BIO-SUSHY: Sustainable surface protection by glass-like hybrid and biomaterials coatings

BIO-SUSHY：通过类玻璃混合和生物材料涂层提供可持续的表面保护

• 批准号: 10056199
• 金额: $ 46.41万
• 依托单位: UNIVERSITY OF LEEDS
• 依托单位国家: 英国
• 项目类别: EU-Funded
• 财政年份: 2023
• 资助国家: 英国
• 起止时间: 2023 至 无数据
• 项目状态: 未结题
• 来源: https://gtr.ukri.org/projects?ref=10056199
• 关键词: BIO; SUSHY; Sustainable; surface; protection

To meet EU key strategic orientations for the development of digital, enabling, and emerging technologies, sectors and value chains, the project BIO-SUSHY proposes a complete operating framework for the development of innovative repellent organic and hybrid coatings to challenge widespread yet polluting polyfluorinated alkyl substances. These coatings aiming both hydrophobic and oleophobic properties will be obtained from acknowledged processing technologies, i.e., bio-based thermoplastic powder and hybrid sol-gel. Advanced functionalization will be ensured by bio-based additives added to formulations. Coatings will be applied on various substrates for validation of applications at pre-industrial scale in different domains such as the textile, glass cosmetic and food packaging. Material selection, formulation and coating process will cope with a tailored regulating Safe and Sustainable by Design (SSbD) strategy which evaluating criteria will encompass the risk toxicity of materials and hazardous leachate as well as life cycle assessment to determine economic and environmental impacts along the value chains. This SSbD strategy will be powered by physics based and data driven modelling tools for predicting both repellent properties of coating surfaces and leaching mechanisms of composites. Along with experimental measurements, modelling activity will serve a larger computational tool including all data collection and curation in a harmonized and annotated infrastructure for training and provision towards existing data repositories and marketplaces. This tool will complete a wider dissemination and valorisation strategy including not only scientific and economic aspects, but also to pave the way towards certification of materials and products for their introduction in pre-standardization landscape. For all these valorisation aspects BIO-SUSHY will be assisted by stakeholders to ensure social acceptance and economic impact of the foreseen innovations in coatings.

为了满足欧盟的关键战略取向，以开发数字，启用和新兴技术，部门和价值链，该项目Bio-Sushy提出了一个完整的操作框架，以开发创新的驱虫剂有机和混合涂层，以挑战广泛而广泛但污染的多氟烷基物质。这些针对疏水性和含水性特性的涂层将从公认的加工技术，即基于生物的热塑性粉末和混合溶胶 - 凝胶中获得。添加到配方中的基于生物的添加剂将确保先进的功能化。涂料将应用于各种基材上，以在不同领域（例如纺织品，玻璃化妆品和食物包装）中以工业量表的验证进行验证。材料的选择，配方和涂料过程将应对根据设计（SSBD）策略进行量身定制的调节安全和可持续性的策略，该策略将涵盖材料和危险渗滤液的风险毒性以及生命周期评估，以确定沿该价值链的经济和环境影响。该SSBD策略将由基于物理和数据驱动的建模工具提供动力，以预测复合材料的涂层表面和浸出机制的驱动性。除了实验测量外，建模活动还将提供更大的计算工具，包括所有数据收集和策划，以统一和注释的基础架构进行培训和针对现有数据存储库和市场的提供。该工具将完成更广泛的传播和价值战略，不仅包括科学和经济方面，而且还可以为材料和产品的认证铺平道路，以介绍其在标准化景观中。利益相关者将协助所有这些价值，以确保涂料中预见的创新对社会接受和经济影响。