WO2024130292 - SMART BIO-INSPIRED MATERIAL DESIGN PLATFORM

National phase entry:
Publication Number WO/2024/130292
Publication Date 27.06.2024
International Application No. PCT/AU2022/051540
International Filing Date 20.12.2022
Title **
[English] SMART BIO-INSPIRED MATERIAL DESIGN PLATFORM
[French] PLATEFORME DE CONCEPTION DE MATÉRIAU BIO-INSPIRÉ INTELLIGENT
Applicants **
CHIEN, Chih-Yung Level 50, 120 Collins Street Melbourne, Victoria 3000, AU
NATIONAL CHENG KUNG UNIVERSITY No.1, University Road, East District, Tainan City 701, TW
Inventors
YU, Chi-Hua No.1, University Road, East District, Tainan City 701, TW
TSENG, Bor-Yann No.1, University Road, East District, Tainan City 701, TW
CHEN, Yu-Wen No.1, University Road, East District, Tainan City 701, TW
CHEN, Chuin-Shan No.1, University Road, East District, Tainan City 701, TW
CHAN, Tzu-Ching No.1, University Road, East District, Tainan City 701, TW
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Quotation for National Phase entry

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China Filing1257
EPO Filing, Examination8449
Japan Filing529
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USA Filing, Examination2635
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Abstract[English] The present invention discloses a smart bio-inspired material design platform to satisfy multi-objective material design featuring complex micro structure for the future. The platform sets mechanical properties of a simulative material element via establishing a reduced model. A distribution of the simulative material element is simulated so as to output a material simulative parameter. A deep learning framework is combined in the platform for computing and evaluating an optimal material design that meets a target material parameter. Specifically, the reduced model can be based on data provided by any test of material mechanical properties, and the deep learning framework evaluates whether a biomimetic material design meets demand of the optimal target material parameter according to a standardized reward function model. The platform is applicable to multi-objective simulative material design, and is greatly potential for futuristic applications.[French] La présente invention divulgue une plateforme de conception de matériau bio-inspiré intelligent pour satisfaire une conception de matériau multi-objectif présentant une microstructure complexe pour le futur. La plateforme définit les propriétés mécaniques d'un élément de matériau de simulation par établissement d'un modèle réduit. Une distribution de l'élément de matériau de simulation est simulée de façon à délivrer un paramètre de simulation de matériau. Un cadre d'apprentissage profond est combiné dans la plateforme pour calculer et évaluer une conception de matériau optimale qui satisfait un paramètre de matériau cible. Plus particulièrement, le modèle réduit peut être basé sur des données fournies par un quelconque test de propriétés mécaniques de matériau, et le cadre d'apprentissage profond évalue si une conception de matériau biomimétique répond à la demande du paramètre de matériau cible optimal selon un modèle à fonction de récompense standardisé. La plateforme est applicable à une conception de matériau de simulation multi-objectif, et présente un fort potentiel pour des applications futuristes.
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