As automotive technology advances, the demand for improved structures and systems in electric and hybrid vehicles is higher than ever. In our upcoming webinar on September 18, hosted by ASM International, we discuss how advanced materials can provide a solution to automotive design challenges. Specialty alloys and composites can enable better electrical, mechanical and thermal performance of EVs, PHEVs, hybrids and standard vehicles - while keeping costs in check. The webinar will cover multilayer clad metals for better battery packs, high-strength alloys for drivetrain components, materials for hydrogen fuel cells and electrolysis, and more. Register today: https://bit.ly/3X5NORX #AutomotiveEngineering #ElectricVehicles #HybridVehicles #AdvancedMaterials #EnablingWhatsNext
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Get in gear with us next week as we join ASM International to host a webinar on how advanced materials are key to solving design challenges in automotive structures and systems. On September 18, discover the power of specialty alloys and composites to enhance the electrical, mechanical and thermal performance of EV, hybrid and standard vehicles. Stay in the fast lane of automotive tech and ensure your designs meet the highest standards of performance and cost-effectiveness. Register here: https://bit.ly/3X5NORX #AutomotiveEngineering #EVTechnology #HybridVehicles #EnablingWhatsNext
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I am thrilled to share that I have been featured in ELE Times and TimesEV! In this exciting feature, I have discussed the evolving role of CAE in the automotive industry. CAE is proving to be a game-changer for optimizing #ElectricVehicle systems, from battery management to thermal performance. At #DEP, we are passionate about leading innovations that serve both large OEMs and specialized niche players, tailoring solutions to meet the unique demands of the EV market. I invite you to read more about how we're advancing automotive engineering and shaping the future: https://lnkd.in/gcbg8Hm5 #AutomotiveEngineering #CAE #ElectricVehicles #Innovation #BatteryManagement #ThermalPerformance #EVTechnology #EngineeringExcellence
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⚡Sizing #ElectricVehicle components for dynamic and steady-state simulation just got easier. With the latest Modelon Library content, users can size components (including electric motors, battery packs, cables, etc.) based on the system's operation requirements. 🔋New Electrification Library content includes examples for sizing such components and improves electrical connectors, making it easier to build models. These updates reflect Modelon’s continued commitment to revolutionizing engineering design and simulation. 🔸Learn more about Modelon's latest content: https://lnkd.in/gjGpvn8y #ModelonImpact #EV #SystemSimulation #Electrification #Automotive #AutomotiveTechnology
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At the heart of the advancements in the automotive industry are the components that power electric motors. Often overlooked but crucial, stators work with the rotor to create the electromagnetic field that drives an electric motor. Their precision and quality are not just critical, but they are the key to unlocking the full potential of an electric motor, enhancing its performance and reliability. PEI's precision chemical machining techniques ensure high-quality stators with smooth operation, long-term durability, and optimal energy conversion. These components meet the automotive industry's strictest requirements and provide optimized parts for peak efficiency. Our robust manufacturing capabilities not only support precision required, but the high production volumes demanded by the industry, ensuring consistent quality at scale. Let's discuss how we can work together to build cleaner and more efficient electric vehicles. #PEI #PrecisionEngineering #AdvancedTechnology #PhotochemicalEtching #Stators #EVs
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Electrified powertrain systems are increasingly complex, involving components like electric motors, batteries, inverters, and control systems. To develop the most efficient powertrain, the components must be designed and optimized as part of the system, not separately. A system-level design approach is crucial to increasing the driving range and efficiency of EVs while decreasing the cost. Join us for the upcoming webinar and learn how Ansys Concept EV- A Collaborative E-Powertrain Development Platform, enables engineering teams to optimize the entire e-powertrain design and make faster and accurate decisions early in the development process. Register now- https://lnkd.in/dtrXVG3H Tushar Sambharam Tushit Desai Ankit Adhiya Sameera Damle #electrification #electricvehicles #automotive #productengineering #simulation
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A good engineer can not only create create technology but also understand older technology to integrate into new designs and emergent technology. Here viewed is a recreation of Honda's RT4WD Hydraulic Viscous Coupler. It's meant to be installed inline between the transfer case and rear differential and acts as a fluid filled hydraulic dampner to ease tq transmission thru the drivetrain. Understanding how things work makes it easy to take a grassroots approach to development which is the basis for development for most engineers and winning products. This new design uses Aerospace technology following fluid and thermal dynamics and automotive engineering to design a product that can handle the abuse of the track and street. It's designed to use several types of silicon oil allowing the fluid lockup desired by the operator. Recommended to be used with 35,000cst to 100,000 cst viscous fluids. The world's FIRST recreation of an automotive grade fluid coupler ever made. You gotta know where you been before you can figure out where your going!
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Unlock the future of electric vehicles with Optiphase Drive Systems' revolutionary five-phase motor design, leveraging Ansys software to address the limitations of traditional three-phase motors, enhancing power, reliability, and sustainability for a wide range of applications from aerospace to heavy machinery.
Ushering in the Next Phase of Electric Motor Design
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Unlock the future of electric vehicles with Optiphase Drive Systems' revolutionary five-phase motor design, leveraging Ansys software to address the limitations of traditional three-phase motors, enhancing power, reliability, and sustainability for a wide range of applications from aerospace to heavy machinery.
Ushering in the Next Phase of Electric Motor Design
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Unlock the future of electric vehicles with Optiphase Drive Systems' revolutionary five-phase motor design, leveraging Ansys software to address the limitations of traditional three-phase motors, enhancing power, reliability, and sustainability for a wide range of applications from aerospace to heavy machinery.
Ushering in the Next Phase of Electric Motor Design
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