Bio-inspired 4D printed intelligent lattice metamaterials with tunable mechanical property

•Intelligent metamaterials are developed by bio-inspired design concept and 4D printing method.•A novel theoretical calculation model of coupling of intelligent material and structure is proposed.•Tunable mechanical properties are verified by theoretical calculation, experiments and finite element a...

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Published inInternational journal of mechanical sciences Vol. 272; p. 109198
Main Authors Zhang, Xinchun, Han, Yuesong, Zhu, Min, Chu, Yuhao, Li, Weiduan, Zhang, Yanpeng, Zhang, Yan, Luo, Junrong, Tao, Ran, Qi, Junfeng
Format Journal Article
LanguageEnglish
Published Elsevier Ltd 15.06.2024
Subjects
4D printing
Energy absorption
Intelligent metamaterials
Mechanical properties
Shape memory polymer
Vibration damping
Mechanical properties
4D printing
Intelligent metamaterials
Vibration damping
Energy absorption
Shape memory polymer
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Abstract •Intelligent metamaterials are developed by bio-inspired design concept and 4D printing method.•A novel theoretical calculation model of coupling of intelligent material and structure is proposed.•Tunable mechanical properties are verified by theoretical calculation, experiments and finite element analysis.•Various mechanical properties are large-scale controlled by regulating parameters and temperature. 4D-printed intelligent metamaterials possess a multitude of potential applications in the engineering fields due to their novel structures and functions. In this paper, a multifunctional intelligent metamaterial inspired by arc-bearing structure in human spine and tortoise shell has been established based on 4D printing technology. The innovative metamaterial exhibits programmable shape, significantly tunable mechanical properties, reusable characteristics with good loading, energy absorbing and vibration damping ability. Theoretical models of the metamaterial are developed to describe its intelligent mechanical properties. The relationship between structural parameters and the temperature field in relation to the tunable mechanical properties and functionalities of metamaterials were displayed and analyzed by experiments, theoretical calculation and finite element analysis. The stiffness, energy absorption and vibration damping effects are regulated by varying the structural parameters and temperature field. This multifunctional and tunable metamaterial is expected to be widely applied in related fields such as aerospace engineering and intelligent robots. [Display omitted]
AbstractList •Intelligent metamaterials are developed by bio-inspired design concept and 4D printing method.•A novel theoretical calculation model of coupling of intelligent material and structure is proposed.•Tunable mechanical properties are verified by theoretical calculation, experiments and finite element analysis.•Various mechanical properties are large-scale controlled by regulating parameters and temperature. 4D-printed intelligent metamaterials possess a multitude of potential applications in the engineering fields due to their novel structures and functions. In this paper, a multifunctional intelligent metamaterial inspired by arc-bearing structure in human spine and tortoise shell has been established based on 4D printing technology. The innovative metamaterial exhibits programmable shape, significantly tunable mechanical properties, reusable characteristics with good loading, energy absorbing and vibration damping ability. Theoretical models of the metamaterial are developed to describe its intelligent mechanical properties. The relationship between structural parameters and the temperature field in relation to the tunable mechanical properties and functionalities of metamaterials were displayed and analyzed by experiments, theoretical calculation and finite element analysis. The stiffness, energy absorption and vibration damping effects are regulated by varying the structural parameters and temperature field. This multifunctional and tunable metamaterial is expected to be widely applied in related fields such as aerospace engineering and intelligent robots. [Display omitted]
ArticleNumber 109198
Author Zhang, Xinchun
Zhu, Min
Li, Weiduan
Zhang, Yanpeng
Luo, Junrong
Han, Yuesong
Qi, Junfeng
Zhang, Yan
Tao, Ran
Chu, Yuhao
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  givenname: Xinchun
  orcidid: 0000-0001-7978-9435
  surname: Zhang
  fullname: Zhang, Xinchun
  organization: Hebei Key Laboratory of Electric Machinery Health Maintenance & Failure Prevention, North China Electric Power University, Baoding 071003, China
– sequence: 2
  givenname: Yuesong
  surname: Han
  fullname: Han, Yuesong
  organization: Hebei Key Laboratory of Electric Machinery Health Maintenance & Failure Prevention, North China Electric Power University, Baoding 071003, China
– sequence: 3
  givenname: Min
  surname: Zhu
  fullname: Zhu, Min
  organization: Beijing Spacecrafts Manufacturing Factory, Beijng 100086, China
– sequence: 4
  givenname: Yuhao
  surname: Chu
  fullname: Chu, Yuhao
  organization: Hebei Key Laboratory of Electric Machinery Health Maintenance & Failure Prevention, North China Electric Power University, Baoding 071003, China
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  givenname: Weiduan
  surname: Li
  fullname: Li, Weiduan
  organization: Institute of Advanced Structure Technology, Beijing Institute of Technology, Beijing 100081, China
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  givenname: Yanpeng
  surname: Zhang
  fullname: Zhang, Yanpeng
  organization: Beijing Perfect-Protection Technology, Beijng 102400, China
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  fullname: Zhang, Yan
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  surname: Luo
  fullname: Luo, Junrong
  organization: Institute of Advanced Structure Technology, Beijing Institute of Technology, Beijing 100081, China
– sequence: 9
  givenname: Ran
  surname: Tao
  fullname: Tao, Ran
  email: taoran@bit.edu.cn
  organization: Institute of Advanced Structure Technology, Beijing Institute of Technology, Beijing 100081, China
– sequence: 10
  givenname: Junfeng
  surname: Qi
  fullname: Qi, Junfeng
  email: qjfcn@163.com
  organization: Beijing Spacecrafts Manufacturing Factory, Beijng 100086, China
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Keywords Mechanical properties
4D printing
Intelligent metamaterials
Vibration damping
Energy absorption
Shape memory polymer
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Snippet •Intelligent metamaterials are developed by bio-inspired design concept and 4D printing method.•A novel theoretical calculation model of coupling of...
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StartPage 109198
SubjectTerms 4D printing
Energy absorption
Intelligent metamaterials
Mechanical properties
Shape memory polymer
Vibration damping
Title Bio-inspired 4D printed intelligent lattice metamaterials with tunable mechanical property
URI https://dx.doi.org/10.1016/j.ijmecsci.2024.109198
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