Services
Samtech
SAMCEF Field
SAMCEF Field is a complete and interactive environment for the modeling, the analysis and the simulation of linear and non-linear mechanical structures based on CAD geometry.
SAMCEF Field is designed to meet your general or specific needs, manage fast or complex analyses, capitalize your investments.
As a complete and open environment, SAMCEF Field provides you all needed tools to design and simulate your mechanisms and your structures through an intuitive navigation and graphical apprehension.
Transparent Extended Analysis (TEA)
TEA Mecano : SAMTECH brings its specialized expertise to make SAMCEF Mecano available within CATIA V5 environment. TEA Mecano offers to CATIA V5 users numerous facilities for the modeling and the analysis of nonlinear mechanical problems.
TEA Thermal : SAMTECH brings its specialized expertise to make SAMCEF thermal application available within CATIA V5 environment. TEA Thermal offers to CATIA V5 users numerous facilities for the modeling and the analysis of steady state heat transfer problems.
TEA Pipe : SAMTECH extends now its suite of analysis solutions embedded in CATIAV5 and provides CATIAV5 users with TEA Pipe, a new professional product. TEA Pipe is a vertical application dedicated to Piping and Tubing Simulation useful to prepare the placement of pipes in engines and cars.
Samcef Gateway
With SAMCEF Gateway SAMTECH offers to SAMCEF users numerous facilities for the modeling, the Linear and Non-Linear analysis and the post-processing from CATIA V5.
SAMCEF Gateway allows SAMCEF users to export SAMCEF data either from a CATIA V5 analysis document or from SAMTECH Transparent Extended Analysis products (TEA Mecano & TEA Thermal) based on CATIA V5. SAMCEF Gateway gives a basic access to linear static, modal, non-linear structures and stationary thermal analyses of SAMCEF. SAMCEF Gateway also allows to import SAMCEF results for post-processing in CATIA V5.
Samcef for Rotor
SAMCEF for Rotor is a professional solution specifically adapted to the dynamic analysis of structure containing rotating components. It is Finite Element based and allows to compute critical speeds, stability, harmonic and time-transient responses of mechanical systems made of rotating parts, fixed parts and linking devices.
Samcef for Machine Tools
SAMCEF for Machine Tools is an Innovative Professional Solution dedicated to Machine Tool Design combining structures, mechanisms, controller Design and analysis.
It offers a unique environment for the global design and the detailed mechatronic verification of Machine Tools. This Computer Aided Engineering tool is completely based on geometries defined locally or imported from well-known CAD systems. It offers a complete toolbox of components giving for the first time to the designer the possibility to use the same modeling environment during the whole design process from A to Z, i.e. from simple rigid body simulation to check the global kinematics of the Machine Tool to very detailed verification using Finite Element technique of the dynamic behavior of the machine tool interacting with its controllers.
Samcef for Wind Turbines
With SAMCEF for Wind Turbines, SAMTECH is extending its suite of CAE professional solutions to Wind Power industry applications. SAMCEF for Wind Turbines is a vertical application addressing the numerical simulation of complex Wind Turbine systems.
Samcef for Composites
SAMCEF provides the specialists with numerous facilities and appropriate solutions to model and analyze composite materials structures. Amongst them, a comprehensive library of multi-layered elements dedicated to the modeling of filament wound structures as well as of laminated composites and of sandwich constructions, a wide range of material behavior laws, of failure criteria, … and efficient visualization tools.
OOFELIE PiezoElectric, driven by SAMCEF Field
OOFELIE PiezoElectric, driven by SAMCEF Field, provides engineers and analysts with unique capabilities to analyze piezoelectric systems, sensors and actuators, such as ultrasonic motors and accelerometers.
With OOFELIE PiezoElectric, driven by SAMCEF Field, you are getting at the core of the physics in one conveniently integrated simulation package.
LMS International
LMS Virtual.Lab Motion
LMS Virtual.Lab Motion is specifically designed to simulate realistic motion and loads of mechanical systems. It offers effective ways to quickly create and refine multi-body models, efficiently re-use CAD and FE (Finite Element) models and perform fast iterative simulations to assess the performance of multiple design alternatives.
LMS Virtual.Lab Durability
This revolutionary process solution for durability performance engineering tightly integrates Finite Element (FE), MultiBody Simulation (MBS), Test and fatigue-life prediction.
LMS Virtual.Lab Durability allows you to quickly explore the fatigue life of many different design options on component and system assembly level, in time to positively affect the design process.
LMS Virtual.Lab Acoustics
With LMS Virtual.Lab Acoustics, engineers are possible to make well-informed decisions at the concept stage, and to systematically improving, refining, and optimizing product’s acoustic performance from the initial design to completion in a coherent way. Engineers are also able to perform acoustic meshing in a couple of hours, predict an engine run-up within a day, and remodel design changes within minutes.
LMS Virtual.Lab Noise and Vibrations
LMS Virtual.Lab Noise and Vibration supports vibro-acoustic assessment on full-system models. It captures all critical process steps to systematically improve the noise and vibration characteristics of a complete assembly.LMS Virtual.Lab Noise and Vibration allows engineering teams to evaluate the vibro-acoustic behavior of multiple vehicle variants. Its unique hybrid simulation approach intelligently combines Finite Element (FE) modeling with test-derived models.
LMS Virtual.Lab Optimization
Virtual.Lab Optimization automatically and intelligently drives Virtual.Lab simulation processes through the use of a wide variety of Design Of Experiments techniques including Taguchi and Box-Behnken. Based on the results of these experiments, different Response Surface modeling techniques give fundamental insight into the variations of a design and the related 'trade offs.
An optimal design can be found using optimization methods based on Non-Linear Programming. Different robust algorithms - Sequential Quadratic Programming and Generalized Reduced Gradient - are available for solving general constrained optimization problems.
LMS Virtual.Lab Designer
LMS Virtual.Lab Designer, a CATIA V5 add-on software suite, provides users direct access to dedicated simulation solutions for general FE-processing, system dynamics, acoustics, fatigue-life and durability. In addition to these solutions, LMS Virtual.Lab Designer delivers mesh-based design capabilities that allow designers and analysts to quickly modify FE simulation models and to efficiently analyze multiple design variants. LMS Virtual.Lab Designer is fully embedded in the CATIA V5 environment, and enables CATIA V5 users to quickly analyze the performance of systems and parts up-front in the design process, without the need to leave their preferred PLM solution.
Numeca
NUMECA International is a leading software editor and solution provider for fluids dynamics simulations. Our solutions allow engineers and designers to predict realistic physical behavior of complex systems where fluids (liquid or gas) play a significant role.