Join our electrification experts for a deep dive into our products, features, industry trends and more. See below for on-demand webinars and watch when you can.
What We Cover:
What We Cover:
What We Cover:
What We Cover:
What We Cover:
What We Cover:
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As consumer demand for higher-performing electric vehicles continues to rise, so does the need for highly engineered solutions that enable these vehicles to have higher power density, faster charging and increased safety and reliability.
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This video explains how electrification can refer to more than electric vehicles; how electrification is using battery technology in place of traditional fossil fuels to power mining equipment, marine transportation, and even your home.
A study is conducted to compare thermal performance in battery modules using different thermal interface materials (TIMs) to connect the battery cells to a cooling plate. CoolTherm® liquid-dispense gap fillers are compared with thermal gap pads of comparable thermal conductivity.
This paper will review new developments in thermally conductive urethane adhesives that enable direct bonding of prismatic battery cells to aluminum cooling plates with the above requirements in mind. Comparisons to traditional battery pack configurations and associated adhesive solutions will also be discussed.
In this whitepaper, we share our comparative analysis between 2K and 1K gap fillers, where the advantages and trade-offs of using 1K over 2K are discussed.
The fast-growing EV market demands robust and efficient thermal management solutions for battery packs, such as gap fillers and thermal pads. Gap fillers outperform thermal pads to achieve lower thermal impedance, as the gap fillers conform to surface roughness before curing. This allows gap fillers to adhere well to surfaces and provide mechanical support during normal operation. However, this also poses a challenge during repair, removal and re-manufacturing.
Excess heat can reduce the reliability of motors and shorten their lifetimes. Good thermal management in electric machines allows for cooler, higher-density motors.
Electric vehicles - including automobiles, buses, trains, off-road vehicles, watercraft, and aircraft are here to stay. A key challenge in developing higher-power-density electronics for electric vehicles and other applications is to manage the heat. This e-book covers topics crucial to thermal management in your applications.
We work with our customers to deliver the best thermal management products for complex applications, moving with speed and agility to create highly-engineered solutions for the EV industry to manage heat and increase power density. Check out our electrification brochure for details on our fully customizable line of CoolTherm® thermal management products.
With the growth of electric vehicles around the world showing no sign of slowing, electric or e-scooters are at the forefront. E-scooters are lightweight, carbon-efficient, and can maneuver easily through congested traffic. With EV technology becoming more affordable, e-scooters are now significantly cheaper to ride than other modes of transportation — and the up-front and operational costs for owners are greatly reduced.
From mimicking an idle feel, throttles and high-speed gear shifts to providing a superior driving experience with premium vibration indicators, this technology is shifting the future of the electric vehicle (EV) experience.
We offer potting & encapsulants that are thermally conductive for applications where you need to remove heat, as well as non-thermally conductive materials.
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