Ansys Discovery SpaceClaim

Ansys Discovery SpaceClaim is a multipurpose 3D modeling application providing efficient solutions to common modeling tasks.

Built on the direct modeling technology, Discovery SpaceClaim removes geometry problems associated with various 3D CAD operations, such as design or concept modeling, repair of translated CAD files, general model defeaturing, and complete model editing. With it's premise of ease of use and simplicity, you'll find Discovery SpaceClaim to be extremely valuable in tackling small to large modeling problems.

 

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CASE STUDY

Optimizing the performance of antennas installed on avionics platforms

Rapid and accurate evaluation of platform impact on antenna radiating characteristics is vital

This article discusses the use of the Ansys HFSS SBR+ method for wave propagation analysis that is based on specific EM propagation formulations (commonly referred to as Asymptotic Methods), and which offers an effective alternative in terms of solution accuracy and computational cost. The method’s effectiveness is demonstrated in this case study that considers the analysis of an ESM sinuous antenna installed on an avionics platform.

ansys electronics

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Ansys SpaceClaim – Meccanica

Il corso introduce al software ANSYS SpaceClaim Direct Modeler (ANSYS SCDM), strumento per la manipolazione di geometrie CAD.

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Our Expertise in Ansys Discovery SpaceClaim

CASE STUDY

A natural remedy for hot-spot stresses

Using advanced mesh morphing to seamlessly perform bio-inspired structural shape optimization

This paper demonstrates how the biological growth method, studied by Mattheck in the 1990s, can be easily implemented for structural shape optimization finite element method (FEM) analyses using advanced radial basis functions (RBF) mesh morphing.

ansys biomechanics rbf-morph

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CASE STUDY

The use of virtual prototyping tools in the design of Generation IV Nuclear Energy Systems

Interview with Fabrizio Magugliani, Sr. Engineer, Aero/Thermo Analytical Design, Ansaldo Nucleare SpA

Two main reasons have been the drivers for introducing and using CAE simulation technologies and mathematical modeling: safety and achieving optimal design.

ansys energy

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CASE STUDY

CFD Characterization of the Ventricular Assist Device HeartAssist 5® Through a Sliding Mesh Approach

Analysis to determine possible optimizations to enhance device safety and efficacy for long-term patient use

This technical article describes how high-end numerical Computational Fluid Dynamics (CFD) simulations were applied to mimic the realistic operating conditions of a Ventricular Assist Device (VADs) and analyze its hemodynamics in order to identify potential areas for optimization of the device’s performance, safety and efficacy.

ansys cfd biomechanics

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