Star CCM++ CFD MEDELING

"Star CCM++ provides advanced CFD modeling solutions for accurate simulation of fluid dynamics and heat transfer. Improve design performance with comprehensive, multi-physics capabilities."

SPEND LESS TIME ON CFD MESHING AND FLUID MODELING, AND MORE TIME ON ANALYSIS

With traditional CAE tools, CFD model preparation can account for up to 80 percent of the overall CAE process. This is often the result of tedious geometry cleanup and preparation, and challenges associated with obtaining a closed fluid volume. Traditional CAE  models are also often disconnected from the CAD geometry, requiring you to recreate a model every time a design change is made.

Simcenter 3D is an integrated, modern simulation environment for model preparation, execution and results visualization. Robust analysis geometry preparation capabilities are a major focus. Specifically, synchronous technology allows direct, history-independent editing of multi-CAD geometry. CAD/CAE associativity pushes design changes directly and automatically to analysis models, eliminating time-consuming model rebuilds every time a design change is made. Simcenter also includes sophisticated surface wrapping technology for extracting the most complicated fluid volumes for CFD modeling and analysis.

Simcenter 3D eliminates repetitive and time-consuming CFD model preparation, and accelerates simulation productivity.

SURFACE WRAPPING TECHNOLOGY

Rapidly create fluid domain geometry in just a matter of seconds. Simcenter 3D includes powerful surface wrapping technology that rapidly extracts complex interior or exterior surface volumes for CFD analysis. Furthermore, the new fluid domain geometry is associated to the base design, so you can quickly update your analysis model whenever the design changes.

SIMPLIFY CAE GEOMETRY EDITING

Synchronous technology in Simcenter 3D provides you with for fast and intuitive direct CAE geometry editing capabilities for better fluid modeling. You can quickly create and analyze design alternatives and intuitively use geometry as a design variable to drive optimization analyses.

CFD MESHING

You can create unstructured fluid meshes and boundary layer meshes using linear tetrahedral, brick, wedge and pyramid element types. Simcenter 3D includes a complete set of automatic and manual CFD meshing options to produce the right mesh for your application.

INTEGRATED CFD ANALYSIS FOR FAST AND ACCURATE FLUID FLOW SIMULATION

From the gust of air that induces rotation in a windmill, to the hot exhaust exiting an automobile’s tailpipe, to the burst of medication issuing from the nozzle of an oral inhalation device – fluid dynamics are an essential and inextricable part of everyday life. The flow of gases and liquids can be crucial to both the functionality and survivability of a product. Therefore, computational fluid dynamics (CFD) analysis is a major engineering consideration. Simcenter 3D integrates comprehensive flow analysis capabilities to help you to both visualize and optimize the flow characteristics of your designs, for better-performing, longer-lasting products.

COMPRESSIBLE FLOW

Realistically and accurately simulate the flow of gases. Optimize flow paths, reduce pressure losses, and visualize turbulent flow fields, all within the same environment.

INCOMPRESSIBLE FLOW

Conveniently simulate liquids in internal or external flow scenarios. Generate insight necessary to improve uniformity, understand dynamic behavior and optimize performance.

1D FLUID NETWORKS

Model complex fluid networks one dimensionally and couple directly to three dimensional CFD analysis models. Generate realistic insight without the computational overhead.

NON-NEWTONIAN FLOW

Easily simulate fluids with shear-rate-dependent viscosities. Confidently analyze blood flow, molten plastic, toothpaste, ketchup or the specific non-Newtonian fluid your application demands.

CFD MODELING

Shorten model preparation time and enhance productivity with custom tools for interior surface wrapping and boundary layer meshing. Conquer complex geometry preparation, and start your flow analysis sooner.

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HEEDS

Engineers and Scientist today across all industries are facing the challenges of greater complexity of multi-domain, multi-disciplinary design problems. To deal with this ever increasing complexity, proportional swelling cost, engineers around the world are demanding advanced modelling and simulation solutions that will help to meet the modern engineering challenges they face. Siemens state-of-the-art Process Integration and Design optimization tool HEEDS helps the engineers to make the most of existing software and hardware infrastructure along with existing simulation and experimental data. The software enables the engineers to arrive at robust and optimum design alternatives exponentially faster than traditional iterative design process. With the help of HEEDS customers in Aerospace, Automotive, Turbo machinery, Green Technologies, Power Industries, Electronics and more are successfully meeting the challenges of today’s complex engineering projects and bring in better products faster. 

HEEDS is a multi-objective optimization and design environment which combines a comprehensive process integration platform with sophisticated, state-of-the-art, optimization algorithms, and powerful post-processing capabilities. 

HEEDS has been successfully integrating all commercial CAE and in-house tools, ranging from CAD software to FEM and CFD programs. 

HEEDS can automate the simulation based design validation workflow in a distributed and parallel processing environment 

HEEDS features the most recent optimization techniques available today in literature ranging from Design of Experiments to Direct Optimizers and proprietary automated design optimisation algorithms SHERPA which automatically shift between multiple algorithms to solve a problem based on available time. HEEDS is the only commercial product on the market that has been built from the ground up to solve multi objective optimization and multi objective robust design optimization problems. Accordingly, HEEDS can handle very efficiently several goals and constraints at the same time, allowing you to pick the best design from a family of designs that represent the best designs for various trade-offs.

HEEDS can take advantage by replacing your real solver with a virtual model obtained by training the response surfaces (surrogate models). This will allow you the run of a direct optimization otherwise impossible.

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HEEDS features an extensive set of engineering data processing and statistical tools to mine and analyse any form of data. 

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For More Details CLICK HERE

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SIMCENTER MULTIMECH

Predict how, when, and why advanced materials may fail at the microstructural level

Simcenter Multimech is a multiscale material modeling and simulation platform. The software  extends the flexibility and robustness of the finite element method down to the microstructural level, strongly coupling the macro and micro mechanical response, and thereby integrating materials engineering to part design. Simcenter Multimech helps companies accelerate the product development lifecycle by predicting how, when, and why failure will occur in innovative materials.

Simcenter Multimech is integrated within the Simcenter 3D environment. It can also be used as a plugin for Abaqus and Ansys.

AUTOMATIC MICROSTRUCTURE GENERATION & OPTIMIZATION

Automatically generate the geometry and meshing of your micro structural models. The only inputs required are basic design variables. You can also quickly and easily apply various loading scenarios to gain insight into how the material will perform in different conditions.

MANUFACTURING VARIABILITY & IMPERFECTIONS

Simcenter accounts for manufacturing variability and imperfections to maximize product reliability. Import process-induced variation data and automatically convert it to microscale, including volume fraction and fiber orientation tensors to simulate injection-molded parts.

MULTISCALE MATERIAL MODELING

Simcenter enables you to zoom into the material microstructure to identify the root cause of failure and see what damage mechanisms affect structural performance. Optimize your material microstructure for the most cost-efficient performance.

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