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DEFORMATION RIGIDITY OF ASSUMED STRESS MODES IN HYBRID ELEMENTS
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作者 张灿辉 黄黔 冯伟 《Applied Mathematics and Mechanics(English Edition)》 SCIE EI 2006年第7期861-869,共9页
The new methods to determine the zero-energy deformation modes in the hybrid elements and the zero-energy stress modes in their assumed stress fields are presented by the natural deformation modes of the elements. And... The new methods to determine the zero-energy deformation modes in the hybrid elements and the zero-energy stress modes in their assumed stress fields are presented by the natural deformation modes of the elements. And the formula of the additional element deformation rigidity due to additional mode into the assumed stress field is derived. Based on, it is concluded in theory that the zero-energy stress mode cannot suppress the zero-energy deformation modes but increase the extra rigidity to the nonzero-energy deformation modes of the element instead. So they should not be employed to assume the stress field. In addition, the parasitic stress modes will produce the spurious parasitic energy and result the element behaving over rigidity. Thus, they should not be used into the assumed stress field even though they can suppress the zero-energy deformation modes of the element. The numerical examples show the performance of the elements including the zero-energy stress modes or the parasitic stress modes. 展开更多
关键词 hybrid stress element element deformation rigidity zero-energy stress mode zero-energy deformation mode
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The Skin Deformation of a 3D Virtual Human
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作者 Xiao-Jing Zhou Zheng-Xu Zhao 《International Journal of Automation and computing》 EI 2009年第4期344-350,共7页
This paper presents a skin deformation algorithm for creating 3D characters or virtual human models. The algorithm can be applied to rigid deformation, joint dependent localized deformation, skeleton driven deformatio... This paper presents a skin deformation algorithm for creating 3D characters or virtual human models. The algorithm can be applied to rigid deformation, joint dependent localized deformation, skeleton driven deformation, cross contour deformation, and free-form deformation (FFD). These deformations are computed and demonstrated with examples and the algorithm is applied to overcome the difficulties in mechanically simulating the motion of the human body by club-shape models. The techniques described in this article enables the reconstruction of dynamic human models that can be used in defining and representing the geometrical and kinematical characteristics of human motion. 展开更多
关键词 Free-form deformation (FFD) skin deformation virtual human rigid deformation virtual reality.
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"刚柔并济"构筑可"劈裂"光的高稳定性晶体材料
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作者 杜志鹏 宋显宇 +7 位作者 刘维 王子怡 沙洪源 许倩婷 周洋 李雁强 罗军华 赵三根 《Science Bulletin》 SCIE EI CAS CSCD 2024年第14期2205-2211,共7页
There is a pressing demand for the development of novel birefringent crystals tailored for compact optical components,especially for crystals exhibiting large birefringence across a range of temperatures.This has comm... There is a pressing demand for the development of novel birefringent crystals tailored for compact optical components,especially for crystals exhibiting large birefringence across a range of temperatures.This has commonly been achieved by introducing various deformable groups with high polarizability anisotropy.In this study,we combined both rigid and deformable groups to synthesise a new birefringent crystal,Al_(2)Te_(2)MoO_(10),which demonstrates an exceptional birefringence value of 0.29@550 nm at room temperature.Not only is this higher birefringence than that of commercial crystals,but Al_(2)Te_(2)MoO_(10)exhibits excellent birefringence stability over a wide temperature range,from 123 to 503 K.In addition,the first-principles theory calculations and structural analyses suggest that although the rigid AlO_(6)groups do not make much contribution to the prominent birefringence,they nonetheless played a role in maintaining the structural anisotropy at elevated temperatures.Based on these findings,this paper proposes a novel structural design strategy to complement conventional approaches for developing optimal birefringent crystals under various environmental conditions. 展开更多
关键词 Combining rigid and deformable groups Optical anisotropy Structure-property relationship Birefringent crystal
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