SesamX Knowledge Base
https://www.sesamx.io/doc/
2024-03-28T21:09:53+00:00SesamX Knowledge Base
https://www.sesamx.io/doc/
https://www.sesamx.io/doc/_media/favicon.icotext/html2023-10-16T21:25:40+00:00Ali Baba (alibaba@undisclosed.example.com)1. Installation procedure
https://www.sesamx.io/doc/user_manual/installation?rev=1697484340&do=diff
1. Installation procedure
Before using the SesamX suite, you first need to install the software. This page aims at describing what is inside the installation package and how to install all its components.
Currently, only the Windows (7/8/10) platform is supported. You should not worry about external dependencies, the package contains everything that is needed.text/html2023-09-23T08:03:10+00:00Ali Baba (alibaba@undisclosed.example.com)3.1. Introduction - [See also]
https://www.sesamx.io/doc/user_manual/sesamx/introduction?rev=1695448990&do=diff
3.1. Introduction
This introduction aims at exposing an overview of what SesamX is made of. The goal is not to provide every detail about each topic mentioned, but instead, it summarizes the main features and conventions behind SesamX. If you are looking for more precise information, do not hesitate to refer to the $\underline{u}$$\underline{\underline{\varepsilon}}$$\lbrack \ \rbrack$$u_{,x}$$(\underline{u_{g_1}}, \underline{u_{g_2}}, \underline{u_{g_3}})$$\underline{e_{...}}$$\underline{u_{..…text/html2023-05-31T20:50:31+00:00Ali Baba (alibaba@undisclosed.example.com)Perform a contact resolution - [Resolution scenario]
https://www.sesamx.io/doc/how-to/contat-resolution?rev=1685559031&do=diff
Perform a contact resolution
Targeted SesamX version: V2022_03
Introduction
This how-to showcases how to perform a contact resolution on a SesamX model. As an illustration, we will work on a pipe crushing model. We will detail how to prepare the model in order to define the contact conditions, and how to set up the non linear resolution scenario$x$$mm$$E = 70 GPa$$\nu = 0.33$$E = 200 GPa$$\nu = 0.3$$mm$$mm$$mm$$mm$$mm$$mm$$mm$$mm$$mm$$mm$text/html2023-05-31T20:48:26+00:00Ali Baba (alibaba@undisclosed.example.com)Car wheel rim finite element analysis - [Model definition and analysis using SesamX]
https://www.sesamx.io/doc/tutorials/car_wheel_rim?rev=1685558906&do=diff
Car wheel rim finite element analysis
Targeted SesamX version: V2021_04
Introduction
This tutorial showcases how to create and analyze a finite element model of a car wheel rim. The step file describing the wheel rim geometry is the starting point of this tutorial. We will detail $$f(x) = \cfrac{1 + \cos\Big(\cfrac{x}{0.09} \cfrac{\pi}{2}\Big)} {2}$$$ E = 72.4 \ GPa $$ \nu = 0.33 $text/html2023-05-31T20:40:49+00:00Ali Baba (alibaba@undisclosed.example.com)TE4 SOLID-ISOPARAM element twisted beam validation
https://www.sesamx.io/doc/validations/te4-solid-twisted-beam?rev=1685558449&do=diff
TE4 SOLID-ISOPARAM element twisted beam validation
This validation aims at assessing the behavior of the SesamX TE4 SOLID-ISOPARAM element against the equivalent Abaqus C3D4 element. These 2 elements implement the iso-parametric tetrahedron element. $E = 200 GPa$$\nu = 0.33$$u_x (m)$$u_y (m)$$u_z (m)$$(m)$$u_x (m)$$u_y (m)$$u_z (m)$$(m)$$\varepsilon_{11} (\%)$$\varepsilon_{22} (\%)$$\varepsilon_{33} (\%)$$\varepsilon_{11} (\%)$$\varepsilon_{22} (\%)$$\varepsilon_{33} (\%)$$\varepsilon_{11}$$\va…text/html2023-05-31T20:40:33+00:00Ali Baba (alibaba@undisclosed.example.com)TE10 SOLID-ISOPARAM element twisted beam validation
https://www.sesamx.io/doc/validations/te10-solid-twisted-beam?rev=1685558433&do=diff
TE10 SOLID-ISOPARAM element twisted beam validation
This validation aims at assessing the behavior of the SesamX TE10 SOLID-ISOPARAM element against the equivalent Abaqus C3D10 element. These 2 elements implement the iso-parametric tetrahedron element. We expect the results to be identical.$E = 200 GPa$$\nu = 0.33$$u_x (m)$$u_y (m)$$u_z (m)$$(m)$$u_x (m)$$u_y (m)$$u_z (m)$$(m)$$\varepsilon_{11} (\%)$$\varepsilon_{22} (\%)$$\varepsilon_{33} (\%)$$\varepsilon_{11} (\%)$$\varepsilon_{22} (\%)$$\va…text/html2023-05-31T20:40:22+00:00Ali Baba (alibaba@undisclosed.example.com)WE6 SOLID-ISOPARAM element twisted beam validation - [Validation data]
https://www.sesamx.io/doc/validations/we6-solid-twisted-beam?rev=1685558422&do=diff
WE6 SOLID-ISOPARAM element twisted beam validation
This validation aims at assessing the behavior of the SesamX WE6 SOLID-ISOPARAM element against the equivalent Abaqus C3D6 element. Both elements implement the iso-parametric formulation. However the stiffness integration is not performed the same: SesamX uses the exact 6-point Gaussian integration scheme, whereas Abaqus uses the reduced 2-point Gaussian integration scheme$E = 200 GPa$$\nu = 0.33$$u_x (m)$$u_y (m)$$u_z (m)$$(m)$$u_x (m)$$u_y (m…text/html2023-05-31T20:40:03+00:00Ali Baba (alibaba@undisclosed.example.com)HE8 SOLID-MITC element twisted beam validation - [Validation data]
https://www.sesamx.io/doc/validations/he8-solid-twisted-beam?rev=1685558403&do=diff
HE8 SOLID-MITC element twisted beam validation
This validation aims at assessing the behavior of the SesamX HE8 SOLID-MITC element against the equivalent Abaqus C3D8I element. The Abaqus element implements the hexahedron with incompatible modes, whereas the SesamX element implements the $E = 200 GPa$$\nu = 0.33$$u_x (m)$$u_y (m)$$u_z (m)$$(m)$$u_x (m)$$u_y (m)$$u_z (m)$$(m)$$\varepsilon_{11} (\%)$$\varepsilon_{22} (\%)$$\varepsilon_{33} (\%)$$\varepsilon_{11} (\%)$$\varepsilon_{22} (\%)$$\vare…text/html2023-05-31T20:29:32+00:00Ali Baba (alibaba@undisclosed.example.com)SesamX input file step by step guide
https://www.sesamx.io/doc/tutorials/sesamx-step-by-step-guide?rev=1685557772&do=diff
SesamX input file step by step guide
Introduction
This tutorial showcases how to write consistent SesamX input files from a beginner point of view. Together, we will write a complete input file setting up a simple shell model, and running a linear static resolution under a membrane solicitation. Along the way we will also discuss some Sesamx basic features (data persistence, units management, $m$$mm$$mm$$°$$GPa$$Kg/m^3$$MPa$$\%$$N/m$$Nm/rad$$N$$Nm$$s$$10000 N$$x$text/html2023-05-31T20:23:03+00:00Ali Baba (alibaba@undisclosed.example.com)Empty - created
https://www.sesamx.io/doc/user_manual/sesamx/functions_description/output_image/empty?rev=1685557383&do=diff
Emptytext/html2023-05-31T20:22:06+00:00Ali Baba (alibaba@undisclosed.example.com)Empty - created
https://www.sesamx.io/doc/user_manual/sesamx/functions_description/create_contact/empty?rev=1685557326&do=diff
Emptytext/html2023-05-31T20:21:51+00:00Ali Baba (alibaba@undisclosed.example.com)Empty - created
https://www.sesamx.io/doc/user_manual/sesamx/functions_description/create_constraint/empty?rev=1685557311&do=diff
Emptytext/html2023-05-31T20:21:37+00:00Ali Baba (alibaba@undisclosed.example.com)Empty - created
https://www.sesamx.io/doc/user_manual/sesamx/functions_description/create_load/empty?rev=1685557297&do=diff
Emptytext/html2023-05-31T20:21:20+00:00Ali Baba (alibaba@undisclosed.example.com)Empty - created
https://www.sesamx.io/doc/user_manual/sesamx/functions_description/create_properties/empty?rev=1685557280&do=diff
Empty