Summary
- Electrification of industrial vehicles is a necessity for sustainability and efficiency
- Industrial batteries, especially in EVs, require robust thermal management for optimal performance
- Parker’s CoolTherm TC-2002 adhesive ensures superior thermal conductivity and mechanical bonding for battery systems
- Emerging non-automotive EV markets like warehouses, construction, motorcycles, marine, and aerospace are driving advanced battery demand
- Challenges in non-automotive EV battery development include thermal management, weight reduction, sealing solutions, and durability, which Parker addresses with tailored solutions.
Article
The electrification of industrial vehicles is becoming a necessity in today’s push towards sustainability and efficiency. With electric vehicles (EVs) spreading to various industrial sectors, the demand for reliable and robust battery systems is increasing. Industrial batteries, especially those used in EVs, must withstand extreme conditions and maintain optimal performance over extended periods. One critical aspect is thermal management, as poor heat dissipation can lead to reduced performance, safety hazards, and a shortened lifespan. Thermally conductive structural adhesives, like Parker’s CoolTherm TC-2002, play a crucial role in ensuring effective heat dissipation and maintaining the structural integrity of battery components.
Real-world applications of thermal management materials, such as Parker’s CoolTherm solutions, have proven instrumental in enhancing the performance and reliability of EV batteries in various industrial sectors like construction, mining, agriculture, and logistics. By integrating these materials into battery designs, manufacturers can achieve improved heat management, extended battery life, increased energy efficiency, and enhanced operational safety. Emerging non-automotive EV markets, including warehouse equipment, trucks and buses, the construction industry, electric motorcycles, and marine and aerospace applications, are adopting advanced battery technologies. Each sector presents unique demands and opportunities for growth, further fueling the demand for innovative battery solutions.
The warehouse sector is transitioning to lithium-ion battery powertrains from nickel batteries and propane powertrains, driven by the growing demand for electric power, sustainability practices, and advancements in battery technology. The electric truck and bus market is gaining momentum due to technological innovations, emission regulations, and advancements in battery performance, reducing environmental impact and operational costs. Electrification in the construction industry is also on the rise, with heavy-duty electric vehicle battery designs adapting to harsh environments and anticipated growth in construction applications. Electric motorcycles are experiencing a surge in market growth due to the lightweight and high-energy density of lithium-ion batteries, meeting specific demands in this sector. Marine and aerospace industries are focusing on advanced battery technologies to address weight constraints, corrosion resistance, and other challenges.
Challenges in non-automotive EV battery development include effective thermal management, weight reduction without compromising performance, robust sealing solutions, and ensuring durability to withstand rigorous demands and conditions. Parker leverages its expertise in thermal management solutions to meet these challenges, enhancing battery reliability and longevity. By integrating cutting-edge materials like thermally conductive adhesives, such as the CoolTherm portfolio, companies can improve battery performance and reduce downtime in non-automotive EV applications. The demand for advanced battery technologies continues to grow as industries innovate toward sustainability and efficiency, with Parker offering tailored solutions to meet sector-specific needs and drive success in dynamic markets.
The integration of thermally conductive adhesives into battery systems, like Parker’s CoolTherm TC-2002, showcases efforts to enhance battery performance, safety, and lifespan by managing thermal loads effectively. Understanding the evolving landscape of advanced battery technology and the opportunities it presents is crucial for businesses looking to capitalize on market growth. Parker’s solutions provide a pathway to success by empowering operations across diverse sectors with technologies customized to meet industry needs. The electrification of industrial vehicles and the rise of non-automotive EV markets mark a new era in battery technology, allowing industries to leverage advancements in thermal management and durability to drive growth and innovation. Visit Parker’s website to explore how their advanced technologies can revolutionize industrial battery systems and stay informed about the latest in thermally conductive adhesives and other cutting-edge solutions.
Read the full article here
