Alternatives to PoligonSoft

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.

Orbital Stack, an AI and CFD web-based program, provides earlier qualitative guidance. It compares a wide range of land-use options and shapes, and highlights any red flags. It allows for climate-conscious, high performance developments that are not possible with traditional studies. Orbital Stack was developed by world-renowned experts in microclimate engineering and wind. It is a game-changer in the architecture and building design industry, providing our clients direct access for wind comfort and safety analysis as well as thermal comfort and shadowing analysis and cladding pressure simulations. This allows architects to quickly understand the climate effects of their proposed building designs and make better decisions, resulting in more resilient and high-performing projects.

ReliaSoft provides a powerful set of reliability software solutions that facilitate a comprehensive range of reliability engineering modeling techniques and analysis techniques. We are the leading provider of reliability solutions for product testing, design, maintenance strategies and optimization. Our products support a variety of reliability and maintainability techniques, including life data analysis, accelerated lifetime testing, system modeling and RAM analysis. We also support reliability growth, FRACAS analysis, FMEA analysis and RCM analysis. These tools help you improve the reliability of your products and processes, and optimize maintenance planning.

The initial off-tool components you received have finally arrived, but they come with the unfortunate realization of pinholes, shrinkage, or hot spots. Faced with an impending deadline, you find yourself at a crossroads: to either ship these flawed parts and risk disappointing your customer or return to the design phase to pinpoint and rectify the issue, hoping that the revisions will yield a flawless result. Additionally, since the trial phase of your casting development is often underestimated, ensuring that your gating design can withstand process variations before reaching the testing stage becomes crucial. Thankfully, with ESI ProCAST, you can achieve a successful casting outcome on your first attempt consistently—allowing you to meet deadlines without incurring costs from scrap parts or unnecessary redesigns. For many years, clients have turned to ProCAST as their essential resource for mastering the fundamentals of casting, such as filling, solidification, and porosity predictions. Moreover, its advanced finite element technology extends to forecasting complex challenges, including deformations and residual stresses, thus enhancing your overall production efficiency. As a result, utilizing ProCAST not only streamlines the casting process but also bolsters your reputation for quality and reliability in the market.

MAGMASOFT® serves as a powerful optimization tool designed to enhance the quality of metal casting, streamline process conditions, and minimize production expenses. By leveraging the principles of virtual Design of Experiments and Autonomous Optimization, it facilitates the establishment of robust process parameters and optimized casting configurations applicable to all types of cast materials and processes, which include heat treatment and melt metallurgy. This dual efficiency ensures comprehensive results in a single platform. Through the application of autonomous engineering™, MAGMASOFT® allows for the implementation of automated virtual test plans aimed at achieving various quality and cost goals simultaneously. The system generates extensive knowledge and practical guidance tailored to the specific design and process conditions pertaining to mold filling, solidification, and cooling. Additionally, the outcomes encompass critical aspects such as residual stresses, distortion, microstructural development, and localized material properties, providing a thorough understanding of the casting process. Ultimately, MAGMASOFT® transforms the optimization landscape by combining advanced simulations with actionable insights for manufacturers.

SoftCAST™ is a highly acclaimed software solution designed for metal casting simulations, catering specifically to foundries and investment-casting operations. This innovative tool enables engineers to visualize and analyze the casting process, effectively allowing for the identification of possible defects and quality concerns before physical production begins. With its user-friendly design modules, SoftCAST™ streamlines the creation of new products and processes while also offering avenues for enhancing existing ones. It is adaptable for various production methods, including mass production, batch production, and jobbing lines, making it versatile for different manufacturing needs. The software excels at simulating a wide range of casting challenges, accommodating both simple and complex mold designs, as well as varying weights and thicknesses of castings. A key advantage of SoftCAST™ over rival products is its integration of method design modules alongside its simulation capabilities, providing users with a comprehensive tool for optimizing their casting operations. This unique combination not only enhances efficiency but also empowers engineers to elevate the overall quality of their cast parts.

AnyCasting Software has established itself as a premier casting simulation tool for more than two decades. At present, we collaborate with manufacturers in sectors such as automotive, maritime, heavy materials, and electronics, having successfully sold over 600 licenses globally while providing expert consulting for more than 470 projects across various regions. The software offers advanced stress analysis capabilities, allowing users to effectively simulate deformation alongside heat and stress factors, while also facilitating automatic mold design to help in achieving the best mold configurations. Among our satisfied domestic clients are notable names like Hyundai Motors, Hyundai Heavy Industries, Samsung Electronics, and LG Electronics, among others. Furthermore, the software allows for precise identification of gas defects that may arise from air entrapment during the filling and flowing of molten material. By analyzing the pressure differentials between air and the melt, our technology successfully pinpoints these gas defects, enhancing the overall quality and efficiency of the casting process. This level of detail and precision showcases the software's commitment to improving manufacturing outcomes.

Harness the advantages of natural solidification thermal analyses with a cost-effective and efficient software solution. CAPlite is equipped with a user-friendly graphical interface, making it accessible for users with limited experience in casting software. Beginning with a CAD design, CAPlite provides a thorough walkthrough for every phase, from meshing to post-processing. The method of natural solidifications offers rapid thermal simulations, delivering results in mere minutes. Whether for die casting or sand casting, CAPlite is capable of pinpointing issues across all casting types. The straightforward nature of natural solidifications enhances your entire casting workflow, enabling the design of risers, gating, and chill configurations to detect flaws, while also aiding in visualizing the intricate solidification process. In addition to the robust features of natural solidifications, CAPlite offers even more resources, equipping you with the necessary tools to optimize your castings—all at a remarkably low price point. This comprehensive software empowers you to elevate your casting practices, making it an invaluable tool for both novice and seasoned professionals alike.

Introducing a straightforward and efficient casting simulation software, NovaOne, designed to get you started with your casting simulations effortlessly. This software is part of NovaCast's essential toolkit, tailored to address the fundamental needs of various casting processes. Essentially a simplified edition of our advanced casting simulation system, NovaFlow&Solid, NovaOne offers a user-friendly experience. Among its features, NovaOne Gravity stands out as a pioneering tool for simulating the mold filling and solidification processes. With NovaOne Gravity, users can effectively model gravity sand casting, gravity permanent mold, and the lost wax technique. Additionally, NovaOne HPD accommodates both cold- and hot-chamber methods, allowing for a versatile simulation experience. It can replicate nearly all commercially available materials used in high-pressure die casting, including aluminum and zinc alloys. This versatility makes NovaOne an invaluable resource for both beginners and experienced users in the casting industry.

The software enables a swift and precise examination of your manufacturing workflow, spanning from the initial casting stage to the final solidification phase. This capability allows you to foresee potential defects in manufacturing, ensuring the production of superior quality components while also streamlining the prototyping process. In today's fiercely competitive and rapidly evolving markets, simulation has become an indispensable component of the development cycle for high-value cast parts. THERCAST® provides a comprehensive and modular solution that offers essential support for producing ingots, castings, and continuous casting. It effectively integrates liquid/solid thermomechanical coupling that occurs during material transformation. By utilizing this software, you can analyze a wide range of phenomena, including ladle and tundish flow, primary and secondary cooling, deformation in contact with rollers, and cooling induced by sprays. Furthermore, THERCAST® features a user-friendly multilingual graphical interface and fosters a business-centric work environment that enhances productivity. This innovative approach ultimately helps manufacturers stay ahead in a dynamic industry landscape.

SOLIDCast Casting Simulation software stands as the leading PC-based solidification modeling and casting design tool within the casting sector. This innovative software was created by thoroughly investigating and addressing the real-world challenges faced during the design and production of solid casts. Unlike many software developers who come from purely academic backgrounds, the team behind this simulation software boasts hands-on experience in foundries and the broader casting industry. Since 1985, they have leveraged their practical knowledge to enhance SOLIDCast and its associated products. The unique blend of expertise in software engineering and foundry operations has positioned SOLIDCast as the most pragmatic solution for professionals in the casting field. Additionally, SOLIDCast enables users to simulate the thermal variations that occur due to heat transfer during the solidification phase of the casting process. This capability not only streamlines workflow but also aids in achieving optimal results in cast design.

Metal casting plays a significant role in the creation of various products that we encounter in our everyday lives. This essential manufacturing technique can lead to considerable waste of time and resources if it is not executed with proper planning and optimization. Fortunately, these challenges can be mitigated through the use of casting simulations like Click2Cast. Developed by SolidThinking, Click2Cast is user-friendly software that assists engineers and designers in visualizing how their products will be cast, allowing them to avoid unnecessary expenditures on the iteration process. Moreover, Click2Cast features pre-established five-step casting templates for added convenience. By incorporating simulations early in the design phase, organizations can ensure compliance with their stringent safety, quality, and performance criteria. Additionally, this software provides insights on how to enhance parts for the most economical production methods, ultimately streamlining the entire manufacturing workflow. Embracing such technology can significantly enhance the efficiency and effectiveness of the casting process.

JSCAST® casting simulation, now available in Turkey, delivers the most accurate results for various casting techniques, including sand casting, pressure die casting, investment casting, lost foam, and tilt casting. This innovative tool ensures your casting success with its verified performance. With JSCAST®, you can utilize all the processors on your computer (CPU) without incurring extra costs. Our established methods for casting and process design incorporate both new techniques and traditional principles, providing the competitive edge necessary in the modern global marketplace. When utilizing JSCAST® for your designs, you will create castings with precise geometries that optimize the flow of liquid metal and strategically position runners, gates, overflows, and cooling lines. Furthermore, if necessary, you can incorporate features like squeeze pins, vacuum channels, vent holes, and chillers in iron casting. By making informed decisions from the outset, you will enhance your profitability and effectiveness in production. Ultimately, JSCAST® empowers you to refine your casting processes for maximum efficiency and success.

Enhance product development and accelerate the launch process with FLOW-3D, an exceptionally precise CFD software adept at addressing transient, free-surface challenges. Accompanied by our cutting-edge postprocessor, FlowSight, FLOW-3D offers a comprehensive multiphysics suite. This versatile CFD simulation platform empowers engineers to explore the dynamic interactions of liquids and gases across a diverse array of industrial sectors and physical phenomena. With a strong emphasis on multi-phase and free surface applications, FLOW-3D caters to various industries, including microfluidics, biomedical technology, civil water infrastructure, aerospace, consumer goods, additive manufacturing, inkjet printing, laser welding, automotive, offshore enterprises, and energy sectors. As a remarkably effective multiphysics resource, FLOW-3D combines functionality, user-friendliness, and robust capabilities to support engineers in achieving their modeling goals, ultimately driving innovation and efficiency in their projects. By leveraging FLOW-3D, organizations can overcome complex challenges and ensure that their designs are optimized for success in competitive markets.

When utilized early in the product development process, Inspire enhances the creation, optimization, and examination of innovative and structurally efficient components and assemblies through collaborative efforts. Its award-winning interface for geometry creation and modification can be mastered within just a few hours, all while providing the robust power of Altair solvers. The structural analysis capabilities, validated by NAFEMS, allow for swift and accurate evaluations using Altair® SimSolid®, making it possible to analyze extensive assemblies and intricate parts. Additionally, it offers dynamic motion simulation and load extraction through the trusted multi-body systems analysis of Altair® MotionSolve®. Furthermore, Altair® OptiStruct® sets the industry benchmark for structural efficiency with its topology optimization, facilitating generative design that yields practical and manufacturable geometries. Inspire empowers both simulation analysts and designers to conduct what-if analyses more quickly and easily, fostering an environment of collaboration and innovation. This approach not only enhances productivity but also encourages teams to explore a wider range of design possibilities earlier in the development cycle.

Digimat-AM is a software solution offered by Digimat that provides simulation capabilities for the additive manufacturing process, enabling both printer manufacturers and end-users to detect potential manufacturing challenges. Additionally, it fine-tunes printing parameters to enhance productivity and optimize the performance of the final product before the initial print is made. By leveraging numerical simulation, users can significantly reduce the number of trials needed, transforming complex testing into just a few clicks. This powerful tool equips engineers with the ability to simulate various processes, including FFF, FDM, SLS, and CFF, for both unfilled and reinforced materials. It also forecasts potential issues such as warpage, residual stresses, and the microstructure that may arise during printing. Furthermore, Digimat-AM facilitates the analysis of the intertwined thermal and structural responses in both types of polymers, ensuring that the correct manufacturing settings are established for precise printing. Ultimately, this innovative solution serves to connect the intricacies of the printing process with material properties and the performance of the final parts produced.

Elevate your product design by incorporating simulation and analysis, which helps minimize expensive physical prototyping while enhancing the durability, reliability, and safety of your products. Employing digital prototypes to assess the performance of your designs in real-world scenarios is crucial for successful product development. Creo Simulation is specifically tailored for engineers, featuring a robust suite of structural, thermal, and vibration analysis tools along with an extensive range of finite element analysis (FEA) capabilities. With Creo Simulation, you can effectively evaluate and affirm the performance of your 3D virtual prototypes prior to producing the first physical component. We provide adaptable and innovative simulation solutions to meet the distinct needs of our customers. This section serves as a resource to explore our offerings tailored to your requirements, and should you have any inquiries about our toolset, please do not hesitate to reach out to a Creo representative for assistance. This proactive approach ensures that your products not only meet but exceed expectations in their respective markets.

Ansys Autodyn enables the simulation of material responses to various events, including short-duration severe mechanical loadings, high pressures, and explosions. This software combines advanced solution techniques with user-friendly features, making it accessible for quick comprehension and simulation of significant material deformation or failure. It offers a diverse range of models to accurately capture complex physical phenomena, such as the interactions between liquids, solids, and gases, as well as phase transitions in materials and shock wave propagation. With seamless integration into Ansys Workbench and its intuitive user interface, Ansys Autodyn stands out in the industry by facilitating the generation of precise results efficiently. The inclusion of the smooth particle hydrodynamics (SPH) solver enhances its capabilities for explicit analysis, ensuring comprehensive support for various simulation needs. Furthermore, Ansys Autodyn allows users to choose from multiple solver technologies, ensuring that the most suitable solver is applied for different components of the model, thus optimizing performance and accuracy.

Moldex3D stands out as the premier CAE solution for the plastic injection molding sector globally. Its advanced analysis capabilities enable comprehensive simulations across a diverse array of injection molding techniques, facilitating the optimization of product designs and manufacturability. Furthermore, Moldex3D boasts exceptional compatibility with leading CAD systems, creating a versatile design platform driven by simulation. Tailored for automotive manufacturers and design engineers, it allows for the simulation and validation of intricate auto parts and molds utilizing authentic 3D technology. By employing Moldex3D, automotive designers and manufacturers can effectively oversee the entire product life cycle, from initial concept through to design and production. This proactive approach assists component designers and suppliers in identifying and resolving potential issues at an early stage, enhancing overall efficiency. Additionally, the capability to visualize the complete injection molding process for auto parts empowers users to devise solutions more swiftly and effectively, ultimately streamlining their operations.

Simufact Welding is a versatile product line that delivers extensive capabilities for simulating the elastic-plastic behavior of materials alongside structural welding processes. This software encompasses a variety of welding techniques, enabling users to model and simulate numerous thermal joining methods, including conventional arc and beam welding as well as brazing. Furthermore, it allows for the modeling of heat treatment processes, variations in cooling and unclamping setups, and the mechanical loading of welded structures. It is essential to identify critical distortions related to assembly, bulging, imbalances, and clearances during the simulation process. Users can also explore and enhance clamping tools before making any financial commitments to tool investments. This software aids in determining the most effective welding directions and sequences, ultimately leading to improved welding outcomes and more efficient production processes. Additionally, it supports engineers in refining their designs for optimal performance and reliability.

A robust and adaptable preprocessor designed for generating high-quality finite element meshes at an appealing cost that is significantly lower than international alternatives. It offers strength assessments for both static and dynamic loads, as well as the ability to determine natural frequencies and vibration modes. Users can also analyze critical loads and buckling modes effectively. The software supports both 2D and 3D computations for various structures, including volumetric, thin-walled, and bar configurations. It incorporates elastoplastic deformation analysis based on the Mises and Drucker-Prager models, alongside strength evaluations for large displacements. Additionally, it calculates thermal conditions, heat loss, and temperature-induced deformations in parts and structures, while also providing strength assessments for materials with high elasticity. This comprehensive approach ensures that engineers can conduct thorough analyses across a wide range of applications.

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.

Netfabb® software offers robust features for preparing builds, enhancing designs for additive manufacturing, simulating metal printing processes, and organizing CNC post-processing. Users can import models from numerous CAD formats and utilize repair features to swiftly fix any issues. To ensure models are ready for production, adjustments can be made to wall thicknesses, surface roughness, and other characteristics. The software identifies support necessities, allowing users to generate support structures with semi-automated tools. It also facilitates the conversion of organic, free-form mesh files into boundary representation models, which can be exported in formats like STEP, SAT, or IGES for CAD applications. Furthermore, 2D and 3D packing algorithms help arrange parts efficiently within the build volume. Custom reports can be created to encompass essential manufacturing and quoting details, while users can formulate build strategies and set toolpath parameters to optimize surface quality, part density, and processing speed. This comprehensive suite makes it easier for manufacturers to streamline their workflows and improve production efficiency.

Inventor® Nastran® is a finite element analysis (FEA) tool integrated within CAD software, enabling engineers and analysts to perform a diverse range of studies using various materials. This software provides comprehensive simulation capabilities that encompass both linear and nonlinear stress analysis, dynamic simulations, and heat transfer assessments. It is exclusively accessible through the Product Design & Manufacturing Collection, which includes a suite of powerful tools designed to enhance workflows within Inventor. In addition to advanced simulation features, this collection also offers 5-axis CAM, nesting tools, and access to software like AutoCAD and Fusion 360, ensuring a holistic approach to product design and manufacturing processes. By utilizing Inventor Nastran, professionals can streamline their analysis and improve their design outcomes significantly.

Subjecting your designs to real-world scenarios can significantly enhance product quality while simultaneously minimizing the costs associated with prototyping and physical testing. The SOLIDWORKS® Simulation suite offers a user-friendly collection of structural analysis tools that employ Finite Element Analysis (FEA) to forecast how a product will behave in actual physical conditions by virtually evaluating CAD models. This comprehensive portfolio is equipped with capabilities for both linear and non-linear static and dynamic analyses. With SOLIDWORKS Simulation Professional, you can refine your designs by assessing mechanical resistance, durability, topology, natural frequencies, as well as examining heat transfer and potential buckling issues. Additionally, it facilitates sequential multi-physics simulations to enhance design accuracy. On the other hand, SOLIDWORKS Simulation Premium allows for an in-depth assessment of designs concerning nonlinear and dynamic responses, dynamic loading conditions, and composite materials. This advanced tier also features three specialized studies: Non-Linear Static, Non-Linear Dynamic, and Linear Dynamics, ensuring a thorough evaluation of your engineering projects. By leveraging these powerful tools, engineers can achieve greater design confidence and innovation.

Utilize COMSOL's multiphysics software to replicate real-world designs, devices, and processes effectively. This versatile simulation tool is grounded in sophisticated numerical techniques. It boasts comprehensive capabilities for both fully coupled multiphysics and single-physics modeling. Users can navigate a complete modeling workflow, starting from geometry creation all the way to postprocessing. The software provides intuitive tools for the development and deployment of simulation applications. COMSOL Multiphysics® ensures a consistent user interface and experience across various engineering applications and physical phenomena. Additionally, specialized functionality is available through add-on modules that cater to fields such as electromagnetics, structural mechanics, acoustics, fluid dynamics, thermal transfer, and chemical engineering. Users can select from a range of LiveLink™ products to seamlessly connect with CAD systems and other third-party software. Furthermore, applications can be deployed using COMSOL Compiler™ and COMSOL Server™, enabling the creation of physics-driven models and simulation applications within this robust software ecosystem. With such extensive capabilities, it empowers engineers to innovate and enhance their projects effectively.

VPS-MICRO estimates the lifespan of manufactured components by modeling the characteristics of their constituent materials. This innovative software is founded on three fundamental principles. First, durability is influenced not just by the stress applied but also by how the material responds to that stress. Second, the materials used in creating intricate components and systems often exhibit non-uniform properties. Lastly, computational resources are more cost-effective and quicker compared to traditional physical testing or prototyping methods. Building upon these concepts, VEXTEC’s VPS-MICRO® serves as a sophisticated computational tool that effectively considers a material’s response to imposed stress, its inherent variability, various damage mechanisms, geometric factors, and the operational conditions over time. Consequently, it produces a three-dimensional, time-sensitive simulation that reliably mirrors the real-world physics behind the onset, progression, and reasons for material damage, offering valuable insights for engineers and designers alike. This capability not only enhances understanding but also aids in improving the design and reliability of future products.

Simcad Pro allows you to visualize, analyze, and optimize process flow systems within an interactive simulation modeling environment. Optimize, plan, optimize, and reorganize processes and procedures, while optimizing layouts, automation, scheduling, and facility improvement. Simcad Pro integrates historical and live data to offer the best simulation tool on the marketplace. Multiple industries can use these applications, including manufacturing, automation and logistics, distribution warehouse, food & beverage, and services. Multi-Threaded – 64 bit Engine Simulator-on-the-fly - You can make real-time modifications to the model as the simulation is running. You can animated the model in 3D, 2D, and VR using Ray Tracing, light effects, and shadows. Singular model building environment. Smart, Spatially Aware Agents. Sub-Flows. Collision Avoidance. Real-Time Connectivity. Spaghetti Diagrams and Congestion Analysis, Heat Maps Efficiency, OEE. Extensive reporting and analysis tools. Scenario Analyzer.

Simufact Additive is an advanced and adaptable software tool designed for simulating metal-based additive manufacturing techniques. Learn how to effectively utilize Simufact Additive to enhance your metal 3D printing and rapid prototyping efforts. By employing this software, you can greatly minimize the need for numerous test prints. Our objective is to furnish you with a solution that enables the production of additive manufacturing components with consistent dimensional accuracy on the first attempt. The multi-scale approach of Simufact Additive integrates the most effective methods into a singular software solution, ranging from a rapid mechanical technique to an intricate thermal-mechanical coupled transient analysis that offers exceptional precision in simulation results. Users can select the most suitable simulation method according to their specific requirements. Simufact Additive stands out as a specialized software solution focused solely on the simulation of additive manufacturing processes, which is evident in its streamlined operating framework. This focused approach not only enhances usability but also improves overall efficiency in the design and production workflow.

Ansys Sherlock stands out as the sole reliability physics-based tool for electronics design that delivers quick and precise life expectancy assessments for electronic components, boards, and systems during the initial design phases. By automating the design analysis process, Ansys Sherlock enables the rapid generation of life predictions, thus eliminating the "test-fail-fix-repeat" cycle that often hampers development. Designers can effectively model the interactions between silicon–metal layers, semiconductor packaging, printed circuit boards (PCBs), and assemblies, allowing for accurate predictions of potential failure risks stemming from thermal, mechanical, and manufacturing stresses, all prior to creating prototypes. Additionally, Sherlock's extensive libraries, which house over 500,000 components, facilitate the seamless transformation of electronic computer-aided design (ECAD) files into computational fluid dynamics (CFD) and finite element analysis (FEA) models. Each of these models is equipped with precise geometries and material properties, ensuring that stress information is accurately conveyed for reliable predictions. This capability not only enhances design efficiency but also significantly reduces the risk of costly errors in the later stages of product development.

MASTA serves as a comprehensive collection of CAE tools designed for the creation, simulation, and analysis of driveline systems, spanning from initial concepts to final production. It allows for the precise and swift development of transmission systems, whether starting from scratch or utilizing existing designs. Users gain an in-depth understanding of how mechanical components will perform throughout their lifecycle, particularly under various customer duty cycles. This software enables the early identification of potential failure modes during the product development phase, facilitating quicker adjustments to design. Key performance metrics can be predicted efficiently during the design process, allowing for extensive evaluation of modifications to transmission configurations, component choices, materials, and manufacturing techniques within a simulated environment. Full system simulations are feasible for any transmission or driveline setup, and integrating manufacturing simulations during design helps to minimize both development time and costs. The unique and modern framework of MASTA, developed entirely in C#, enhances its stability and compatibility with current and future operating systems. Overall, MASTA stands out as a robust solution that addresses the evolving needs of driveline design and analysis.

CoTherm is a sophisticated coupling and process automation tool that serves as a liaison between various CAE applications. It simplifies the task of process automation, making it invaluable for conducting sensitivity analyses, executing design of experiments, or managing multiple CAE models within a unified framework. This functionality enhances efficiency in pre-processing, transient thermal analysis, and post-processing tasks. With a licensed version of CoTherm, users receive ready-made templates for frequently encountered coupling and automation challenges. The software also features advanced optimization functions that identify the most suitable input parameters for your design. Any CAE analysis can benefit from its general optimization subprocesses, ensuring improved outcomes. CoTherm employs a mathematically robust approach, incorporating both global and local optimization methods, which alleviates uncertainty and simplifies the design process. It seamlessly integrates with a wide range of popular thermal and CFD codes, and its robust features allow for the coupling of any software that operates via command line or configuration files. This versatility makes CoTherm a vital asset for engineers seeking to enhance their design workflows and optimize their simulation processes.

nCode DesignLife serves as a proactive design tool that pinpoints essential areas and estimates realistic fatigue lifespans based on top finite element (FE) analysis results applicable to both metals and composites. This innovative tool empowers design engineers to enhance their approach beyond basic stress assessments, enabling them to simulate real-world loading scenarios and thereby mitigate the risks of both under-design and over-design in their products, which can lead to expensive modifications later on. Additionally, the software offers features like virtual shaker testing, fatigue analysis for welds, vibration fatigue assessments, crack growth monitoring, fatigue evaluation for composites, and thermo-mechanical fatigue studies. It leverages advanced technologies for analyzing multiaxial stress, weld integrity, short-fiber composites, vibrational impacts, crack propagation, and thermal stress fatigue. With a user-friendly graphical interface, it facilitates comprehensive fatigue analysis using data from leading FEA tools such as ANSYS, Nastran, Abaqus, Altair OptiStruct, LS-Dyna, among others. Moreover, it incorporates multi-threaded and distributed processing capabilities, enabling efficient handling of large finite element models and optimizing overall usage schedules. This powerful combination of features ultimately ensures that engineers can deliver more reliable and efficient designs.

VoluMill revolutionizes the cutting process by employing high-speed continuous tangent motion, which contrasts sharply with traditional, interrupted cutting methods. This approach establishes VoluMill as the fastest and most economical option for bulk-material removal across all non-finishing milling tasks. It is exceptionally suited for various industries, including airframe, automotive, mold and die, medical, machinery components, and consumer products, addressing all roughing requirements for both free-form and prismatic components. With VoluMill, machine tools and cutting implements maintain optimal milling conditions consistently, irrespective of the part's shape or complexity. By utilizing VoluMill, concerns about over-engaging tools or work-hardening materials become a thing of the past. Additionally, its patented technology simplifies programming by automatically regulating material removal rates, accommodating any geometric intricacy. This innovation not only enhances efficiency but also minimizes the risk of errors during machining operations.

Software for digital manufacturing Engineering software. The way we make parts has changed. Your engineering software must change. Unifying technology for design, simulation, manufacturing data. The nTop Platform approach eliminates geometry bottlenecks in design. It achieves more efficient workflows, significantly improving team collaboration with quicker iteration, and enabling smarter, complex designs to meet performance requirements. Using nTop Platform's innovative computational modeling techniques, design teams are able to process and evaluate more design ideas than ever before. You can find the best solution in a shorter time. nTopology knows that engineering knowledge is the most valuable asset of any organization. nTop Platform makes this know-how easily shareable, and most importantly, secure for your entire organization.

Metariver Technology Co., Ltd. develops innovative and creative computer-aided engineering (CAE) analysis S/W based upon the most recent HPC technology and S/W technologies including CUDA technology. We are changing the paradigm in CAE technology by using particle-based CAE technology, high-speed computation technology with GPUs, and CAE analysis software. Here is an introduction to our products. 1. Samadii-DEM: works with discrete element method and solid particles. 2. Samadii-SCIV (Statistical Contact In Vacuum): working with high vacuum system gas-flow simulation. 3. Samadii-EM (Electromagnetics) : For full-field interpretation 4. Samadii-Plasma: For Analysis of ion and electron behavior in an electromagnetic field. 5. Vampire (Virtual Additive Manufacturing System): Specializes in transient heat transfer analysis.

Currently, engineering teams frequently rely on specialized simulation tools from various vendors to assess different design characteristics, which can lead to inefficiencies and higher costs due to the use of multiple software solutions. To address these challenges, SIMULIA offers a comprehensive suite of cohesive analysis products that enable users with varying levels of simulation knowledge and expertise to collaborate effectively while sharing simulation data and approved methodologies without compromising information integrity. The Abaqus Unified FEA product suite provides robust and comprehensive solutions for both standard and advanced engineering challenges, catering to a wide range of industrial applications. In the automotive sector, engineering teams can analyze complete vehicle loads, dynamic vibrations, multibody systems, impact and crash scenarios, nonlinear static situations, thermal interactions, and acoustic-structural relationships, all while utilizing a unified model data structure and integrated solver technology. This seamless integration enhances collaboration and improves the overall efficiency of the engineering process, allowing teams to innovate more rapidly.

Utilizing the 3DEXPERIENCE® platform, SIMULIA provides advanced simulation tools that help users better understand and analyze our environment. The applications offered by SIMULIA streamline the assessment of material and product performance, reliability, and safety prior to the development of physical prototypes. These tools deliver robust simulations for various scenarios such as structures, fluids, multibody interactions, and electromagnetics, all while being seamlessly integrated with product data, even for complex assemblies. The comprehensive technology for modeling, simulation, and visualization is fully embedded within the 3DEXPERIENCE platform, which includes capabilities for process capture, publication, and reuse. By allowing simulation data, outcomes, and intellectual property to be linked to the platform, customers can maximize their current investment in simulation capabilities, transforming these assets into valuable resources that foster innovation for all users involved. This integration not only enhances workflow efficiency but also encourages collaborative advancements across different teams and projects.

Ansys Discovery introduces an innovative simulation-driven design tool that integrates instant physics simulation, high-fidelity simulation, and interactive geometry modeling into a singular, user-friendly platform. This groundbreaking product merges interactive modeling with various simulation features, empowering users to tackle essential design inquiries at the early stages of the design process. By adopting this proactive approach to simulation, teams can significantly reduce time and resources spent on prototyping as they concurrently examine numerous design ideas without delays for simulation feedback. Ansys Discovery effectively addresses vital design questions swiftly and accurately, enhancing overall productivity and performance by removing prolonged waits for simulation outputs. This capability allows engineers to prioritize innovation and optimize product performance, ultimately leading to a reduction in labor costs and physical prototyping expenses. Additionally, by facilitating the early resolution of design challenges, Ansys Discovery contributes to a notable increase in return on investment (ROI) throughout your organization, making it an invaluable asset for engineering teams.

The SIGMASOFT ® VIRTUAL MOLDING simulation software provides a considerable edge in the fields of injection and compression molding by allowing users to assess and refine both processes and entire molds, enhance efficiency, productivity, and part quality, and minimize waste that typically arises from trial and error methods. This advanced tool empowers manufacturers to achieve optimal results in their molding operations.

Ansys LS-DYNA stands out as the leading explicit simulation software widely utilized for various applications, including drop testing, impact analysis, penetration scenarios, collisions, and ensuring occupant safety. Renowned as the most extensively used explicit simulation tool globally, Ansys LS-DYNA excels in modeling the behavior of materials subjected to brief yet intense loading conditions. Its comprehensive suite of elements, contact formulations, and material models enables the simulation of intricate models while allowing precise control over every aspect of the issue at hand. The software offers a broad range of analyses, boasting rapid and effective parallel processing capabilities. Engineers can investigate simulations that involve material failure, examining how such failures evolve through components or entire systems. Additionally, LS-DYNA adeptly manages models with numerous interacting parts or surfaces, ensuring that the interactions and load transfers between complex behaviors are accurately represented. This capability makes LS-DYNA an invaluable tool for engineers facing multifaceted simulation challenges.

Ansys Fluent stands out as the premier fluid simulation software, distinguished by its cutting-edge physics modeling features and unmatched precision. By utilizing Ansys Fluent, you can dedicate more time to innovation and enhancing product efficiency. This software is backed by extensive validation across diverse applications, ensuring you can rely on its simulation outcomes. With Ansys Fluent, creating sophisticated physics models and evaluating various fluid dynamics phenomena is seamless within a user-friendly and customizable interface. This robust simulation tool significantly expedites your design process, allowing for quicker iterations and improvements. Boasting top-tier physics models, Ansys Fluent can effectively and accurately tackle intricate, large-scale simulations. The software unveils new possibilities for computational fluid dynamics (CFD) analysis. Additionally, its rapid pre-processing capabilities and swift solving times empower you to be the quickest in bringing your products to market. Fluent's unmatched features foster boundless innovation while maintaining a steadfast commitment to precision and reliability. Ultimately, Ansys Fluent not only enhances your design capabilities but also positions you ahead of the competition in a fast-paced industry.

Tackle intricate engineering problems by improving the efficiency of simulations. Simcenter 3D stands out as one of the most thorough and seamlessly integrated CAE solutions available. It allows you to create and assess the performance of complex products through groundbreaking advancements in simulation efficiency. By bringing together various physics domains within a single modeling environment, you can quickly gain deeper insights into how your product performs. This integrated platform facilitates all aspects of CAE pre- and post-processing, allowing for a streamlined workflow. With unmatched tools for geometry manipulation, you can easily defeature and simplify CAD geometry from any origin. Additionally, its extensive meshing and modeling capabilities cater to diverse simulation needs, granting you the exceptional ability to connect your analysis model with design data seamlessly. This connection not only accelerates the often tedious modeling process but also ensures that your analysis models remain aligned with the most current design iterations, ultimately enhancing productivity and accuracy in your engineering projects. By adopting Simcenter 3D, you can significantly reduce development time while improving the quality of your simulations.

Welding Sequence Optimizer plugin is for Simufact Welding™. It offers a useful digital toolkit of Artificial Intelligence algorithms and Machine Learning algorithms that will allow you to minimize the inherent weld deformation. WSO has different algorithms that are suitable for specific stages of the Product Delivery Process (PDP). WSO is a fast configuration that takes less than 15 minutes and requires no human interaction to find the best sequence. Currently, you can modify the objective function for a critical area, GD&T, or any other Simufact results like XYZ displacement. Multirobot optimization is also supported.

WindowsLDP, short for Load Distribution Program, serves as a quasi-static tool for the design and analysis of both external and internal spur and helical gear pairs. This software has been widely adopted by many consortium members as their primary resource for gear design and analysis. There are also modified versions of this program that facilitate surface wear and duty cycle evaluations. Utilizing computationally efficient and precise semi-analytical methods, WindowsLDP calculates the load distribution across multiple engaging teeth of gears. Based on this load distribution data, it assesses the loaded transmission error, along with root and contact stress distributions, mesh stiffness functions, and tooth forces, while also providing insights into other relevant design parameters such as lubricant film thickness and surface temperature. Users can select either SI or English units for their analyses, enhancing flexibility in application. Additionally, WindowsLDP supports multi-torque analyses and evaluations of manufacturing robustness, making it a comprehensive tool for gear design. The program's versatility allows engineers to tailor their analyses to specific project requirements effectively.