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Other LMS Virtual Prototype Simulation Applications

What's new in LMS Virtual.Lab Revision 10

LMS Virtual.Lab Demo Movies

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LMS Virtual.Lab Motion Overview

LMS Virtual.Lab Motion

Optimizing real-life performance of mechanical systems -Manufacturers are pressured to deliver more complex products with increased quality in shorter development cycles. Engineering the performance of mechanical designs with traditional test-based development processes is no longer an option. The only valid alternative is evaluating functional performance attributes on a virtual prototype. LMS Virtual.Lab Motion enables engineers to effectively analyze and optimize real-life performance of mechanical ...

Motion Pre/Post

LMS Virtual.Lab Motion Pre/Post is the platform for multibody simulations. It contains all basic requirements to simulate and analyze models. Solver capabilities are not included but solver input files and solver results files can be exported and imported. The LMS Virtual.Lab Motion Pre/Post offering is suited for departments that need more pre/post than solver resources....

Motion

LMS Virtual.Lab Motion is an integrated solution to simulate realistic motion and mechanical system loads. It helps engineers to analyze and optimize the real-world mechanical design behavior and guarantee that it performs optimally before committing to physical prototype testing. LMS Virtual.Lab Motion helps users model, simulate and analyze results of any rigid multi-body mechanical system....

Vehicle Motion

LMS Virtual.Lab Vehicle Motion simulates all types of vehicle ride and handling behavior from passenger cars and motor sport vehicles to multi-axle vehicles. Front and rear-axle suspension models created with the LMS Virtual.Lab Suspension Interface can be integrated modularly into a full-vehicle model. The library of pre-defined vehicle events, including ISO maneuvers can be extended by any user-defined event....

Powertrain Motion

LMS Virtual.Lab Powertrain Motion is a complete, integrated solution to simulate complex dynamic engine performance and accurately predict internal loads. It provides dedicated powertrain modeling templates that help users to quickly build detailed models of full powertrain assemblies or specific sub-assemblies. The powertrain template generates fully parameterized models enabling fast modifications and accelerated alternative design analysis....

Landing Gear

LMS Virtual.Lab Landing Gear helps engineers build detailed aircraft landing gear models that simulate real-life performance. Users can assess multiple design alternatives and optimize aircraft models before constructing the prototype. Developed in cooperation with aircraft and landing gear manufacturers, this solution addresses specific landing gear engineering challenges and predicts total system loads for typical aircraft movements. ...

Race Car

Developed in cooperation with leading racing teams, LMS Virtual.Lab Race Car is a simulation solution for professional racing teams. With access to sophisticated race car simulation capabilities, design teams can avoid modeling errors and save time. It runs various automated analyses in the background, which allow for Design of Experiment and optimization of the racing vehicle topology....

LMS Virtual.Lab Motion - Options

Options for the LMS Virtual.Lab Motion product line....

References:

Schmitz Cargobull - streamlining trailer & commercial truck product development
Aisin Seiki- implementation of accelerated product development processes
Elasis-reducing design time with CAE model of gearbox
Toshiba- power transmission equipment
ESA- simulation of dynamic behavior of space systems
Toshiba- developing advanced power transmission
Picanol- optimization of rapier mechanism in weaving machine

Download the LMS Virtual.Lab Motion Brochure

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» News

PSA PEUGEOT CITROËN Chooses LMS Virtual.Lab

LMS Virtual.Lab Landing Gear reduces errors and saves time in landing gear engineering

» Application Cases

GM replaces driveline tests with simulation

Arctic Cat makes fast moves in the power sports market

Timoney Technology uses LMS Virtual.Lab Motion to design independent suspensions