Adams-scFLOW prediction of dynamic vehicle suspension movement in a cross flow wind

Co-Simulation - where Multiphysics gets Real

Raising the bar for CAE accuracy, precision & performance

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At most companies, CAE is performed as an isolated activity within a single functional team or engineering discipline. The performance, safety, and reliability of their products, however, is greatly influenced by the interactions between these disciplines.

With 50+ year history stretching back to the early NASA moon landing project, MSC Software has been endeavoring to provide world class CAE co-simulation solutions to engineers worldwide. And here are a few reasons why CAE engineers benefit from our unique co-simulation technologies.

Holistic Performance
Co-simulation provides engineers with a unique, more complete & holistic performance insight by coupling together multiple simulation disciplines.  Everything from acoustics to multibody dynamics (MBD), to CFD, to structural analysis, and explicit crash dynamics can be connected together in MSC (see Figure 1).

Increased Accuracy & Precision

The ability to quickly and easily look at alternatives with co-simulation at a time when we are not locked into any particular approach should make it possible to meet performance requirements with a lighter suspension that can improve the fuel economy of the vehicle."
Technical Expert at Endurance Attribute and Chassis CAE Department, Volvo

Faster Analysis Performance

The Adams-Marc co-simulation capability more than satisfies our guideline of 'reasonable results in a reasonable time.' With up to a 90% reduction in computation time, optimization using advanced nonlinear FEA becomes practical. Such development provides a great benefit and is crucial for our product development and we are proud to work together with MSC in advancing the technology."
Chief Engineer, Litens Automotive Group

MSC Co-Simulation Technologies

Depending on the type of analysis, engineers can use MSC solutions in two ways – Co-Simulation (applying multiple physics to the model simultaneously) or Chained Simulation (passing load case results from one analysis to the next).

1. MSC CoSim Engine

The MSC CoSim Engine has been developed in order to provide a co-simulation interface for the direct coupling of different solvers/disciplines with a multi-physics framework. This first version, readily available today, enables engineers to set up co-simulation models between Adams, Marc, MSC Nastran and scFLOW.

2. Other Open Co-Simulation Solutions

Besides the CoSim Engine, MSC also supports a list of other co-simulation methodologies, including the Functional Mock-up Interface (FMI), Adams Marc Co-Simulation Interface (ACSI) and so on.

3. Chained Simulation

Chained simulation allows CAE engineers from different departments to integrate multiple disciplines sequentially and improve the overall simulation accuracy. For example, passing the road loads data from an Adams Full Vehicle model to the downstream MSC Nastran model for the stress & durability analyses.

MSC Co-Simulation Applications:

Deployment of flaps on an aircraft wing

Crosswind Impact on Vehicle Dynamics

Vehicle driving through water puddle

Fuel tank sloshing

Buoyant logs floating under a bridge

Flexible plate in a crossflow

Flag on a flag pole fluttering in a wind

Valve in a tank opening

Diaphragm valve distorting due to fluid force

Ship propeller simulation with fluid-structure interaction

Water jet hitting a pivoting flat plate

Vehicle battery scratched by obstacle

Wiper blade mechanism simulation

ATV hitting a curb

Forming process simulation

Suspension system simulation with nonlinear bushing

Validating control algorithms for industrial robots

ADAS and Autonomous Driving Simulation

Detailed combustion gasses simulation integrated with 1D system modeling

Detailed cooling water 3D analysis incorporated in the 1D system model

Noise prediction for gearbox/transmission systems

Acoustic analysis for electric motors

Noise study for exhaust system