Multi Body Simulation or MMS is, a precursor activity, used to accurately simulate the motion of an assembly component relative to others. It incorporates the effects of motion parameters within components of an assembly. While estimating the motion and relevant physical parameters, it can also combine the mates in the assembly, and consequently motion constraints, material properties, mass, and component contacts.
Whilst carrying out the Structural Performance of a large assembly, MMS gives the relevant loading constraints in terms of reactions, displacements, trace paths, and many others. This helps to arrive at faster structural performances of the components.
Other CAE Capabilities Per need, following specific activities are used during product development stages. These helps establish a path for the design driven product development.
Preliminary Engineering Program (PEP): provides baseline specifications of components for Conceptual Design.
Multi Disciplinary Optimization (MDO): Couples product performance thru' various analyses and achieves desired objective
Knowledge Driven Program (KDP): Provides a program based on the statistical mapping of various effects of Design Drivers on the sizing and shaping of product configuration. Relevant CAE activities are extensively used to eliminate its further use, thereby faster validation coupled with time and cost saving.
@ESEC Engineering Simulation Excellence Centre or ESEC@LUMIUM comprise of a dedicated team of CAE Experts seeking the near perfect performance of the product. Team works in collaboration with the design team at various stages, which helps manage risks involved in various phases of the product design and development
With sound theoretical knowledge; baseline specifications of product, its features & guidelines for engineering concepts are established. Customized design driven approaches, considering various disciplines are used to achieve a comprehensive solution. This also helps reducing number of design iterations and lead time. Different product configurations are explored before proceeding towards final analyses. ESEC has the design driven and multi domain expertise that assists in precise definition of boundary condition for analyses. Product is iteratively Simulated, Rectified, Validated and Optimized. Thus, ESEC substantially provides support to Design Teams in critical decision making.
ESEC's CAE practices help reduce product development time and costs while improving product quality, performance and durability.