Webinar: Your Global Partner to Boost Electrification Projects

This webinar focuses on the design of electric motors and will show how multiphysics simulation and optimization allow to innovate and reduce costs, while considering multiple design constraints. Spin Applicazioni Magnetiche, a company creating innovative solutions of rare earth free synchronous reluctance motors for various power levels and applications will present a practical use case, including a detailed comparison between simulation and test results, considering electromagnetic, thermal and vibration responses.

Lars Fredriksson introduces Altair development support strategies for e-mobility and provides examples to showcase how these strategies help companies develop e-powertrain systems with an increased level of innovation in reduced time.

Air conditioning can reduce fuel economy by more than 20%, making it the vehicle's most energy-consuming system. To solve this difficult challenge, vehicle designers are turning to Altair's powerful and intuitive CFD solutions to understand the energy consumption and energy losses of the system for increased range and improved passenger thermal environment. Presenter: Bill Calver Partner: TIATherm by Thermal Analytics

Learn how to reduce motor control code development time with Altair Embed and STMicroelectronics. Embed provides ready-to-use libraries for motor control strategies combined with a fast debugging capability. The visual environment uses block diagrams to design, simulate, analyze, and automatically generate efficient code that can be downloaded, executed, and validated directly on target hardware. Deep support for the on-chip peripherals of the STM32 family of 32-bit microcontrollers reduces errors and iterations while lowering costs.

In this workshop, you will learn how Altair Compose and Altair Activate can be used to represent mechatronic systems using holistic functional simulation and will get insights in various case studies. One tool for performing calculations and manipulating and visualizing data, including CAE and test results, is Altair Compose - an all-in-one environment that enables a wide range of mathematical operations. It also supports process automation and scripting for recurring calculations. Using multidisciplinary system simulation, Altair Activate enables customers to understand the overall system behavior of their product earlier and evaluate important interactions between components and subsystems. The combination of signal-based and physical modeling forms the basis for end-to-end use throughout the development lifecycle - from early concept through detailed design to hardware-in-the-loop (HIL) testing.

In this workshop you will discover the key features and benefits of simulation- and data-driven development and representation of e-motors in eMotor Director. The holistic and multi-physical development of e-motors requires a new way of thinking and a new development strategy. At Altair, we meet this challenge with simulation and data-driven development. Simulation and optimization are key development tools to ensure that all technical requirements can be met at minimal cost and time.

This webinar introduces Altair CFD and reveals how it can help organizations reduce software expense and deliver accurate results faster by providing all the major CFD technologies under a single license.

Whether you’re looking to optimize gearbox oiling, analyze tank sloshing, perform aerodynamics studies, or reduce cooling fan noise, Altair CFD provides the technology you need, as you need it – utilizing state-of-the art GPU calculations to reduce modeling turnaround times.

This webinar covers:
• The different CFD methods available with Altair CFD
• The range of fluids problems that can be solved with Altair CFD, including some unique applications and customer examples
• How Altair’s unique licensing system enables companies to reduce software expenditure
• How Altair’s flexible approach to Cloud and HPC helps deliver results faster
• What is next for Altair CFD?

Speakers
James R. Scapa, Founder and CEO
Mahender Reddy, SVP CFD & Manufacturing
Uwe Schramm, CTO

Duration: 35 minutes

The Mining industry faces a lot of challenges and remains under high pressure to control costs, improve operational efficiency as well as meeting stricter environmental regulations. Innovation and the use of technology play a key role in addressing these and in shaping the future of mining. This webinar will explore how simulation and advanced technologies such as digital twins, machine learning and Internet of things (IoT) can help mines increase productivity, reduce costs, and improve safety. You will hear from industry leaders and technical experts on how Altair’s solutions can be used for efficient development and operation.

The Mining industry faces a lot of challenges and remains under high pressure to control costs, improve operational efficiency as well as meeting stricter environmental regulations. Innovation and the use of technology play a key role in addressing these and in shaping the future of mining. This webinar will explore how simulation and advanced technologies such as digital twins, machine learning and Internet of things (IoT) can help mines increase productivity, reduce costs, and improve safety. You will hear from industry leaders and technical experts on how Altair’s solutions can be used for efficient development and operation.

The Mining industry faces a lot of challenges and remains under high pressure to control costs, improve operational efficiency as well as meeting stricter environmental regulations. Innovation and the use of technology play a key role in addressing these and in shaping the future of mining. This webinar will explore how simulation and advanced technologies such as digital twins, machine learning and Internet of things (IoT) can help mines increase productivity, reduce costs, and improve safety. You will hear from industry leaders and technical experts on how Altair’s solutions can be used for efficient development and operation.

Altair has collaborated with Startup India, Automotive Research Association of India (ARAI), Confederation of Indian Industry - CII, and IIT Madras Incubation Cell for Altair Start-up Challenge 2021 - For EVs. This is an initiative to create awareness of appropriate cutting-edge technologies, relevant processes, enable the start-ups to accomplish their goals of product development in a structured manner. This facilitates competency building and the development of competitive products.

Simulation-Driven Design of Synchronous Motors

Predesign Methodologies In Motor Development Projects

Purpose Driven Electric Motor Modeling for Multi-physics System Simulation

ESS & Altair invites you to an engaging webinar on next-generation Robotics and Controls Lab. In this webinar, we will be demonstrating a unique visual approach to robotics by using a combination of Altair Digital-Twin technology & Altair Hardware-in-Loop Modelling environment. During this webinar, you will learn how to design & develop cutting-edge Robotics applications using Altair’s fail-safe Digital-Twin technology, Acrome Ball-Balancing Table Robot & Altair Model-Based Development tools. By adopting technologies like Digital-Twin, Multi-Domain Modelling and 1D to 3D Co-Simulation using Modelica interfaces and Hardware-in-loop modelling, the Indian R&D sector can eliminate catastrophic failures of systems downstream.

Improving the ESL using Complete Vehicle Correlation In the previous webinar, the development of an ESL has been shown based on a complete vehicle simulation. In order to validate this new approach, a comprehensive correlation work has been performed. Using the dynamic distortion in all closure body openings as correlation criteria offer a unique possibility to increase the understanding of the load from both the engine and the wheel suspension. This webinar presents this correlation where a test vehicle is driven on different test tracks both in reality and virtually. Presenter: Jens Weber | CAE Engineer, CEVT

ESL Development Based on Simulation - Application example The body stiffness has a major impact on the Squeak & Rattle performance of a car. Since the body structure of electrical/autonomous cars will differ clearly from traditional bodies, an enhanced requirement is needed to limit the distortion in the closure openings. This webinar presents a new approach of defining a requirement based on closure deformations using an equivalent static load (ESL), which considers both the reduction from a complete vehicle to a BIG and from a dynamic load to a static load. In addition, an example is shown how ESL can be used as input for body optimization. Presenter: Viktor Jonsson | CAE Engineer (Consultant), CEVT

The Marine Engineering and Shipbuilding Industry is becoming even more important in the connected world. The ability to accelerate turnaround time and reduce cost is becoming a key driver to success. The use of simulation technologies to improve design efficiency and reduce physical testing costs continues to be one of the best ways to address engineering challenges in the Marine industry.

ABB, MX3D, and Altair demonstrate how Industry 4.0 will deliver customized manufacturing equipment.

Complex devices such as surgical robots, autoinjector etc go through several validation and verification phases that can increase product development time. The interconnected devices also pose a challenge for model exchange and collaboration.​ This webinar presents Altair’s model-based development (MBD) platform to drive fast development for smart connected systems. Explore more by combining mechanical models with electrical models leveraging multi-disciplinary simulation.

Altair Inspire Motion is a dedicated multi-body dynamics (MBD) tool with a robust contact algorithm. It is capable of handling systems with large degrees of freedom and offers a reliable and fast solution. In this webinar, we showed how Altair Inspire Motion had been used to determine loads in the system and is seamlessly coupled with other Altair modeling tools like Altair Inspire Structure and Altair Activate for control simulation to create dynamic motion analyses of complex mechanisms and use these dynamic loads as load cases for optimization.

The operating temperature of Li-ion batteries used in modern electric vehicles should be maintained within an allowable range to avoid thermal runaway and degradation. Poor thermal management affects the charging and discharging power, cycle life, cell balancing, capacity and fast charging capability of the battery pack. Hence, a thermal management system is needed in order to enhance the performance and to extend the life cycle of the battery pack. Altair’s comprehensive CFD solutions provides the complete thermal management using both 3D and 1D frameworks using Altair’s AcuSolve and GE FlowSimulator respectively. Detailed analysis of active and passive cooling methods and, the effective combination of both is in focus. The study and optimization of cooling module design strategy such as coolant type, direct contact or jacket cooling, serial or parallel cooling , module shape or dimensions, coolant flow rate combined with cell characteristics and driving cycles, etc are the key areas of work. The BTMS is of utmost importance to EV/HEV. The webinar focuses on the overview of Altair’s thermal solutions and how the software AcuSolve and FlowSimulator plays a very important role in providing all-round BTMS solution.

This workshop will showcase a process-oriented multidisciplinary simulation environment to accurately analyse the performance of complex rotating machines. The participants would learn about multiple physics analysis of motors; including electromagnetics, structural, thermal, and fluid dynamics using highly automated modelling tasks, helping to drastically reduce the time spent creating finite element models and interpreting results. Unique solution by Altair for rotating machinery process takes setup to a solution, time from hours to minutes which allows engineer to try multiple design iterations in a short time and create a performance curve in the automated environment.

Simulation-Driven Innovation for e-Mobility with SRM university

Electromagnetic and Thermal Simulation of PMSM (IPM) Motor

Rated Torque Simulation of IPM Motor Using Altair Flux

This is an introductory course for using HyperMesh CFD to create and set up finite element (CFD) models for CFD analysis. A combination of lectures and exercises will familiarize students with the HyperMesh environment, process, and suite of tools needed to start using HyperMesh in their work.

A growing number of companies aspire to perform multiphysics, but each added analysis tool introduces new complexity to a development process. Model translation, remeshing, design modification – these tasks offer no added value and increase the likelihood of error. Altair SimLab enables users to model and solve multiple physics, including nonlinear analysis, within one unified platform. Each analysis runs from one master model, allowing you to spend less time prepping and more time solving. Join the webinar to see these powerful workflows in action. In this webinar, we will demo the design of a smart speaker with an emphasis on nonlinear analysis, multiphysics, and improving perceived sound with vibro-acoustic simulation.

This webinar will consider new approaches to the old problems of optimized execution, the role of new technologies including artificial intelligence (AI) in improvement, and how to implement and integrate tools and technologies to build an efficient and cost-effective technology stack.

Most traditional simulations take too long to complete and takes significant toll on the vehicle manufacturer’s capability to arrive at an optimal design that considers styling and aerodynamic performance. In this webinar, we introduce you to Altair’s ultraFluidX, a GPU based Lattice Boltzmann solver that delivers unbeatable performance and overnight transient simulations of full vehicle aerodynamics on a single server. We will discuss the challenges in executing a full vehicle transient simulation and demonstrate how ultraFluidX technology and workflow helps you to overcome many of these with tremendous ease. We will also discuss some of the unique features that helps you perform multiple design analysis cycles with an unprecedented level of automation.

The key element of an electric vehicle (EV) is the battery and batteries are known to produce heat during their charge-discharge cycle. An efficient thermal management system (TMS) is of paramount importance. The battery TMS affects the cost, life, and range of the EV. A battery TMS study or an EV TMS study involves the use of thermal and fluid physics and Altair’s AcuSolve (Computational Fluid Dynamics based Simulation Technology), was used to carry out this study. The importance of finding new methods for effectively and accurately designing TMS that control temperature and optimize the performance of Li-ion batteries. This can be used to study and optimize the Battery Thermal Management System and other Thermal Management requirements arising in an electric vehicle which involves both active and passive cooling. A similar issue of heat (unwanted) exists in Motors as well, in this, we shall cover the Multiphysics simulation of Motors which shall include both electromagnetics and CFD Thermal studies of both air and liquid coolant motors.

Replacement of traditional combustion engines with an electric powertrain, bring electro-mechanical induced tonal and high-frequency whine noise. In addition, tire and aerodynamic turbulent noise become more prominent in the absence of a standard Internal Combustion Engine. Also, the perceived sound quality imposes a new set of challenges. This leads to completely new methods of NVH refinement, keeping the decades of research aside. As it is important to address these issues at the design and development stage, adopting the new simulation techniques to manage future NVH challenges in e-Mobility is of the prime challenge to the traditional NVH engineers. In this webinar, we shall discuss some of those key NVH challenges specific to electric vehicles and appropriate simulation processes to develop countermeasures.

Electric Vehicles (EV) are complex systems and need to be connected, automated, lighter & smarter all at once. This calls for systems engineering where different systems are seen whole instead of in silos. Experience e-Mobility Simulation using Altair Model-Based System simulation solutions with real-time motor controller implementation on HIL (Hardware in the loop) with the micro-controller. Its intuitive block diagram environment allows users to model and simulate continuous and discrete dynamical systems, mix signal-based, physical modeling and Co-simulation with electro-magnetic & multi-body dynamics. End to end system-level virtual simulation for complete e-Mobility is made possible.

Traction Motor play key role in the electric vehicle/hybrid electric vehicle (EV/HEV) development process. The design of a High-Performance e-Motor is a complex undertaking. Engineers have conflicting constraints to consider including efficiency, temperature, weight, size, and cost. To explore more ideas, better understand their designs and improve performance, Altair HyperWorks™ has a workflow to guide motor designers through an efficient process of Simulation-Driven Design. This analysis and optimization solution supports multi-disciplinary teamwork and reduces design times.

Learn how next generation math and system design products can be applied right from concept studies, control design, multi-domain system performance optimization to controller implementation & testing.

Webinar from Prof. Dr. D.W.J. Pulle

Discover Altair Compose™ as an open, multi-language environment (IDE) for calculations, scripting, data processing and visualization using 2D & 3D plots. Hundreds of math functions and modeling tools are built-in, ranging from basic to more advanced & specialized – with no extra-cost add-ons required. Built-in CAE data readers are especially handy for easily importing and post-processing your CAE or test data with Compose. Register custom functions for re-use with other HyperWorks products.

Learn how Activate serves as Altair’s open integration platform for multi-disciplinary system simulation involving mechanical dynamics, controls, hydraulics, thermal effects, electronics, electromagnetics, and more. 1D diagrams can be built using either a signal-based approach or a physical modeling approach based on the Modelica and SPICE standards or both. Hybrid simulations can involve continuous time and discrete events. Models can be linearized for analysis in the frequency domain. Mixed models combining 1D+3D can be constructed and simulated by using the Functional Mockup Interface (FMI) standard. All tools are built-in; no extra-cost add-ons are required.

In order to improve low-frequency truck ride comfort, it is important to derive optimal Cab/Chassis Suspension & Damping values by evaluating the vehicle vibration characteristics caused by road surface condition. In this study, the ISO 8608 standard road profiles are implemented using Compose and MotionSolve. The vibration characteristics and the effect of design parameters are studied. The ride comfort performance is evaluated using the ISO 2631. Heavy Duty Truck (10x4 Cargo, Payload 25ton) is constructed with a flexible multi-body dynamics model using MotionSolve. The Quarter Car and Half Car’s vibration models are constructed with Compose and MotionSolve and the possibility of preliminary ride comfort evaluation was studied.

Watch this webinar to see a demonstration of a multiphysics simulation approach using the Altair HyperWorks platform for the analysis of airborne radomes for electromagnetic , structural, aerodynamic, and bird strike performances.