Struggling to choose between SOLIDWORKS and ANSYS Workbench? Both products offer unique advantages, making it a tough decision.
SOLIDWORKS is a Development solution with tags like 3d-modeling, cad, design, simulation, manufacturing.
It boasts features such as 3D CAD modeling, Assembly design, 2D drafting, Simulation and analysis, Data management, Manufacturing tools and pros including User-friendly interface, Powerful modeling capabilities, Integrated design ecosystem, Wide range of add-ons and customizations, Large user community and resources.
On the other hand, ANSYS Workbench is a Development product tagged with finite-element-analysis, structural-analysis, thermal-analysis, fluid-analysis, electromagnetic-analysis, multiphysics.
Its standout features include Pre-processing - Model building, meshing, loads/boundary conditions application, Solver engines - Structural, thermal, fluid, electromagnetic solvers, Post-processing - Contour plots, animations, graphs, reports, Multi-physics simulations, Parametric and optimization studies, Customization with scripting languages, and it shines with pros like Integrated workflow for pre-processing, solving and post-processing, Wide range of physics and engineering simulation capabilities, User-friendly interface and tools, Interoperability with CAD software, Scripting and automation capabilities, Trusted and widely-used in industry.
To help you make an informed decision, we've compiled a comprehensive comparison of these two products, delving into their features, pros, cons, pricing, and more. Get ready to explore the nuances that set them apart and determine which one is the perfect fit for your requirements.
SOLIDWORKS is a 3D CAD software used for modeling and designing products and parts. It provides tools for sketching, 3D part and assembly modeling, generating 2D drawings, simulation and analysis, data management, and manufacturing. SOLIDWORKS aims to increase productivity and easy of use.
ANSYS Workbench is engineering simulation software used for finite element analysis. It has a wide range of applications in structural, thermal, fluid, and electromagnetic simulations across industries like aerospace, automotive, energy, and electronics.