The mechanical characterization of materials is a crucial point in the definition of finite element calculation models.
TECSIMAT can help you ABOUT:
We are specialists in the study of the behavior of materials under impact and the definition of material charts for ABAQUS. LS-Dyna, RADIOSS and Pam-Crash.
MECHANICAL TESTING OF MATERIALS
The objective of TECSIMAT is to help you know the mechanical properties of materials so that you can optimize your products, avoid problems and. To know the plasticity of certain materials it is necessary to perform different tests such as traction, compression, shear,...
We have specific equipment for impact materials characterization.
MATERIAL DATA CARD
A good definition of the plasticity of materials and its breakage model allows good correlations to be obtained with test results and optimization of designs. This point is critical in all non-linear and impact calculations. In these calculations, the materials undergo large deformations that can cause them to break.
CAE ADVANCED ENGINEERING
We offer finite element calculation services, using advanced simulation tools. They have a team with more than 25 years of experience in various sectors, including automotive, industrial boilermaking and renewable energy. We carry out static and dynamic studies of metal structures and impact analysis.
CUSTOMERS
PARTNERS
TECSIMAT ACADEMY
STEEL MECHANICAL CHARACTERIZATION FOR FINITE ELEMENTS CALCULATION
This course provides a comprehensive understanding of testing for the metal mechanical characterization , with a special focus on steels. Throughout three modules, participants will learn the regulations, procedures and information obtained from these trials. In addition, the practical definition of material charts for finite element calculation software such as ABAQUS, RADIOSS, Pam-Crash and Ls-Dyna will be addressed.
The possibilities of defining the breakage in steels and the methodology to obtain the necessary parameters for its numerical simulation will be detailed.
In the last module, a practical application will be carried out through the post-processing of different finite element models, allowing the determination of the material breakage and the comparison of results using various definitions of the behavior of steels in programs numerical simulation. This course provides a solid foundation to improve the calculations and post-processing of metallic structures subject to plastic deformation.
OPEN SOURCE PROGRAMS FOR STRUCTURAL CALCULATION USING FINITE ELEMENTS
Discover the potential of open source programs for structural calculation by finite elements in our specialized course.
The first module will present the ASTER software and its pre- and post-processing tool SALOME MECA. This calculation package has been developed by EDF to perform implicit linear and non-linear calculations.
The second module will be dedicated to the CalculX program and the PreProMax pre and postprocessor. The peculiarity of this finite element program is that it uses the same input file format as ABAQUS.
In the last module the MyNastran program will be presented. In this case this program uses input format compatible with Nastran.
The fact that these open source programs do not have licensing costs is a great advantage over commercially licensed programs.
This course will introduce you to the use of these programs that can be used in a wide range ofstructural engineering projects.
Take advantage of this unique opportunity to gain valuable skills without worrying about licensing costs.
Sign up now and take your knowledge to the next level!
COURSE FOR THE CHARACTERIZATION OF FOAMS, HONEYCOMB AND MATERIALS WITH RETICULAR STRUCTURE (LATTICE) FOR FINITE ELEMENTS CALCULATION
This course focuses on the characterization and modeling of honeycomb foams and materials with a reticular structure (lattice), with the precise objective of obtaining material charts for software of calculation by finite elements. Participants will acquire a comprehensive understanding of the specific tests necessary for the correct mechanical characterization of porous materials. Relevant regulations and standards will be detailed, as well as the different elastic and plastic models that are used in finite element simulations. Through practical applications and analysis of case studies, participants will develop essential skills to optimize the design and analysis of industrial applications of foams and honeycombs and materials with a reticular structure (lacticce). In summary, this course provides essential training for generation of material charts for finite element calculation software.