138 3D-CGモデルを用いた競泳用水着の異方性超弾性モデルによる応力解析(生体負荷の変化と軽減)

抄録

A new design method for designing competitive swimsuits using 3-dimensional stress calculation was investigated in this paper. An anisotropic hyperelastic modeling of swimwear fabric was developed from the results of tensile loading tests. 3-dimensional stress distributions of swimwear in swimming motions were calculated by the anisotropic hyperelastic model. The displacement fields of 3D-CG human model which reproduce swimming motion of human body were applied to stress calculation. For the material modeling, the uniaxial cyclic tensile loading tests were conducted to obtain the mechanical characteristics of competitive swimsuits. From loading test results, the mechanical characteristics of swimwear fabrics show anisotropy and the stiffness of the fabric shows hardening along with stretching. The cyclic tensile loading test results show stiffness reduction which depended on the maximum deformation. To take the anisotropy and stress reduction into account for the material modeling, a stress softening model for anisotropic hyperelastic model using stiffness ratio of warp or weft was proposed. In this paper, 3-dimensional stress distributions of swimwear were calculated by the proposed anisotropic hyperelastic model. A polygonal model of the swimwear was prepared and deformation of swimwear was adapted to the skin of 3D-CG human model in swimming motions. From the calculated results, stress distributions were possible to be visualized on the 3D-CG swimwear model.