interfacial adhesion between the starch matrix and paper reinforcement,a silane coupling agent was employed at a 10 wt%loading on the paper.The incorporation of paper reinforcement into starch foams was found to enhance their mechanical properties.Specifically,flexural strength values increased from 5.3±0.6 MPa for the unreinforced starch foam to 6.8±0.6 MPa,8.1±0.9 MPa,and 7.4±0.1 MPa when reinforced with mulberry paper,kraft paper,and newsprint paper,respectively.Notably,kraft paper reinforcement led to the most enhancements inflexural strength,flexural modulus,and impact strength.This research paves the way for developing sustainable cushioning materials with competitive mechanical properties using bio-based resources like starch and paper.

关 键 词：Laminar composite starch foam tapioca starch glutinous starch kraft paper 

分 类 号：TB33[一般工业技术—材料科学与工程]