Best Computer-Aided Engineering (CAE) Software in the UK - Page 4

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.

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.

Khimera serves as a tool for determining the kinetic parameters associated with microscopic processes, as well as the thermodynamic and transport characteristics of various substances and their mixtures within gases, plasmas, and at the gas-solid interface. Its main users include engineers and researchers who focus on developing kinetic models and engaging in thermodynamic and kinetic simulations pertinent to fields such as chemical engineering, combustion, catalysis, metallurgy, and microelectronics. This software is particularly well-suited for multi-scale modeling, as it connects the fundamental molecular properties of individual molecules with the ensemble-averaged characteristics of the reactive medium, encompassing thermodynamic and transport properties along with the rates of chemical reactions. Additionally, Khimera allows for the integration of quantum-chemical simulation results, enabling users to derive properties without requiring any experimental data from their side. By bridging the gap between different scales of modeling, Khimera enhances the understanding of complex systems in various scientific domains.

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.

We have transformed our award-winning electro-mechanical simulation software into a cutting-edge cloud-based ecosystem of applications. This new suite facilitates everything from swift modelling and idea exploration to in-depth simulations and virtual product approvals, seamlessly integrating with your drivetrain and transmission development process. By being intelligently woven into the broader CAE landscape, Romax Nexus enhances your teams' capabilities and fosters designs that are Right First Time. For those organizations requiring additional support, we provide a variety of consultancy services designed to enhance our simulation platform. Last year marked the proud launch of our re-envisioned application ecosystem, which includes Romax Concept, Enduro, Spectrum, Energy, Spin, and Evolve, all connected through the Romax Nexus platform. Now, as we reflect on a year of progress, we are excited to unveil the next phase of our journey with the introduction of Romax Nexus R20, promising even greater improvements and features. This evolution represents our ongoing commitment to innovation and excellence in the industry.

SABR is a comprehensive package specifically designed for the conception and design of shafts, gears, and bearings. Its development focuses on seamlessly integrating into the design workflow to significantly shorten the product development cycle, offering an easy-to-use graphical interface that enables detailed modeling of transmission systems tailored to the current phase of the design. Furthermore, SABR facilitates sensitivity analyses to assess the impact of various geometric characteristics, types of bearings, and gear placements, providing instantaneous feedback. The underlying solvers are rooted in recognized engineering standards and leverage Ricardo’s extensive experience in product design, manufacturing, and testing, ensuring they remain current with practical testing and development initiatives. With a straightforward and user-friendly graphical interface, users can efficiently create accurate models. The software also supports bearing analysis, including life calculations and stress visualizations that take loading and misalignment into consideration. Additionally, it accommodates complex duty cycles with various load paths and supports the design of parallel, epicyclic, and bevel gears, making it a versatile tool in the field.

Ansys Motion, which is now part of the Mechanical interface, represents a third-generation engineering solution that leverages a sophisticated multibody dynamics solver. This tool facilitates rapid and precise analysis of both rigid and flexible bodies, allowing for an accurate assessment of physical events by examining the mechanical system in its entirety. Ansys Motion incorporates four closely integrated solving methods: rigid body, flexible body, modal, and meshfree EasyFlex, providing exceptional capabilities to analyze various systems and mechanisms in any desired configuration. It can handle large assemblies with millions of degrees of freedom, accounting for flexibility and contact effects. Standard connections and joints allow for the seamless integration and loading of these systems. The ability to conduct simulations within Ansys Motion using the same interface as conventional structural analysis means that a single model can be repurposed for multiple applications, resulting in significant time efficiencies. This integration not only streamlines workflows but also enhances the overall productivity of engineering projects.

Metal Additive Manufacturing (AM) on an industrial scale presents a relatively recent challenge for numerous businesses. In the initial stages of integrating AM technology, organizations often invest weeks in trial-and-error testing to refine build configurations, leading to inefficiencies and unnecessary expenditures. The software AdditiveLab addresses this issue by offering simulation technology that forecasts outcomes of metal-deposition AM processes, thereby reducing the amount of trial and error required. With AdditiveLab, users can swiftly identify areas prone to failure and optimize manufacturing configurations to enhance overall manufacturing success, ultimately saving both time and financial resources. Designed specifically for AM engineers, AdditiveLab requires no prior simulation expertise and features an intuitive user interface along with automated model preparation processes, streamlining the simulation experience to just a few clicks. As a result, companies can focus on innovation and productivity while minimizing costly setbacks associated with traditional methods.

Ansys Fluent stands out as the premier software for fluid simulation, celebrated for its sophisticated physics modeling and unparalleled accuracy. With Ansys Fluent, you can dedicate more time to enhancing and innovating your product's performance. Rely on simulation outcomes from a program that has undergone rigorous validation for diverse applications. This software empowers you to develop complex physics models and explore various fluid dynamics phenomena within a user-friendly and tailored environment. By utilizing this robust fluid simulation tool, you can significantly shorten your design cycle. Ansys Fluent incorporates top-tier physics models, capable of effectively and accurately addressing extensive and intricate models. This software opens up new opportunities for computational fluid dynamics (CFD) analysis. With rapid pre-processing and even quicker solving times, it positions you to swiftly enter the market. Fluent’s cutting-edge features foster limitless innovation without sacrificing precision, ensuring that you can push the boundaries of design and efficiency. Ultimately, Ansys Fluent is not just a tool; it is a catalyst for creative solutions in the field of fluid dynamics.

Ansys HFSS is a versatile 3D electromagnetic (EM) simulation tool designed for the creation and analysis of high-frequency electronic devices, including antennas, components, interconnects, connectors, integrated circuits (ICs), and printed circuit boards (PCBs). This software empowers engineers to effectively model and simulate a wide range of high-frequency electronic products such as antenna arrays, RF and microwave components, high-speed interconnects, filters, and IC packages. Used globally, Ansys HFSS is essential for designing high-speed electronics crucial to communications systems, advanced driver assistance systems (ADAS), satellite technology, and internet-of-things (IoT) applications. With its unparalleled capabilities and exceptional accuracy, HFSS allows engineers to tackle RF, microwave, IC, PCB, and EMI challenges in even the most intricate systems. The HFSS simulation suite features a robust array of solvers that cater to a variety of electromagnetic issues, ensuring comprehensive coverage for engineers working in advanced electronic design. Ultimately, Ansys HFSS stands out as a powerful solution, enabling innovation and efficiency in the field of high-frequency electronics.

Ansys LS-DYNA stands out as the premier explicit simulation software utilized for various applications, including drop tests, impacts, penetrations, collisions, and occupant safety assessments. Regarded as the most widely adopted explicit simulation tool globally, Ansys LS-DYNA excels in modeling the behavior of materials subjected to intense, short-duration loads. It offers a rich variety of elements, contact formulations, material models, and controls, allowing for intricate simulations while providing comprehensive management of all problem details. With its capacity for rapid and efficient parallel processing, LS-DYNA supports a wide range of analyses. Engineers are empowered to investigate scenarios involving material failure, observing the progression of such failures within components or systems. The software effortlessly accommodates complex models comprising numerous interacting parts or surfaces, ensuring precise modeling of interactions and load transfers between diverse behaviors, thus enhancing the reliability of the simulation outcomes. Furthermore, its versatility makes it an invaluable tool for engineers looking to innovate in design and safety testing.

Ansys Autodyn offers a robust platform for simulating how materials react to extreme conditions, including brief but intense mechanical forces, high pressure, and explosions. This software combines sophisticated solution techniques with user-friendly features, allowing for swift comprehension and simulation of significant material deformation or failure scenarios. It includes a diverse array of models that accurately depict complex physical interactions among liquids, solids, and gases, as well as material phase transitions and shock wave propagation. By seamlessly integrating with Ansys Workbench and providing its own intuitive interface, Ansys Autodyn has established itself as a leader in the industry, enabling users to achieve precise results efficiently. Additionally, the smooth particle hydrodynamics (SPH) solver enhances this capability by supplying all necessary tools for explicit analysis. Furthermore, Ansys Autodyn allows users to choose from various solver technologies, ensuring that the most appropriate solver is utilized for each segment of the model, leading to optimized performance and accuracy. This combination of features makes Ansys Autodyn an invaluable resource for engineers and researchers alike.

Currently, engineering teams frequently utilize specialized simulation tools from various vendors to analyze diverse design characteristics, leading to inefficiencies and heightened costs due to the use of multiple software products. SIMULIA provides a comprehensive suite of integrated analysis tools that enables all users, independent of their simulation skills or areas of expertise, to work together and effortlessly exchange simulation data and approved methodologies while maintaining the integrity of information. The Abaqus Unified FEA product suite presents robust and comprehensive solutions for both basic and advanced engineering challenges, applicable across a wide range of industries. In sectors such as automotive, engineering teams can evaluate overall vehicle loads, dynamic vibrations, multibody systems, crash impacts, nonlinear static conditions, thermal interactions, and acoustic-structural interactions, all within a unified model data framework and using integrated solver technology. This integration not only streamlines the simulation process but also enhances collaboration among different engineering disciplines.

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.

The Capital Electrical and Electronics (E/E) systems development software suite includes capabilities for E/E system and software architecture, communication networks, and embedded software creation. It enables the efficient design, engineering, and validation of intricate products, particularly through the use of a digital twin framework. Modern E/E systems are marked by their escalating complexity, necessitating a robust integration of electrical, electronic, and software components. By utilizing Capital, a holistic E/E systems development solution, you can enhance the development of innovative products. Significantly boost automation with an all-encompassing model-based digital twin, which facilitates a smooth integration across various engineering disciplines. This solution allows for connection within an open ecosystem, featuring user-friendly and adaptable tools. Additionally, it enhances the optimization of E/E system architectures, focusing on key metrics such as cost, weight, and bandwidth while also improving collaboration across teams.

The sixth-generation DYNAFORM Die Simulation Software presents an advanced platform that boasts a user-friendly and visually appealing interface designed for ease of use. Focused on the stamping process, this software minimizes the need for extensive CAE expertise and simplifies geometry and element tasks. Among its notable enhancements, users will find a well-structured tree management system for operations, a dedicated simulation data manager, and customizable icon groupings for quick access to drop-down menu features. Additionally, it offers distinct applications that operate independently, integrated pre- and post-processing capabilities, a multi-window view for better analysis, and the convenience of accessing functions with right-click options. Supporting large-scale forming simulations, the software includes a geometry management tool, a process wizard for optimizing blank sizes, a comprehensive material library, new draw bead shapes, and an efficient coordinate system manager. The combination of these features enhances the overall simulation experience, making it a powerful tool for engineers and designers alike.

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.

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.

WeStatiX SHM integrates authentic simulation-driven Digital Twins with cutting-edge Artificial Intelligence into an innovative platform designed for infrastructure oversight. This technology can be utilized across various structures, including bridges, tunnels, slopes, and rock walls, offering precise insights into both the present and future conditions of the monitored entities. With WeStatiX, enhancements in structural safety are achievable, alongside the potential to streamline monitoring expenses and mitigate the ecological footprint of construction activities. Accessible directly through a web browser, WeStatiX|SHM enables users to develop tailored digital twins for the real-time surveillance of extant structures in the cloud. This versatile system caters to a wide array of infrastructures such as dams, buildings, and more, underscoring its adaptability. By leveraging a blend of advanced digital technologies, combined with the power of artificial intelligence algorithms, it serves as a formidable resource for the inspection and upkeep of any monitored structure. Additionally, the platform facilitates a proactive approach to maintenance, ensuring that infrastructure integrity is continually assessed and preserved.

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.

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.

ELCAD provides a reliable, adaptable, and efficient solution for generating electrotechnical documentation, ensuring maximum flexibility through extensive automation and full customization to meet various standards, sectors, and specific documentation requirements of your organization. This includes standard documents related to projects and orders, such as cover sheets, circuit diagrams, terminal block diagrams, layout plans, material lists, and bills of materials, which can be produced in various formats using the CAD system or Excel, along with wiring and connection lists, as well as summaries of cable layouts and assignments. For more than thirty years, ELCAD has established itself in the marketplace as a well-structured and effective tool for creating electrical documentation. From the outset, ELCAD has maintained data compatibility across versions, emphasizing long-term investment security. Its operating philosophy prioritizes user intuition and operational efficiency, ensuring a seamless experience for users. Additionally, ELCAD remains compatible with the latest versions of the Microsoft WINDOWS operating system, allowing users to benefit from ongoing advancements in technology.

YAKINDU Model Viewer (YMV) is a specialized tool for displaying models made with MATLAB Simulink, presenting block diagrams that closely resemble those in Simulink. This viewer offers users the ability to efficiently explore, navigate, and search through extensive and intricate models. With its browser-like navigation capabilities, users can swiftly delve into the system hierarchy. Additionally, YMV boasts advanced visualization options, signal tracing, requirements tracking, and gesture-based interactions, among other features. The tool includes multiple perspectives to display a model's structure and the characteristics of its components, enhancing the user experience. Overall, YAKINDU Model Viewer simplifies the process of understanding complex systems through its intuitive design and comprehensive functionality.