Alternatives to Ansys Mechanical

SimSolid is the revolutionary simulation technology for engineers, designers, and analysts. It performs structural analyses on fully-featured CAD assemblies in minutes. SimSolid eliminates geometry preparation, meshing, and other errors that are time-consuming and difficult to perform in conventional structural simulations. Multiple design scenarios can be simulated quickly under real-life conditions. You can use any CAD model, even an early one. SimSolid tolerance for imprecise geometry means SimSolid simulation tools don't need to be simplified before analyzing designs. SimSolid supports all types of connections (bolt/nuts, bonded, rivets and sliding) and analysis for linear static, modal, and thermal properties. It also supports complex coupled, nonlinear, dynamic effects.

Ansys MotorCAD is a dedicated tool for electric machine design. It allows you to quickly simulate multiphysics across the entire torque-speed operating range. Motor-CAD allows engineers to evaluate motor topologies across the entire operating range. This allows them to create designs that are optimized for size, efficiency, and performance. Motor-CAD software's four modules, Emag, Therm Lab, Mech, allow multiphysics calculations to be performed quickly, iteratively, and users can move from concept to final design in a shorter time. Motor-CAD users can explore more motor topologies and fully evaluate the impact of advanced loss effects during the initial stages of an electrical mechanical design with Motor-CAD's streamlined data input process. This release features powerful new features for design optimization and multi-physics analysis, as well as system modeling for electric motors. Multiphysics simulations are fast across the entire torque-speed range.

Engineering groups are using niche software tools from different vendors to simulate product attributes. Multi-vendor software products can lead to inefficiencies and increase costs. SIMULIA offers a scalable suite unified analysis products that allows all users, regardless their simulation expertise or domain focus to collaborate seamlessly and share simulation data and approved methods without losing information fidelity. Abaqus Unified FEA offers powerful and complete solutions to complex engineering problems across a wide range of industrial applications. Automotive industry engineering groups can consider full vehicle loads, dynamic vibrations, multibody systems and impact/crash using a common model structure and integrated solver technology.

SkyCiv Structural 3D, a cloud-based Structural Analysis program, allows users to design, analyze, and model complex 3D structures. It can be used online and does not require installation. SkyCiv Structural 3D is the best online structural analysis. It includes the following: – Powerful Analysis: Linear and P-Delta Cables, Buckling Plates, Frequency RS - Integrated design checks for steel, wood connections, foundations wind (AISC. NSD. AISI. EN. AS. CSA. BS plus more ...)

SPACE GASS is a 3D analysis and design program that can be used for multiple purposes. It is able to design beams, trusses, frames, buildings, towers and tanks, as well as cable structures and bridges. Capabilities include a 64-bit multi-core solver, silky smooth 3D rendered graphics, plate finite elements, frame elements, cable elements, tension/compression-only elements, moving loads and links to many CAD and building management programs. Why SPACE GASS? You can save time and money by choosing a safe and effective design. A silky smooth interface allows you to see your changes visually. A fast sparse matrix solver which fully exploits multi-core processors' parallel processing power. There are many structural modeling tools, analysis options, and design modules. Video tutorials that will guide you through the difficult stuff. For use in floating or stand-alone networks.

Your designs can be tested under real-world conditions to improve product quality and reduce prototyping and testing costs. SOLIDWORKS®, Simulation is a simple-to-use suite of structural analysis tools that uses Finite Element Analysis to predict a product’s real-world physical behavior. This can be done by virtually testing CAD models. The portfolio offers dynamic, static, and linear analysis capabilities. SOLIDWORKS Simulation Professional allows you to optimize your design, determine product mechanical resist, product durability, and test heat transfer instabilities and buckling instabilities. It can also perform multi-physics sequential simulations. SOLIDWORKS Simulator Premium allows you to efficiently evaluate your designs for dynamic response, nonlinear, and composite materials. SOLIDWORKS Simulation Premium offers three advanced studies: Nonlinear Dynamic, Linear Dynamics, and Non-Linear Static.

Software for finite element analysis using CAD-embedded software. You can use a wider range of study types and materials to aid your analysis. Inventor®, Nastran®, provides finite element analysis tools for engineers and analysts. Simulation includes many types of analysis, including dynamics, heat transfer, linear and nonlinear stress and dynamics. Inventor Nastran can only be found in the Product Design & Manufacturing Collection. The Product Design & Manufacturing Collection includes advanced simulation, 5-axis CAM and nesting tools, as well as AutoCAD and Fusion 360.

GT STRUDL®, a structural engineering software, offers a complete solution. It includes 3D CAD modeling and 64 bit high-performance computation solvers in all versions. GT STRUDL has all the tools needed to analyze a wide range of structural engineering and finite elements analysis problems. It can do this accurately in a fraction the time it takes to use other structural design software. Structural design software is used by structural engineers to create safe and effective designs. It also helps them manage the complexity of many scenarios across a variety of industries, such as power, civil engineering and marine. GT STRUDL includes many quality features such as interoperability and structural analysis, database-driven designing, and quality assurance.

FloCAD®, a fluid dynamics module for Thermal Desktop®, and together they provide a complete thermohydraulic tool for integrated fluid flow analysis and heat transfer analysis. FloCAD is very similar to building thermal models. Many of the commands can be used to build fluid flow models. FloCAD models are available in two formats: they can be free-form (non geometric), sketchpad-style flow network modeling for abstraction, simplification, and convection to finite differences of finite element representations. FloCAD is a generalized software tool for capturing pressure drops in a piping system due to bends and valves, tees and changes in flow area.

Simcenter Nastran is a leading finite element method (FEM), solver for computational performance and accuracy, reliability, and scalability. Simcenter Nastran offers powerful solutions for structural analysis, optimization, aeroelasticity, thermal analysis and rotor dynamics. Simcenter Nastran provides all the solutions in one solver. This simplifies modeling and makes it easier to use all solution types. Simcenter Nastran is available as a standalone enterprise solver and as an integrated solver within Simcenter 3D. It helps manufacturers and engineering suppliers in aerospace, electronics, heavy machine, medical device, and other industries with their critical engineering computing requirements so they can produce safe and reliable designs in shorter design cycles.

nCode DesignLife is an online design tool that identifies key locations and calculates realistic fatigue life from leading finite element results for metals and composites. Designers can do more than simple stress analysis. They can simulate actual loading conditions and avoid costly design changes. Products can include functions for fatigue of welds and vibration fatigue, crack growth detection, fatigue in composites, and thermo-mechanical fatigue analysis. Advanced technology for multiaxial, vibration, crack growth and thermo-mechanical fatigue. A graphical interface that makes it easy to perform fatigue analysis using the most popular FEA results data such as ANSYS, Nastran and Altair OptiStruct. Multi-threaded and distributed processing capabilities to process large finite element models as well as complete usage schedules.

Ansys Sherlock, a reliability-physics-based electronic design tool, provides fast and accurate life predictions at the component and board levels for electronic hardware in early design stages. Ansys Sherlock automates the design analysis of electronic hardware. It provides accurate and fast life predictions at the component, board, and system levels during early design stages. Sherlock bypasses the 'test-fail-fix-repeat' cycle by empowering designers to accurately model silicon-metal layers, semiconductor packaging, printed circuit boards (PCBs) and assemblies to predict failure risks due to thermal, mechanical and manufacturing stressors--all before prototype. Sherlock quickly converts embedded libraries containing more than 500,000 parts into computational fluid dynamics and finite element analysis models. Each model includes accurate geometries, material characteristics, and stress information.

VisualAnalysis is used by thousands of professionals to meet deadlines. Customers describe it as "a great value" with "so much ease of use". You need tools that are easy to use and affordable. 3D models of buildings, tanks, towers etc. Static and dynamic response analyses. Design code checks for wood, concrete, steel, cold-formed steel and aluminum. Includes complete analysis and design features, including automatic plate meshing and nonlinear elements. 3D static and Dynamic FEA for civil engineering, mechanical, aerospace, or any other structural analysis. Support for building code load combinations is optional.

Inspire is a collaborative tool that accelerates the creation, optimization and study of innovative and structurally efficient parts and assemblies. It can be used early in product development. Inspire's award-winning user experience for geometry modification and creation can be learned in a matter of hours and delivers reliable Altair solver power. As independently validated and verified by NAFEMS, structural analysis can be performed with the speed and accuracy provided by Altair®. SimSolid® allows for the analysis of large assemblies and complex parts. Dynamic motion simulation and loads extraction using the reliable multi-body system analysis of Altair®, MotionSolve®. The industry standard for structural efficiency, topology optimization of Altair® OptiStruct®, for the generative designing of practical, viable and manufacturable geometries. Inspire allows both designers and simulation analysts to do what-if analyses faster, easier, earlier, and more collaboratively.

SwiftComp is a multiscale, multiphysics composite sim code that delivers 3D FEA accuracy at the speed of simple engineering models. SwiftComp makes it possible for engineers to model composites as easily and accurately as metals using traditional structural elements in their FEA codes. This allows them to capture all the microstructural details while preserving accuracy. SwiftComp enables unified modeling of 1D (beams), 2D(plates/shells) or 3D structures. This allows for the calculation of all the effective properties. SwiftComp can be used independently to simulate composite testing or as a plug in to your existing structural tools that support high-fidelity composites modeling. SwiftComp can calculate the best structural model to use in macroscopic structural analysis and perform dehomogenization in order to compute the pointwise stresses within the microstructure. SwiftComp interfaces directly with ABAQUS and ANSYS.

With STAAD, you can design, analyze and document structural projects anywhere in the world. It provides a flexible solution that covers all aspects of structural engineering, starting from the foundation. STAAD is a comprehensive structural finite elements analysis and design program that allows users to analyze any structure that is exposed to dynamic, wind, earthquakes, thermal, and other moving loads. STAAD is available in a variety of versions so you can choose the one that suits you best. STAAD is a popular application for structural analysis. It is well-known for its flexibility, interoperability, time-saving abilities, and analysis. STAAD is a 3D structural analysis tool that allows structural engineers to design steel and concrete structures. An analysis model can be created from a physical model created with the structural design software. STAAD incorporates many design code standards.

SolidFEA, our innovative solid finite-element analysis tool, is designed to make advanced structural design affordable and accessible. It is powered by the Calculix engine and offers detailed sub-model analyses at a lower cost and with less hardware than competitors such as Abaqus. SolidFEA is ideal for complex engineering challenges such as steel connections and bridge design. Its ease of use, IFC file compatibility and ease of use make it a great complement to our GenFEA structural analysis software. SolidFEA is a revolutionary step in structural engineering, bridging a gap that existed for ages due to prohibitive costs, complicated learning curves and high-end computing demands associated with solid finite elements analysis (FEA). It is designed for ease of use and supports IFC file formats, making it an easy addition to engineering workflows.

Multiphysics software from COMSOL allows you to simulate real-world designs, processes, and devices. Multipurpose simulation software that uses advanced numerical methods. Fully coupled multiphysics and single physics modeling capabilities. The entire modeling process, from geometry to postprocessing. Easy-to-use tools for creating and deploying simulation applications. The COMSOL Multiphysics® software provides a consistent user interface regardless of engineering application or physics phenomena. Add-on modules offer specialized functionality for electromagnetics and structural mechanics. You can choose from a variety of LiveLink™, products to interface with CAD or other third-party software. COMSOL Server™ and COMSOL Compiler™, allow you to deploy simulation applications. This software platform allows you to create simulation applications and physics-based models.

Fatigue Essentials is a desktop program that can be used to efficiently perform structural fatigue analysis. Fatigue Essentials is a user-friendly program that allows you to conduct stress-life analyses using either classical stress calculations or linked to FEMAP™, and using the finite element-generated stresses. The program follows a tree structure to guide users through the analysis. The following load, material, and spectrum branches provide general options for analysis. There are options for input methods and variations within each branch. Analyses results can be viewed on-screen and used to create reports or damage contour plots in FEMAP. Covers most engineering requirements. Classic mode with user input stress. Professional mode (FEMAP-linked). This mode allows you to read nodal stress and push back results in damage contour plots. You can choose to either input stress and cycles interactively or file input.

AxisVM's primary uses are in the design and construction of buildings and industrial and geotechnical structures. It is a powerful finite element solver, as well as practical modeling tools. This allows it to be used in bridge design and the design of composite structures, vehicles, and machines. There are optional design modules available for structures made from reinforced concrete, steel and timber, as well as masonry members and connections. AxisVM's special elements and analysis capabilities allow users to design innovative and custom structures. Reports can be created using drawings, tables, and detailed design calculations. Reports can be automatically updated, i.e. Reports are generated using the most recent model data and results.

S-FRAME allows users to model, analyze, and design any structure, regardless of its geometry, material type, loading conditions or nonlinear effects. S-FRAME's automated frame generators quickly create models and import them with BIM or DXF import links. Users can also maximize productivity with integrated concrete/steel design tools that allow for design, optimization, code compliance and report generation. S-FRAME allows users to quickly create structures using modeling automation. They can generate regular framework structures and custom trusses. Users can also use clone tools for replicating a portion or all of the model. Importing existing BIM or DXF models can also help users save time. S-FRAME's advanced meshing tools create a finite element mesh. This allows users to generate detailed analysis results for their specific areas. These areas can be explored by users easily converting members into multi-shell models.

In times of tight schedules or limited resources, integrated solutions are crucial. RIBTEC provides many synergies in calculation design, construction, and design. In the context of Building Information Modeling (BIM), you can benefit from a faster data flow that streamlines the entire process of structural design. RIB's software solutions are available for structural engineers. They include building, ground, and finite element calculations as well as tunnel and bridge construction as well as the drawing of formwork or reinforcement plans. Since 1961, RIB has been a pioneer in structural design and FEM. Over 5,000 engineering offices, inspection and construction engineers, as well as planning departments from the public and private sectors use the RIBTEC programs. RIBTEC covers all aspects of structural design with more than 100 programs.

Patran offers a set of powerful tools to help you create analysis-ready models for linear, nonlinear and explicit dynamics solutions, thermal solutions, and more. Patran's tools make it simple for anyone to create FE-models. From geometry cleanup tools to help engineers deal with gaps and slivers, to solid modeling tools to allow creation of models completely from scratch, Patran is easy to use. Surfaces and solids can be meshed using fully automated routines, manual methods for more control, or a combination of both. Finaly, loads, boundary condition, and analysis setup are built-in for most popular FE Solvers, reducing the need to edit inputs. Patran's comprehensive, industry-tested capabilities ensure that virtual prototyping efforts deliver results quickly so that you can evaluate performance of products against requirements and optimize designs.

MSC Nastran is a multidisciplinary application for structural analysis that engineers use to perform static, dynamic and thermal analysis in the linear and nonlinear domains. It also includes automated structural optimization and award-winning embedded fatigue analysis technologies. All of this is enabled by high performance computing. MSC Nastran is used by engineers to ensure structural systems are strong, stiff, and durable. This helps to prevent structural failures (excess stress, resonance, buckling or other detrimental deformations) which could compromise structural function and safety. MSC Nastran can also be used to improve structural designs' economy and passenger comfort. Creating industry-leading product differentiations or optimizing existing designs can lead to industry advantages. Reduce downtime and costs by resolving structural problems that may arise during product service.

TechCalc 100 engineering software contains 100 practical calculations for mechanical, structural, electrical and mechanical, as well as machine shop, manufacturing, and physics applications. This is a valuable tool for engineers involved in all aspects. Designerswest is a technical publisher of TechCalc100 engineering/scientific calculation software. Turn your calculating hours into seconds with our popular TechCalc100 engineering/scientific calculation software. TechCalc 100 provides a wide range of practical calculations for physics, mechanical, electrical, and structural applications. TechCalc100 is an easy-to-use calculating tool that can be used by students, designers, architects, building contractors, mechanical engineers, structural engineers, electrical engineers, manufacturing engineers, machinists and product designers, as well as HVAC technicians, welders and industrial designers. There is no need to rewrite formulas or replace unknown variables.

SimScale, a web-based cloud application, plays an important role in simulation software for many industries. The platform supports Computational Fluid Dynamics, Finite Element Analysis (FEA), as well as Thermal Simulation. It also provides 3D simulation, continuous modeling, motion & dynamic modelling.

Flexible and powerful preprocessor for high-quality finite element meshes. Attractive price - up to a factor of ten lower than their foreign counterparts. Calculation of strength under dynamic and static loading. Calculation of vibration modes and natural frequencies. Calculation of critical loads, buckling modes and critical loads. Calculations in 2D and 3D for volumetric, thin-walled, and bar structures. Elastoplastic deformation according the mises and Drucker-prager models. Calculation of strength for large displacements. Calculation of temperature, heat loss, and temperature deformations of parts or structures. Calculation of strength for highly elastic materials.

MechaniCalc, Inc. developed MechaniCalc, a suite web-based calculators that focuses on machine design and structural analysis. These calculators provide detailed and comprehensive analysis that is expected in the industry, but are also intuitive and easily accessible. These calculators make it easier to navigate through design and analysis processes faster and more confidently. We offer a complete suite of calculators that automate the analysis and design of mechanical engineering. Each calculator comes with detailed documentation that includes instructions for use and validation cases to show how the results compare to solutions to example problems. We offer detailed reference material on mechanical engineering subjects and the methodology behind the calculators. Access to all calculators and other content is unlimited. Ability to create new materials or cross-sections that can be used in the calculators.

Engineers and researchers can use WELSIM finite-element analysis software to create prototype virtual products and conduct simulation studies.

The FEA program RFEM enables quick and easy modeling, structural, and dynamic calculation as well as the design and construction of models with member and plate, wall, folded plates, shell, shell, and other solid elements. Modular software allows you to connect the main program RFEM to the appropriate add-ons to meet your specific requirements. Structural analysis program RFEM 6 offers structural engineers a 3D FEA tool that meets all modern civil engineering requirements. Simple and complex structures can be modelled with ease thanks to efficient data input and intuitive handling. The basis of a modular software program is the structural analysis program RFEM. The RFEM basic program is used to create structures, materials, loads, and plans for spatial and planar structural systems that include plates, walls, shells and members. You can also create mixed structures and model contact elements.

Simufact welding is a modular product line that provides extensive functionality for modeling the elastic-plastic behavior and structural weld simulation. The software can be used to simulate different welding processes. Simufact Welding allows you to simulate a wide variety of thermal joining processes using structural welding simulation. This includes brazing, arc and beam welding processes. Simufact Welding also allows you to model heat treatment, variations of cooling, unclamping setups, and mechanical loading of welded structures.

CalculiX allows you to build, calculate and post-process Finite Element Models. The interactive 3D tool for the pre- and after-processor uses the openGL API. The solver can perform linear and nonlinear calculations. There are solutions for static, dynamic and thermal problems. Both programs can run independently. The solver uses the abaqus format for input, so it is possible to use pre-processors from commercial companies. The pre-processor can write mesh data for nastran abaqus ansys code-aster as well as the free-cfd-codes dolfyn duns ISAAC OpenFOAM. Included is a simple step reader. External CAD interfaces can also be used. The program can run on Unix platforms such as Linux and Irix but also on MS Windows.

Ansys LSDYNA is the industry's most popular explicit simulation software. It can be used for applications such as drop tests, impact and penetration, occupant safety, and many more. Ansys LS DYNA is the most widely used explicit simulation program in this country. It can simulate the response of materials to short periods and severe loading. You can simulate complex models using the many elements, contact formulas, material models, and other controls. LS-DYNA provides a wide range of analyses with fast and efficient parallelization. Engineers can solve simulations that involve material failure. They can look at how the failure progresses through parts or through systems. It is possible to model complex interactions between parts and surfaces, as well as the load passing and interactions between them.

Every project is difficult, but the geotechnical analysis does not have to be. PLAXIS 2D offers fast computations. Advanced finite element and limit equilibrium analysis of rock and soil deformation and stability. Also, soil structure interaction, groundwater and heat flow. PLAXIS 2D, a powerful and easy-to-use finite-element software for 2D analysis and stability in geotechnical and rock mechanics, is available. PLAXIS is used by the top engineering firms and institutions in civil and geotechnical engineering. PLAXIS 2D can be used for many applications, including excavations, foundations, embankments, and foundations, as well as tunneling, mining and oil and gas extraction. PLAXIS 2D provides all the necessary tools to perform safety analysis and deformation of soil and rock. It does not need to take into account creep, steady-state groundwater, thermal flow, consolidation analysis or any other time-dependent effects.

GenFEA is a testament to the dedication and enthusiasm of our team, born out of years spent in research and development. This 'passion-project' is now poised to revolutionize the industry thanks to its AI enhanced features that bring the latest technological advancements to global market. GenFEA is poised to make an impact on the AEC industry, with its innovative solutions. Structural Engineering software has been characterized for years by steep learning curves and steep prices. It also has a noticeable delay in integrating new technologies. GenFEA's goal is to make advanced structural analysis and design software accessible, user-friendly and up-to-date with the cutting edge technologies of our time. GenFEA does this by leveraging the latest artificial intelligence, providing an intuitive user experience and ensuring affordability.

HyperWorks offers easy-to-learn and effective workflows that leverage domain expertise and increase team productivity. This allows for efficient development of today's complex and connected products. Engineers can now move seamlessly from one domain to another with the new HyperWorks experience. They can even create reports without ever leaving the model. HyperWorks allows you to create, explore, and optimize designs. These designs can accurately model structures, mechanisms and fluids as well as electrical, embedded software, systems designs, and manufacturing processes. The solution-specific workflows improve a variety of engineering processes, including fatigue analysis, CFD modeling, concept design optimization, design exploration, and CFD modeling. Each interface is intuitive and well-designed, and differentiated for each user. It's also consistent and easy to use.

Simulating and analyzing your product design will reduce the cost of physical prototyping and increase your products' durability and reliability. It is crucial to your product development to use digital prototypes to understand the performance of your designs in real-world situations. Creo Simulation was designed exclusively for engineers. It includes structural, thermal and vibration analysis solutions, as well as a comprehensive set finite element analysis (FEA). You can validate and analyze the performance of 3D virtual prototypes with Creo Simulation before you even make the first part. We offer unique and flexible simulation solutions to our customers. This section will give you a better understanding of what we can do to meet your needs. Contact a Creo representative if you have any questions regarding our tool stack.

Ansys Motion is now available in the Mechanical interface. It is a third-generation engineering solution that uses a multibody dynamics solver. It allows for fast and accurate analysis both of rigid and flexible bodies. Additionally, it provides accurate evaluations of physical events by analyzing the entire mechanical system. Ansys Motion employs four integrated solutions: rigid body, flexible, modal, and meshfree EasyFlex. This gives you unprecedented capabilities to analyze systems and mechanism in any combination that you choose. With the inclusion of contact and flexibility, large assemblies can be studied with millions of degrees of freedom. These systems can then be connected and loaded using standard connections and joints. Simulating in Ansys Motion through the same interface as regular structural analysis allows you to save time and make your model work for multiple purposes.

Simpack is a general multibody simulation (MBS), which allows engineers and analysts to simulate non-linear motions of any mechanical or mechatronic systems. Simpack allows engineers to create and solve virtual 3D models to simulate dynamic motion, coupling forces, and stresses. Simpack is used in the automotive, engine and HIL/SIL/MIL sectors. However, it can also be applied to other branches of mechanical engineering. Simpack simulation software is especially well-suited for high frequency transient analysis, even in the acoustic range. Simpack was originally designed to handle complex nonlinear models with flexible bodies, and severe shock contact.

Fusion 360 brings together design, engineering, electronics and manufacturing in one software platform. Get integrated CAD, CAM, CAE & PCB on a single development platform. EAGLE Premium, HSMWorks and Team Participant are also included. You also have access to consumptive services such as cloud simulation, generative design, and cloud rendering. A comprehensive range of modeling tools is available to help you design products. You can ensure the form, fit and function of your products using a variety of analysis methods. You can create and edit sketches using sketch constraints, dimensions, as well as a powerful suite if sketch tools. Edit and repair imported geometry from non native file formats. You can make design changes without worrying too much about time-based features. Edit complex parametric surfaces to repair, patch or design geometry. You can create history-based features such as extrude, revolve and loft that are updated with design changes.

Simcenter Femap is an advanced simulation program that allows you to create, edit, and inspect finite element models of complex products and systems. Simcenter Femap allows you to create complex models of components, assemblies, and systems. This allows you to determine the model's behavior when it is exposed to real-world conditions. Simcenter Femap, which is a powerful data-driven and graphically driven results visualization and evaluation, can be combined with Simcenter Nastran to provide a comprehensive CAE solution that enhances product performance.

Simulate the reaction of materials to short-term severe mechanical loadings, high pressures, and even explosions. Ansys Autodyn offers advanced solutions without compromising ease-of-use. Ansys Autodyn allows you to quickly understand large material deformations and failures. Autodyn offers a variety of models that can be used to model complex phenomena like the interaction between liquids, solids, and gases; phase transitions in materials; and the propagation and propagation of shock wave. Ansys Autodyn integrates within Ansys Workbench, and has its own native-user interface. This allows you to produce precise results in a short time and with minimal effort. The smooth particle hydrodynamics solver completes this picture and provides everything necessary for explicit analysis. Ansys Autodyn allows you to choose from different solver technologies, so that the most effective one can be used for a particular part of the model.

e-Xstream Engineering develops and commercializes Digimat software, a state of the art multi-scale material modeling technology that accelerates the development process for composite materials. Digimat is a core technology for 10xICME Solution. It is used to perform detailed analysis of materials at the microscopic level, and to develop micromechanical material models that are suitable for multi-scale coupling at the micro- and macro-scale levels. Digimat material models allow for the combination of processing simulation and structural FEA. This allows for more predictive simulation, taking into consideration the effect of processing conditions on the final part's performance. Digimat is a predictive and efficient tool that allows users to design and produce innovative composite materials and parts in a short time span.

You can easily create complex concrete geometry, including single-level, ramps, or multi-story structures, using robust modeling tools and import from CAD/BIM software. Utilizing true 3D finite element analysis, load takedown and slab alignment, you can efficiently analyze slabs and entire structures for the combined effects gravity, lateral, or vibration loading. ADAPT-Builder lets you control all aspects of the design, including cracking, long term deflections and punching shear. This allows you to accurately and comprehensively examine an existing reinforced concrete slab. Whatever your concrete design requirements are, ADAPT software can help. Compare packages to get started. ADAPT Builder is the 3D modeling platform, analysis and design platform for ADAPTFloor Pro, Edge and MAT. Modeler can also be used in conjunction with ADAPTPT-PT or RC.

RS2 allows you to easily analyze stress/deformation and stability of any project, regardless of whether it is above ground or below ground. RS2's integrated Seepage Analysis Tool allows you to factor in groundwater flow for both steady-state and transient conditions. Automate your slope stability analysis using shear strength reduction. This performs a finite element analyze to determine the critical strength reduction factor. You can analyze embankments using slope stability, groundwater leakage, consolidation, or dynamic analysis. Groundwater and dynamic analysis tools are available in RS2. There is also a large library of advanced constitutive models that can be used to capture the sudden loss in strength caused by liquefaction. This tool is suitable for both underground and open-pit excavations. It can analyze stability, stress/deformation and bench design. It also supports the design and support of underground caverns.

CONSELF allows you to use Computational Fluid Dynamics and Finite Element Analysis (FEA), which can be used to improve the design of your product: minimize drag and fluid dynamics losses; maximize heat exchange performances; estimate pressure loads; verify material resistance; evaluate components shape deformation; calculate natural frequencies, modes and other modes. Structural Mechanics can be performed dynamically or statically, using both elastic and non-elastic materials. You can also perform frequency and modal analyses starting from the most common CAD neutral file formats.

Dymola, dynamic modelling laboratory, is a comprehensive tool for modeling and simulating complex and integrated systems for automotive, aerospace robotics, process, and other applications. Dymola's Modelica and simulation technology enable you to quickly solve multi-disciplinary system modeling and analysis problems. Dymola provides a complete environment for modeling, simulation, testing, and post-processing. Dymola, Dynamic Modeling Laboratory is a comprehensive tool for modeling and simulating complex and integrated systems. It can be used in automotive, aerospace robotics, process, and other applications. These libraries were developed by domain experts and can be used in conjunction with Dymola and 3DEXPERIENCE Dymola Behaviour Modeling to quickly model and simulate complex systems that span multiple engineering disciplines. FMI allows any modeling tool or tool to generate C code and binaries that represent a dynamic system model.

LIRA-SAPR is a comprehensive software package that uses BIM technology. This software is used to analyze and design different types of mechanical and building engineering structures. - Dynamic (forces and displacements), and static analyses - Selection and inspection of sections of steel and/or reinforced cement (RC) structures - Preliminary drawings for steel structures and separate RC elements

Oasys software is known for its innovative solutions. They are distinguished by their intuitive interfaces, speed and power that allow users to quickly and economically test ideas. Engineers can easily define and solve complex design problems with confidence that they are compliant with international standards and compatible with other top-rated packages. Oasys software tools can be purchased individually or in discounted bundles with related tools. Oasys Software provides a variety of analysis and design solutions to building, bridges, geotechnical, and pedestrian movement. Comprehensive engineering solutions for architects, engineers, builders, students, consultants, planners and many other disciplines. Oasys can help you design and analyze any structure, no matter how simple or low-rise.

Azore is software for computational fluid dynamics. It analyzes fluid flow and heat transfers. CFD allows engineers and scientists to analyze a wide range of fluid mechanics problems, thermal and chemical problems numerically using a computer. Azore can simulate a wide range of fluid dynamics situations, including air, liquids, gases, and particulate-laden flow. Azore is commonly used to model the flow of liquids through a piping or evaluate water velocity profiles around submerged items. Azore can also analyze the flow of gases or air, such as simulating ambient air velocity profiles as they pass around buildings, or investigating the flow, heat transfer, and mechanical equipment inside a room. Azore CFD is able to simulate virtually any incompressible fluid flow model. This includes problems involving conjugate heat transfer, species transport, and steady-state or transient fluid flows.