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基于对生物降解性和数字工具的基本理解的可生物降解材料设计 – Andreas Kuenkel.pdf

上传人: 卢*** 编号:908424 2025-09-07 14页 1.63MB

1、Design of biodegradable materials based on fundamental understanding of biodegradability and digital toolsAndreas KnkelVice President,BASF SEEUIndTechKrakw,Poland,May 20252Introduction 1Structural biodegradable polymers soil23Digital toolsEUIndTechAgenda:“Design of biodegradable materials based on f

2、undamental understanding of biodegradability and digital tools”4Conclusion3Biodegradability 2.0Holistic approach for biodegradability with different technologies and partnershipsmaterial development and formulationstandard development and stakeholder dialogueBiodegradation pathways/fateof materialAn

3、alytical tools forcompletebiodegradationassessmentCorrelation&reliabilityLab test systemsMesocosm&fieldconditionsMicrobiology&enzymesData infrastructure and consistency,automation&predictive modellingFundamental understanding of specific material biodegradationin target end of life environmentCooper

4、ations academia&industry4Introduction1Structural biodegradable polymers soil23Digital toolsEUIndTechAgenda:“Design of biodegradable materials based on fundamental understanding of biodegradability and digital tools”4ConclusionCertified soil-biodegradable ecoviomulch film as contributor to sustainabl

5、e agriculture5ecoviois the trade name for BASFs compounds based on ecoflexand polylactic acid(PLA)Dialogue,biodegradation standards and development of certified biodegradable productsSoilEN 17033Certified soil-biodegradable mulch film6ecovioM2351 mulch biodegradation in soil according to EN 17033At

6、181 days,89.1%biodegradation,relative to cellulose was measured absolute biodegradation of 94.4%(1.7%).Where is the rest?020406080100050100150200250Time/daysBiodegradation of ecovioM2351 mulch film relative to cellulose control%89.11817Decisive methods for understanding ecoviomulch films biodegradat

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根据标记内容,全文主要探讨了基于对生物降解性的根本理解和数字工具设计生物降解材料的方法。以下是关键点: 1. **生物降解性2.0**:采用全面的方法,结合不同技术和合作伙伴,进行材料开发和配方、标准制定和利益相关者对话。 2. **分析工具**:用于全面生物降解评估,包括降解途径、材料命运、微生物学和酶、数据基础设施和一致性、自动化和预测建模。 3. **案例研究**:以ecovio® M2351覆盖膜为例,展示了其在土壤中的生物降解性,181天后相对纤维素降解89.1%,绝对降解94.4%。 4. **预测模型**:通过Quriosity进行计算,结合机器学习模型准确预测聚合物在不同生命周期环境中的生物降解。 5. **合作与对话**:包括学术界和工业界的合作,以及与不同作物和土壤的田间试验,如瑞士的生态膜测试和奥地利案例研究。
数字工具助力设计" 新标准与生态薄膜" 精准预测聚合物降解"
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