Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Study on dented hemispheres under external hydrostatic pressure
Abstract This paper is dedicated to the comprehensive investigation on dented hemispheres under external hydrostatic pressure. A total of 20 stainless steel hemispheres are fabricated, which have a nominal radius of 60 mm and a nominal wall thickness of 0.76 mm. These fabricated hemispheres are divided into four groups with five samples in each group. Wherein, three groups are dented using conical, spherical, and cylindrical indenters respectively, while the remaining group is designated as undented one. Both dented and undented hemispheres are hydrostatically tested into collapse to examine the effects of indention on the collapse characteristics of hemispheres. Additionally, all tested hemispheres are semi-analytically and numerically evaluated based on the measured geometric data and tested material properties. The experimental, semi-analytical, and numerical results are compared in figures and tables.
Highlights 15 hemispheres are dented using conical, spherical, and cylindrical indenters. 5 undented and 15 dented hemispheres are statically pressurized into collapse. All hemispheres are analyzed experimentally, theoretically, and numerically.
Study on dented hemispheres under external hydrostatic pressure
Abstract This paper is dedicated to the comprehensive investigation on dented hemispheres under external hydrostatic pressure. A total of 20 stainless steel hemispheres are fabricated, which have a nominal radius of 60 mm and a nominal wall thickness of 0.76 mm. These fabricated hemispheres are divided into four groups with five samples in each group. Wherein, three groups are dented using conical, spherical, and cylindrical indenters respectively, while the remaining group is designated as undented one. Both dented and undented hemispheres are hydrostatically tested into collapse to examine the effects of indention on the collapse characteristics of hemispheres. Additionally, all tested hemispheres are semi-analytically and numerically evaluated based on the measured geometric data and tested material properties. The experimental, semi-analytical, and numerical results are compared in figures and tables.
Highlights 15 hemispheres are dented using conical, spherical, and cylindrical indenters. 5 undented and 15 dented hemispheres are statically pressurized into collapse. All hemispheres are analyzed experimentally, theoretically, and numerically.
Study on dented hemispheres under external hydrostatic pressure
Zhang, Jian (Autor:in) / Huang, Chen (Autor:in) / Wagner, H.N.Ronald (Autor:in) / Cui, Weicheng (Autor:in) / Tang, Wenxian (Autor:in)
Marine Structures ; 74
25.06.2020
Aufsatz (Zeitschrift)
Elektronische Ressource
Englisch
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