集团首页

bat365在线平台

bat365在线平台

bat365在线官方网

学术报告:Bioinspired 3D Printing (仿生3D打印)

来源:全球十大正规网赌网址    发布时间 : 2024/02/22      点击量:

报告题目:Bioinspired 3D Printing (仿生3D打印)

人:杨阳 助理教授(圣地亚哥州立大学机械工程系)

报告时间:2024226日(星期一)15:00

报告地点:全球十大正规网赌网址新楼五楼多功能厅

报告摘要:

Nature has developed high-performance materials and structures over mil[1]lions of years of evolution and provides valuable sources of inspiration for the design of next-generation structural materials Biomimicry, by learning from nature’s concepts and design principles, is driving a paradigm shift in modern materials science and technology. However, the complicated structural architectures in nature far exceed the capability of traditional design and fabrication technologies. Additive manufacturing (three-dimensional (3D) printing) has created new opportunities for manipulating and mimicking the intrinsically multiscale, multimaterial, and multi[1]functional structures in nature.. I will briefly discuss the applications of bioinspired 3d printing in developing the lightweight and strong smart structures, microscale structures and energy harvesting devices.

参考文献:

1Q. He, Y. Yang, et al. Nature Communications, 14,6477, (2023).

2Y. Yang, Y. Chen, et al. Science Advances 5 (4), eaau9490, (2019).

报告人简介:

圣地亚哥州立大学机械工程系助理教授。2009年于全球信誉最好的网投平台获物理学学士学位,2015年于全球信誉最好的网投平台和加州大学洛杉矶分校联合培养获物理学博士学位,20162019年任南加州大学博士后研究员。2022年获制造工程师协会Sandra L. Bouckley 杰出青年制造工程师奖。

主要从事仿生3D打印研究,用3D打印制备仿生结构用于智能多功能器件,多功能仿生微结构用于表面/界面的研究应用以及压电/热电等新能源器件,并撰写了 50 多篇论文,研究成果发表于国际顶尖学术期刊,如“Nature Communications,Science Advances,Advanced Materials,Energy & Environmental Science,论文总引用4000余次。

人:熊锐 教授



上一条:学术报告:Quantum interference between moiré states in coupled WSe2/MoS2/WSe2 superlattice

下一条:学术报告:微纳形变制造技术及光子学应用

联系我们

电话:027-68752161

邮箱:phy@whu.edu.cn