A high-order isogeometric vibrational method for adaptive analysis of athlete diving equipment using advanced kinematic and geometric modeling

Shengdong Dai; Maojun Gong; Wenyue Xian; Yunfeng Du; Joffin Jose Ponnore; Y. Jia

doi:10.1080/15376494.2024.2422578

A high-order isogeometric vibrational method for adaptive analysis of athlete diving equipment using advanced kinematic and geometric modeling

Shengdong Dai
, Maojun Gong
, Wenyue Xian
, Yunfeng Du
, Joffin Jose Ponnore
, Y. Jia

Research output: Contribution to journal › Article › peer-review

Abstract

Isogeometric high-order analysis of a sandwich beam is presented in this article. The kinematic and geometric modeling is applied using the higher order modeling based on the stretchable models. The suggested model in this article can be applied for the sport equipment specially for analysis of diving beams boards and beams. The Variational-based approach is extended to derive governing equations. The results are analytically obtained in order to seek impact of significant parameters of the problem on the responses. The results are confirmed through comparison with available ones in the literature.

Original language	English
Journal	Mechanics of Advanced Materials and Structures
DOIs	https://doi.org/10.1080/15376494.2024.2422578
State	Accepted/In press - 2024
Externally published	Yes

Keywords

3D nanostructure
diving beams/strips equipment
High-order model
isogeometric analysis
metamaterials
multi-field loading

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10.1080/15376494.2024.2422578

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title = "A high-order isogeometric vibrational method for adaptive analysis of athlete diving equipment using advanced kinematic and geometric modeling",

abstract = "Isogeometric high-order analysis of a sandwich beam is presented in this article. The kinematic and geometric modeling is applied using the higher order modeling based on the stretchable models. The suggested model in this article can be applied for the sport equipment specially for analysis of diving beams boards and beams. The Variational-based approach is extended to derive governing equations. The results are analytically obtained in order to seek impact of significant parameters of the problem on the responses. The results are confirmed through comparison with available ones in the literature.",

keywords = "3D nanostructure, diving beams/strips equipment, High-order model, isogeometric analysis, metamaterials, multi-field loading",

author = "Shengdong Dai and Maojun Gong and Wenyue Xian and Yunfeng Du and Ponnore, \{Joffin Jose\} and Y. Jia",

note = "Publisher Copyright: {\textcopyright} 2024 Taylor \& Francis Group, LLC.",

year = "2024",

doi = "10.1080/15376494.2024.2422578",

language = "English",

journal = "Mechanics of Advanced Materials and Structures",

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T1 - A high-order isogeometric vibrational method for adaptive analysis of athlete diving equipment using advanced kinematic and geometric modeling

AU - Dai, Shengdong

AU - Gong, Maojun

AU - Xian, Wenyue

AU - Du, Yunfeng

AU - Ponnore, Joffin Jose

AU - Jia, Y.

PY - 2024

Y1 - 2024

N2 - Isogeometric high-order analysis of a sandwich beam is presented in this article. The kinematic and geometric modeling is applied using the higher order modeling based on the stretchable models. The suggested model in this article can be applied for the sport equipment specially for analysis of diving beams boards and beams. The Variational-based approach is extended to derive governing equations. The results are analytically obtained in order to seek impact of significant parameters of the problem on the responses. The results are confirmed through comparison with available ones in the literature.

AB - Isogeometric high-order analysis of a sandwich beam is presented in this article. The kinematic and geometric modeling is applied using the higher order modeling based on the stretchable models. The suggested model in this article can be applied for the sport equipment specially for analysis of diving beams boards and beams. The Variational-based approach is extended to derive governing equations. The results are analytically obtained in order to seek impact of significant parameters of the problem on the responses. The results are confirmed through comparison with available ones in the literature.

KW - 3D nanostructure

KW - diving beams/strips equipment

KW - High-order model

KW - isogeometric analysis

KW - metamaterials

KW - multi-field loading

UR - https://www.scopus.com/pages/publications/85208505769

U2 - 10.1080/15376494.2024.2422578

DO - 10.1080/15376494.2024.2422578

M3 - Article

AN - SCOPUS:85208505769

SN - 1537-6494

JO - Mechanics of Advanced Materials and Structures

JF - Mechanics of Advanced Materials and Structures

ER -

A high-order isogeometric vibrational method for adaptive analysis of athlete diving equipment using advanced kinematic and geometric modeling

Abstract

Keywords

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