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CAE – What it is and why CAE matters

Computer-Aided Engineering (CAE) refers to the procedure that encompasses the entire product and manufacturing development process. This includes design and virtual testing with complex geometries and analytical algorithms, sophisticated IT, as well as manufacturing planning. Most industries in the world of design that use a design software program to develop products use Computer-Aided Engineering, otherwise known as CAE.Using CAE tools for Computer-Aided Engineering in the product development process not only facilitates the design process, but also allows testing the product’s physical properties without having to do physical prototype testing. CAE simulation analysis types include Finite Element Analysis, Computational Fluid Dynamics, Thermal Analysis, Multibody Dynamics, and Optimization.For design engineers, integrating CAE and CAD has become a vital part of their day-to-day workflow.With both solutions being available in SaaS, the differences can be minimized, so it’s easy to create a CAD model and run engineering simulations with little difficulty.

There are generally three main phases to a CAE simulation session

Pre-processing – The CAD model is uploaded, the model is defined, and environmental factors addedRunning solvers applications – This depends on simulation analysis algorithmsPost-processing –  The model is validated and 3D visualization createdComputer-Aided Engineering simulation through advanced CAE can significantly reduce the cost and time of each design iteration cycle.It can also streamline the overall development process, particularly when combined with the power and speed of high-performance cloud computing. A typical CAE workflowFirst, an initial design is first generated and the CAD geometry is simulated. Then, once the simulation results are in, they are evaluated and used to optimize the product’s design. This is an iterative process, and is done until all the product’s criteria are met and virtually confirmed.When the digital prototype does not perform as expected, engineers and designers can improve the CAD model more and test the updated design by testing it in a Computer-Aided Engineering simulation, known as CAE simulation.As early versions of a product do not require making physical prototypes, this process supports faster product development.

Primary benefits of CAE 

Computer-Aided Engineering (CAE) simulation techniques and computer software provide key benefits. Less time in product developmentOptimized product quality and reliabilityStreamlined manufacturing processesLowered risk exposureAssists simulating complex geometriesImproved product qualityWorks with CAD softwareCost and time savingsEffectively leverage performance insightsThe ability to make early concept and design correctionsSignificant reduction in costs when it comes to physically testing prototypesMet deadlines through each of the different phases of the engineering workflowRemarkable improvement in product quality and reliabilityImproved customer satisfaction Extended product life cycle
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Types of CAE Analysis

CAE software and advanced CAE software company or business provide the world of engineers with a wide range of engineering and computer simulations and analysis types.Finite element analysis (FEA) of stress and dynamics Computational fluid dynamics (CFD) for thermal and fluid analysis Kinematics and dynamic analysis of mechanisms (multibody dynamics)Boundary element method (BEM) or FEA to analyze acoustics1D CAE, or mechatronic system simulation, for multi-domain mechatronics system designCasting, molding, and die press forming simulationsParticle simulation as part of a flow industrial processMultiphysics analysis utilizing multiple simulation phenomenaProduct or process optimization 

Large Applicability of CAE

Many industries and engineering teams use Computer-Aided Design, advanced CAE, and simulation software such as Simcenter 3D to great effect in the engineering process.CAE for industriesThese include the aerospace, automotive, energy, plant engineering, industrial equipment, HVAC, electronics, maritime, and consumer goods industries.Here, CAE tools are used to simulate, validate, and optimize products in design and manufacturing processes, while minimizing the need for physical prototypes.Applications of CAEThe varied applications of engineering simulation range from small components or products, to complex appliances, plants, and equipment.For this reason, Computer-Aided Design (CAD), Computer-Aided Engineering (CAE) solutions, and Computer-Aided Manufacturing (CAM)are the best way to ensure cost and time savings.Without the need to build a physical prototype with every design change, CAE helps to solve product design and engineering problems.Powerful CAE with Simcentre 3DSimcenter 3D is a unified, scalable, open and extensible environment for 3D CAE.The accelerated computer simulation process provided by Simcenter 3D is because of ts best-in-class geometry editing, associative simulation modeling, and multi-discipline solutions, embedded with industry expertise.Structural, acoustics, flow, thermal, motion, and composites analyses are done quickly and accurately thanks to Simcenter 3D’s solvers power.Simcenter 3D computer simulations are powered by high performance computing and provide performance insights, optimization, and multi-physics simulation for iterative design improvements.Through this, Computer-Aided Engineering (CAE) not only shortens the engineering process, it carries significant performance implications, and process improvements.
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