Parker Lord's CoolTherm thermal management portfolio is recognized for reliability and custom solutions for use in electric vehicles and e-scooters alike. CoolTherm solutions increase performance, reliability, and safety while delivering tailored products to reduce heat and increase power density in electric two and three wheelers. These products boast high thermal conductivity and low viscosity, which lends itself to a variety of product applications.
Learn how our liquid dispense thermally conductive gap fillers can be used to replace thermal pads.
Enable your electric scooter assembly process with our adhesives that couple high-bond strength with thermal conductivity.
Our foams for EV and e-scooter applications provide high thermal conductivity and the dissipation of heat
With high thermal conductivity and low viscosity, our potting and encapsulants have applications in a variety of e-scooter parts.
On-Demand Webinar
What you’ll learn:
Your electric scooter or electric motorcycle motor, battery or on-board charger require highly-engineered thermal management materials and coatings to help your design run more effieciently, enhance performance and prevent thermal runaway.
CoolTherm liquid-dispense gap fillers, potting and encapsulants and thermally conductive structural adhesives can be used in e-Scooter battery pack applications to remove heat from the most critical component. With chemistries including silicone, urethane, acrylic and epoxy, our materials are compatible with lithium-ion electric scooter or electric motorcycle batteries.
We offer potting and encapsulant materials as well as a dielectric coating that are compatible with electric scooter motors. Thermally-conductive epoxy and silicone encapsulants help manage heat, which enables you to increase the power density and life of your electric motor. Our studies have shown a temperature decrease of up to 50°C or an increase in power output up to 30% when using CoolTherm materials.
CoolTherm gap fillers and encapsulants improve proper heat flow in inductors and transformers, optimizing performance during charging and increasing product longevity. Since our encapsulants have a low viscosity, they flow easily into the tiniest crevices, enabling better impregnation of irregularly-shaped magnetic components and helping to reduce inductor hum.
PRODUCTS IN ACTION
This video demonstrates where our materials can go on two or three wheelers. It starts by showcasing the motor being potted, then opens up the battery box to show where our CoolTherm gap fillers, potting materials or low-density foams can be dispensed. Finally, the on-board charger has gap fillers applied to its electronic components to help remove heat.
Beyond e-sCooters
Two- and three-wheeler electric vehicles go beyond e-Scooters. The electric motorcycle, or e-Motorcycle, market continues to grow, driven by a demand for clean, efficient, and eco-friendly transportation. In our product brochure, we cover the materials equipped to support e-Motorcycle battery, motor, and onboard charger designs. Get it now.
Expect the Same Level Quality Around the Globe
We provide products and services that consistently meet customer expectations of quality and value. A central element of our culture is an unwavering commitment to quality and continuous improvement. Our thermal management team is certified and registered to ISO 9001 and IATF 16949 which guides our focus on producing the highest quality products.
We are, where you are
As electric vehicle platforms ramp up, so do our customer's expectations of an ideal supplier. You expect high performance and consistent quality from your suppliers and this is where we thrive. We have manufacturing facilities around the world that follow standardized processes for material development, which enables us to get you products in a timely and cost-effective manner. We've expanded our capabilities to manufacture in China, Europe, and the United States.
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.
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.
There’s been a rapid growth of electric vehicles (EVs) in the past few years from nearly 740,000 in 2016 to upwards of 5.6 million today, so it’s no question that automakers are making advancements toward mass market adoption. Learn about the rise of the e-scooter in India.
Learn more about how expanding the availability of e-scooters and overcoming battery limitations can reduce emissions.
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