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[Other3D-beam-jisuanjibeihe

Description: C++编写“三维粱单元有限元计算内核”,对杆系有限元的理论和C++的理解有了很大提高-C++ written " three-dimensional beam finite element kernel module" , and on finite element theory and the understanding of C++ has been greatly improved
Platform: | Size: 305152 | Author: 徐峰祥 | Hits:

[Software EngineeringFEM-PPT

Description: 非常好的有限元课件(英文版)包括: 1.有限元基础 2.桁架结构 3.二维、三维结构 4.梁、框架结构 5.板壳结构 6.动力学分析-Finite Element Method and Application-PPT,include: 1.Foundations of FEM 2.Truss structures 3.2D and 3D solid structure 4.Beam and Frame Structures 5.Plate and Shell Structures 6.Dynamic analysis
Platform: | Size: 3931136 | Author: 张爱兵 | Hits:

[Data structstrans_matrix_beam3d

Description: a 3d beam finite element method solver
Platform: | Size: 2048 | Author: | Hits:

[Algorithmelement

Description: 有限元二维三维梁材料单元,仅供科研用途,拒绝商业使用-2D and 3D finite element beam material element, for scientific purposes, refusing commercial use
Platform: | Size: 24576 | Author: wangmengchen | Hits:

[AlgorithmUMAT_SMA_BENJABER_ET_AL

Description: This an Abaqus user material subroutine UMAT in fortran language of a new 3D strain based constitutive model for shape emory alloys developped by Ben Jaber and coauthors in 2008 [1] and improved recently by Ben Jaber 2014 [2] This subroutine in Fortran language allows users to simulate thermomechanical behaviors of SMA products. More details about material parameters and internal variables are availables in The file UMAT_SMA_benjaber_ET_AL_ReadMe.pdf . [1] Ben Jaber M, Smaoui H and Terriault P (2008) Finite element analysis of a shape memory alloy three-dimensional beam based on a finite strain description Smart materials and structures 17(4), 045005. [2] Ben Jaber M (2014) Numerical implementation of a 3D strain-based constitutive model for shape memory alloys under a finite strain description Submitted to Smart materials and structures. -This is an Abaqus user material subroutine UMAT in fortran language of a new 3D strain based constitutive model for shape emory alloys developped by Ben Jaber and coauthors in 2008 [1] and improved recently by Ben Jaber 2014 [2] This subroutine in Fortran language allows users to simulate thermomechanical behaviors of SMA products. More details about material parameters and internal variables are availables in The file UMAT_SMA_benjaber_ET_AL_ReadMe.pdf . [1] Ben Jaber M, Smaoui H and Terriault P (2008) Finite element analysis of a shape memory alloy three-dimensional beam based on a finite strain description Smart materials and structures 17(4), 045005. [2] Ben Jaber M (2014) Numerical implementation of a 3D strain-based constitutive model for shape memory alloys under a finite strain description Submitted to Smart materials and structures.
Platform: | Size: 2150400 | Author: moez | Hits:

[OtherA 3D Finite Beam Element

Description: A 3D Finite Beam Element for the Modelling of Composite Wind Turbine Wings
Platform: | Size: 3240960 | Author: eastleft | Hits:

[matlabycrbeamforming

Description: 对线阵、圆环阵、柱阵、球面体进行波束形成仿真,先进行阵元分布绘制,利用笛卡尔坐标系,进而任意阵型常规波束形成,绘制二维、三维波束图、方位谱图(For beam forming simulation of linear array, circular array, column array and spherical body, we first draw the array element distribution, and use Descartes coordinate system, and then make any conventional array beamforming, draw 2D, 3D beam and azimuth spectrum.)
Platform: | Size: 3072 | Author: ycr188 | Hits:

[Other3D梁单元

Description: 利用Fortran编程,计算3D梁单元问题(Calculate 3D beam elements problem)
Platform: | Size: 6144 | Author: 大师二 | Hits:

[matlab有限元程序MATLAB

Description: 四杆桁架结构的有限元分析(Bar2D2Node); 三梁平面框架结构的有限元分析(Beam2D2Node); 基于3节点三角形单元的矩形薄板分析(Triangle2D3Node); 基于4节点四边形单元的矩形薄板分析(Quad2D4Node); 基于4节点四面体单元的空间块体分析(Tetrahedron3D4Node); 基于8节点六面体单元的空间块体分析(Hexahedral3D8Node);(Finite element analysis of four bar truss structure (bar2d2node); Finite element analysis of three beam plane frame structure (beam2d2node); The analysis of thin rectangular plate based on 3-node triangular element (triangle2d3node); The analysis of rectangular thin plate based on 4-node quadrilateral element (quad2d4node); Tetrahedron 3D 4node (Tetrahedron 3d4node) is used to analyze the spatial block; The spatial block analysis based on 8-node hexahedral element (hexahedral 3d8node);)
Platform: | Size: 339968 | Author: 朱棣_ | Hits:

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