A novel biomimetic approach to the design of high-performance ceramic–metal composites

机译：新型仿生方法设计高性能陶瓷-金属复合材料

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摘要

The prospect of extending natural biological design to develop new synthetic ceramic–metal composite materials is examined. Using ice-templating of ceramic suspensions and subsequent metal infiltration, we demonstrate that the concept of ordered hierarchical design can be applied to create fine-scale laminated ceramic–metal (bulk) composites that are inexpensive, lightweight and display exceptional damage-tolerance properties. Specifically, Al2O3/Al–Si laminates with ceramic contents up to approximately 40 vol% and with lamellae thicknesses down to 10 µm were processed and characterized. These structures achieve an excellent fracture toughness of 40 MPa√m at a tensile strength of approximately 300 MPa. Salient toughening mechanisms are described together with further toughening strategies.

机译：研究了扩展自然生物设计以开发新型合成陶瓷-金属复合材料的前景。使用陶瓷悬浮液的冰模板和随后的金属渗透，我们证明了有序分层设计的概念可用于创建廉价，轻便且显示出优异的耐损伤性能的小尺寸层压陶瓷-金属（散装）复合材料。具体地说，对陶瓷含量高达40％（体积）且薄片厚度小于10μm的Al2O3 / Al-Si层压板进行了加工和表征。这些结构在大约300 MPa的拉伸强度下具有40MPa√m的出色断裂韧性。描述了显着的增韧机理以及进一步的增韧策略。

著录项

期刊名称 Journal of the Royal Society Interface
作者
Maximilien E. Launey; Etienne Munch; Daan Hein Alsem; Eduardo Saiz; Antoni P. Tomsia; Robert O. Ritchie;
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作者单位

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年(卷),期 2010(7),46
年度 2010
页码 741–753
总页数 13
原文格式 PDF
正文语种
中图分类
关键词
ceramics metals composites toughness strength freeze-casting;

机译：陶瓷;金属;复合材料;韧性;强度;冷冻铸造;
入库时间 2022-08-17 11:48:07

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专利

1. A novel biomimetic approach to the design of high-performance ceramic—metal composites [J] . Maximilien E. Launey, Etienne Munch, Daan Hein Alsem Journal of the Royal Society Interface . 2010,第46期

机译：新型仿生方法设计高性能陶瓷-金属复合材料
2. A novel strategy for fabricating biomimetic gradient metal-ceramic composites by dynamic freeze casting and pressure infiltration [J] . Li-Kai Yang, Ping Shen, Rui-Fen Guo Scripta materialia . 2019,第期

机译：通过动态冷冻铸造和压力渗透来制造仿生梯度金属 - 陶瓷复合材料的新策略
3. Design and preparation of high-performance alumina functional graded self-lubricated ceramic composites [J] . Y.E. Qi, Y.S. Zhang, Y. Fang, Composites . 2013,第APRa期

机译：高性能氧化铝功能梯度自润滑陶瓷复合材料的设计与制备
4. Ceramic-metal composites as a solution for high-performance semiconductor laser packaging [C] . Jean-Marc Verdiell, LightLogic, Inc., Testing, Packaging, Reliability, and Applications of Semiconductor Lasers IV . 1999

机译：陶瓷-金属复合材料作为高性能半导体激光封装的解决方案
5. Nanostructure by design: Solution- and gas-phase processing routes to nanostructured metals, intermetallics, ceramics, and composites. [D] . Haber, Joel Allan. 1997

机译：通过设计实现纳米结构：溶液和气相工艺路线可形成纳米结构的金属，金属间化合物，陶瓷和复合材料。
6. Development of Novel Lightweight Metastable Metal–(Metal + Ceramic) Composites Using a New Powder Metallurgy Approach [O] . Khin Sandar Tun, Akshay Padnuru Sripathy, Sravya Tekumalla, 2020

机译：采用新型粉末冶金方法开发新型轻质亚料金属 - （金属+陶瓷）复合材料
7. A novel biomimetic approach to the design of high-performance ceramic–metal composites [O] . Launey, Maximilien E., Munch, Etienne, Alsem, Daan Hein, 2009

机译：新型仿生方法设计高性能陶瓷-金属复合材料

A novel biomimetic approach to the design of high-performance ceramic–metal composites

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