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[대학원 세미나] 3/26(금) 이호원 교수(서울대학교) "Digital 4D printing for engineered living materials"
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2021.03.25
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기계공학부
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기계공학부 구성원들의 많은 관심과 참여 부탁드립니다.


[강연 영상 링크] [게시 기간: 4/12 ~ 4/23]

[게시 종료]


▣ Title: Digital 4D printing for engineered living materials

Speaker: Howon Lee (Associate Professor)

Affiliation: Dept. of Mechanical Engineering, Seoul National University

▣ Date: 2021. 3. 26.(Fri) 13:00

▣ Venue: Online(Zoom)

▣ Host: Prof. Jongsup Hong

▣ Abstract

Engineered living materials refer to artificial materials systems that have attributes of living systems, including the ability to sense the presence of external stimuli and adapt to the changing environment. Such materials systems offer tremendous potential for autonomous and intelligent engineering systems when precisely manufactured in specific architectures with programmed responses. Emerging pathway to create dynamic and adaptive mechanical systems involves additive manufacturing (often called 3D printing) of responsive materials. This approach has been recently termed “4D printing”, with the 4th dimension being time. In this seminar, 4D printing of responsive materials using projection micro-stereolithography (PµSL) will be presented. PµSL is a micro 3D printing technique that turns light into a complex 3D structure by utilizing the state-of-the-art digital display. Combining rapid, versatile, and scalable micro 3D printing technique with smart materials, design principles and mechanics inspired by exquisite motions and morphologies in nature are physically realized. Micro-structures that can transform, move, and even jump are demonstrated by programming of dynamic response of various responsive hydrogels. In addition, unprecedented access to micro- and nano-scale afforded by precision micro 3D printing allows for implementation of mechanics-driven design principles in micro-architectures, leading to mechanical properties far superior to those found in nature, such as ultra-low density and high stiffness. Furthermore, geometrically reconfigurable, functionally deployable, and mechanically tunable lightweight material is created through 4D printing with a shape memory polymer.



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