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生物材料前景:用可生物降解、可再生生物材料替代一次性塑料的机遇.pdf

上传人: sec****ies 编号:734704 2025-07-26 24页 3.53MB

1、F o r e s t P r o d u c ts L a b o r a to r yThe Biomaterial LandscapeFebruary 28,2025Kenneth ZwickUSDA Forest Service,Forest Products LaboratoryOpportunities for Forest-Based,Biodegradable,Renewable BiomaterialsF o r e s t P r o d u c ts L a b o r a to r yPackaging History at Forest Products LabMat

2、erials Container Group(1942-1955)Packaging Research Group(1955-1962)Packaging Group under Wood Engineering Research(1963-1972)Corrugated Package Engineering under Wood Engineering Research(1977-1982)Forest Products Laboratory:1910-2010,USDA Forest Service,John W.Koning,JR.F o r e s t P r o d u c ts

3、L a b o r a to r yMotivation1.Forest Management Fires are increasingly expensive and impactful High treatment costs2.New uses for logging and sawmill residues 3 tons residue for every ton of lumber Improve rural economies3.Increase food shelf life Decreased food spoilage and costF o r e s t P r o d

4、u c ts L a b o r a to r yForest-based packaging solutionsCourtesy:Robert MoonF o r e s t P r o d u c ts L a b o r a to r yPackaging Industry NeedsRecyclingInnovative MaterialsDesignOtherMaterial recoveryDe-inkingPaperboard cupsDesign for recyclingPlastic cleaning for re-usePolymer separationPlastic-

5、digesting bacteriaNew biopolymersNatural barrier coatingsHigh-performance bioplasticsCompostable packagingMono material barrier filmsIntelligent labelingLight weightingAntimicrobial nanotechnologyData analyticsInnovation in fixtures/closuresSustainable shipping packagesMarket for packaging wasteWast

6、e to energyG.Robinson,M.Larner,Ten-Year Forecast of Disruptive Technologies in Sustainable Packaging to 2028,Smithers Pira,2018.F o r e s t P r o d u c ts L a b o r a to r y6Wood-Based Biorefinery Products for Sustainable PackagingValue-Added LigninBiorefineryLigninPulpSugarsHemisPrebiotic/Nutraceut

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本文主要介绍了美国农业部森林服务局森林产品实验室在开发基于森林的、可生物降解的可再生生物材料方面的研究进展。关键点如下: 1. 研究背景:森林管理成本上升,需开发新的利用林业残留物的方式,提高食品保质期。 - 核心数据:每吨木材产生3吨残留物。 2. 包装行业需求:创新材料设计,如单一材料屏障膜、智能标签等。 - 核心技术:纳米纤维素增强包装,CNF涂层可显著提高聚合物和纸张的屏障性能。 3. 木质生物精炼产品:开发高值化产品如生物炼制木质素,用于可持续包装。 - 核心数据:1.5mm CNF涂层能在低湿度下将PET和PLA的氧气透过率降低100到10,000倍。 4. 挑战与前景:需提高材料性能,优化加工工艺,实现规模化生产。 - 未来方向:生命周期分析、可生物降解性、活性包装、智能包装等。 文章强调了森林基材在可持续包装领域的广泛应用前景,旨在实现森林资源的高效利用和可持续发展。
"纳米纤维素如何改变包装?" "森林制品实验室的未来愿景是什么?" "如何提升食品货架期的环保方案?"
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