当前位置:
X-MOL 学术
›
ChemPhysChem
›
论文详情
Our official English website, www.x-mol.net, welcomes your
feedback! (Note: you will need to create a separate account there.)
Exploring the Porosity in Ceramics at the nm Scale: From Understanding Historical Ceramics to Innovative Materials Design.
ChemPhysChem ( IF 2.3 ) Pub Date : 2020-04-14 , DOI: 10.1002/cphc.202000088 Claudia Mondelli 1 , Sandro Zorzi 2, 3 , Giulia Ricci 4 , Victór Galvan 5 , Eleonora Balliana 4 , Ralf Schweins 3 , Elti Cattaruzza 2
ChemPhysChem ( IF 2.3 ) Pub Date : 2020-04-14 , DOI: 10.1002/cphc.202000088 Claudia Mondelli 1 , Sandro Zorzi 2, 3 , Giulia Ricci 4 , Victór Galvan 5 , Eleonora Balliana 4 , Ralf Schweins 3 , Elti Cattaruzza 2
Affiliation
|
Ceramics are complex objects and a rich source of information: they constitute a large part of the staple memory of past and present human activities. A deep understanding of traditional ceramics is an essential key to designing new ceramic materials. The demanding synthesis of ceramics with fine‐tuned properties, such as enhanced mechanical, electrical, optical or magnetic characteristics, must be associated with cutting‐edge analysis procedures in order to improve the engineering process. In this context, we describe a neutron‐based non‐destructive approach to investigating the nanoporosity of an historical pottery matrix as an effective investigation technique for exploring both traditional and advanced ceramic materials.
中文翻译:
在纳米尺度上探索陶瓷的孔隙率:从了解历史陶瓷到创新材料设计。
陶瓷是复杂的物体,也是丰富的信息来源:它们构成了过去和现在人类活动的主要记录的很大一部分。对传统陶瓷的深刻理解是设计新型陶瓷材料的关键。要求苛刻的具有微调特性的陶瓷合成,例如增强的机械,电气,光学或磁性特性,必须与尖端分析程序联系在一起,以改善工程流程。在这种情况下,我们描述了一种基于中子的非破坏性方法来研究历史陶瓷基质的纳米孔隙度,作为探索传统和先进陶瓷材料的有效研究技术。
更新日期:2020-04-14
中文翻译:
在纳米尺度上探索陶瓷的孔隙率:从了解历史陶瓷到创新材料设计。
陶瓷是复杂的物体,也是丰富的信息来源:它们构成了过去和现在人类活动的主要记录的很大一部分。对传统陶瓷的深刻理解是设计新型陶瓷材料的关键。要求苛刻的具有微调特性的陶瓷合成,例如增强的机械,电气,光学或磁性特性,必须与尖端分析程序联系在一起,以改善工程流程。在这种情况下,我们描述了一种基于中子的非破坏性方法来研究历史陶瓷基质的纳米孔隙度,作为探索传统和先进陶瓷材料的有效研究技术。
京公网安备 11010802027423号