TOPOLOGICAL INTERLOCKING AS A DESIGN PRINCIPLE FOR HYBRID MATERIALS

机译：拓扑联锁作为混杂材料的设计原则

获取原文

页面导航

摘要
著录项
相似文献
相关主题

摘要

Materials segmented into non-bonded blocks offer important advantages over conventionally designed hybrid materials. As the blocks have some freedom of movement, such materials can withstand vibrations and efficiently dissipate vibration energy, while possessing high resistance to fracture propagation. The absence of binding between the blocks makes it possible to combine blocks made of dissimilar, even incompatible materials. To maintain the integrity of such materials, we propose to use the principle of topological interlocking whereby each block is kept in place by kinematic constraints imposed by the neighbouring blocks. This is achieved by special arrangements of blocks shaped as one of the platonic solids or through engineered contact surfaces. The peripheral blocks need to be constrained either by an external frame or by cables running through the assembly. The constraining force can serve as a parameter controlling the properties of the hybrid.

机译：与传统的分段材料相比，混合材料具有重要的优势。由于砌块具有一定的运动自由度，因此此类材料能够承受振动并有效地耗散振动能量，同时具有较高的抗断裂扩展能力。块之间没有粘合，因此可以组合由不同甚至不相容材料制成的块。为了保持这些材料的完整性，我们建议使用拓扑联锁原理，通过相邻块体施加的运动学约束，每个块体保持在原位。这是通过一种柏拉图式固体形状的块体的特殊排列或通过工程接触面实现的。外围块需要由外部框架或穿过组件的电缆约束。约束力可以作为控制混合动力特性的参数。

著录项

来源
《Pacific Rim International Congress on Advanced Materials and Processing》|2013年||共12页
会议地点
作者
Arcady Dyskin; Elena Pasternak; Yuri Estrin;
展开▼
作者单位

展开▼
会议组织
原文格式 PDF
正文语种
中图分类 TB3-532;
关键词
Kinematic constraint; Platonic solids; Osteomorphic blocks; Impact oscillator;

机译：运动约束;柏拉图式固体;骨块;冲击振荡器;

相似文献

外文文献
中文文献
专利

1. Design and modulation principles of molybdenum carbide-based materials for green hydrogen evolution [J] . Jing-Qi Chi, Min Yang, Yong-Ming Chai, 天然气化学（英文版） . 2020,第009期
2. Design and modulation principles of molybdenum carbide-based materials for green hydrogen evolution [J] . Jing-Qi Chi, Min Yang, Yong-Ming Chai, 能源化学：英文版 . 2020,第009期
3. Recent advances on first-principles modeling for the design of materials in CO2 capture technologies [J] . Yue Yuan, Huabei You, Luis Ricardez-Sandoval 中国化学工程学报（英文版） . 2019,第007期
4. Topological interlocking as a material design concept [J] . Y. Estrin, A.V. Dyskin, E. Pasternak Materials science & engineering . 2011,第6期

机译：拓扑互锁作为一种材料设计概念
5. First principles hybrid functional study of small polarons in doped SrCeO3 perovskite: towards computation design of materials with tailored polaron [J] . Bai Qiang, Zhu Yizhou, He Xingfeng, Ionics . 2018,第4期

机译：掺杂Srceo3 Perovskite中小辅助子的第一个原理杂交功能研究：朝向量身定制的材料计算设计
6. First principles hybrid functional study of small polarons in doped SrCeO3 perovskite: towards computation design of materials with tailored polaron [J] . Bai Qiang, Zhu Yizhou, He Xingfeng, Ionics . 2018,第4期

机译：掺杂Srceo3 Perovskite中小辅助子的第一个原理杂交功能研究：朝向量身定制的材料计算设计
7. TOPOLOGICAL INTERLOCKING AS A DESIGN PRINCIPLE FOR HYBRID MATERIALS [C] . Arcady Dyskin, Elena Pasternak, Yuri Estrin Pacific Rim International Congress on Advanced Materials and Processing . 2013

机译：拓扑互锁作为混合材料的设计原理
8. Hybrid and smart Topologically Interlocking Materials [D] . Khandelwal, Somesh 2013

机译：混合和智能拓扑联锁材料
9. Enhanced Mechanical Performance of Bio-Inspired Hybrid Structures Utilising Topological Interlocking Geometry [O] . Lee Djumas, Andrey Molotnikov, George P. Simon, -1

机译：利用拓扑互锁几何增强了生物启发的混合结构的机械性能
10. Molecule/Semiconductor Hybrid Materials for Visible-Light CO2 Reduction: Design Principles and Interfacial Engineering [O] . Akinobu Nakada, Hiromu Kumagai, Marc Robert, 2021

机译：用于可见光二氧化碳的分子/半导体混合材料减少：设计原则和界面工程
11. Mechanics of Multiscale Energy Dissipation in Topologically Interlocked Materials-11.1 STIR [R] . Siegmund, T 2013

机译：拓扑联锁材料中多尺度能量耗散的力学-11.1 sTIR

TOPOLOGICAL INTERLOCKING AS A DESIGN PRINCIPLE FOR HYBRID MATERIALS

摘要

著录项

相似文献

相关主题

期刊订阅