木质纳米纤维素基材料热传导性能研究进展  

作　　者：任丹 朱淼淼 周小婉 王郁 王汉坤 Dan Ren;Miaomiao Zhu;Xiaowan Zhou;Yu Wang;Hankun Wang(College of Food Science,Southwest University,Chongqing 400715,China;Key Laboratory of National Forestry and Grassland Administration/Beijing for Bamboo&Rattan Science and Technology,International Centre for Bamboo and Rattan,Beijing 100102,China)

机构地区：[1]西南大学食品科学学院,重庆400715 [2]国际竹藤中心,国家林业和草原局/北京市共建竹藤科学与技术重点实验室,北京100102

出　　处：《世界林业研究》2022年第3期45-49,共5页World Forestry Research

基　　金：国家林业和草原局/北京市共建竹藤科学与技术重点实验室开放基金(ICBR-2020-02);西南大学实验技术研究项目(SYJ2021028);2021年大学生创新创业训练计划项目(X202110635077)。

摘　　要：木质纳米纤维素基材料,如气凝胶或泡沫,具有原料广泛、生物可降解且多孔性等特征。作为常温常压下使用的非导体材料,其热传导主要取决于气体传导,其次为固体传导,而对流和辐射换热则可忽略不计。研究者致力于通过筛选干燥方式(如超临界干燥、冷冻干燥、气干或者烘干)、优化干燥工艺参数、添加纳米填料以及疏水改性来调控材料的孔径以及超微结构,进而获得热导率低于空气热导率,室温下为25 mW/(m·K)的超级保温材料。这类材料有望替代市场上常见的建筑或包装用石油基保温材料,可极大地减少环境污染压力。文中概述木质纳米纤维素基材料的热传递过程,讨论木质纳米纤维素基材料的热传导及其影响因子和作用机制,期望对开发新型的、具有低热导率的超级保温材料提供参考。Ligno-nanocellulose-based materials,such as aerogels or foams,have the characteristics of plenty source,biodegradability and porosity.The gas conduction contribution is the dominating contribution to the thermal conductivity of nonconductive materials at ambient conditions,followed by solid conduction,while the convection and radiation contribution are usually negligible under the same conditions.To obtain superinsulating materials,i.e.,materials with thermal conductivity significantly lower than the value for air(25mW/m·K at room temperature),many researches have attempted to control the pore size and ultramicrostructure of materials,including screening drying methods(e.g.,supercritically dried,freeze-dried,ambient-dried and oven-dried methods),drying process parameters optimization,adding nano-fillers and hydrophobic modification.Super-insulating material is expected to replace common petroleum-based insulation materials for construction or packaging available on the market and thus can greatly reduce the environmental pollution.The paper summarizes the heat transfer process of ligno-nanocellulose-based materials and discusses the thermal conduction and its factors and acting mechanism.It is expected that this review will play an important role in the development of new super-insulation materials with low thermal conductivity.

关 键 词：木质纳米纤维素基材料 热传导 性能控制 

分 类 号：TS68[轻工技术与工程]