View in EDS

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

Saved in:
Bibliographic Details
Title: A high-order isogeometric vibrational method for adaptive analysis of athlete diving equipment using advanced kinematic and geometric modeling.
Authors: Dai, Shengdong1 (AUTHOR), Gong, Maojun2 (AUTHOR) 522683685@qq.com, Xian, Wenyue1 (AUTHOR), Du, Yunfeng1 (AUTHOR), Ponnore, Joffin Jose3 (AUTHOR), Jia, Y.4 (AUTHOR)
Source: Mechanics of Advanced Materials & Structures. 2025, Vol. 32 Issue 21, p5376-5402. 27p.
Subject Terms: *DIVING equipment, *GEOMETRIC modeling, *ISOGEOMETRIC analysis, *KINEMATICS, *MODAL analysis, *MATHEMATICAL analysis, *SANDWICH construction (Materials), *VARIATIONAL approach (Mathematics)
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. [ABSTRACT FROM AUTHOR]
Database: Academic Search Index
Description
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. [ABSTRACT FROM AUTHOR]
ISSN:15376494
DOI:10.1080/15376494.2024.2422578