The Loan Programs Office at the US Department of Energy (DOE) has made a conditional commitment for a direct loan of up to $670.6 million to Aspen Aerogels Georgia to help finance the construction of an aerogel blanket manufacturing facility in Register, Georgia. Aspen’s PyroThin aerogel thermal barriers are used as a protective layer within… Read more »
Search Results Found For: "Aspen Aerogels"
Aspen Aerogels opens Advanced Thermal Barrier Center in US to optimize cell-to-cell barriers
Aspen Aerogels, an aerogel-based electrification company, has opened its engineering and rapid prototyping facilities in Marlborough, Massachusetts. Aspen’s 59,000-square-foot Advanced Thermal Barrier Center (ATBC) will create PyroThin cell-to-cell barriers to optimize battery pack safety and performance for the e-mobility and energy storage system sectors. The PyroThin barriers prevent thermal runaway propagation and are optimized based… Read more »
Thermal runaway in EV battery packs: designing a mitigation strategy
Aspen Aerogels’ cutting-edge materials protect against thermal runaway Thermal runaway occurs inside a battery cell through a fault, a crash scenario or some other defect that causes the cell to release thermal energy through chemical reactions. That thermal energy increases the temperature of the cell, the increased temperature drives faster kinetics, and more heat is… Read more »
It’s about time: the 6 phases of thermal runaway propagation
Sponsored by Aspen AerogelsThermal runaway propagation is a complex challenge. No matter the cell chemistry or pack architecture, lithium-ion batteries are at risk of experiencing a thermal runaway event. Although there is no one-size-fits-all solution, battery engineers do not need to reinvent the wheel when developing a solution to meet critical safety requirements. By understanding… Read more »
Don’t just delay cell-to-cell thermal propagation, stop it.
Sponsored by Aspen Aerogels Battery engineers face the daunting challenge of maximizing thermal runaway protection while optimizing vehicle performance. This task becomes even more critical as cell-to-pack and cell-to-chassis designs increase in popularity because manufacturers lose the added protection that can be built into a module-based design. Although newer chemistries such as LFP and solid-state… Read more »
Advanced Thermal Barriers: How To Transform Your Thermal Runaway Mitigation Strategy
Battery engineers face the challenge of maximizing a vehicle’s performance while optimizing thermal runaway propagation protection. In this webinar, we will explore the role of compression pads and cell-to-cell barriers in managing mechanical and thermal energy inside modules and/or packs. Attendees will develop an understanding of possible solutions, including foams, fibers, foils, and aerogels. We… Read more »
How to reduce complexity of power connections in EVs (Webinar)
Electric vehicles have high voltage systems that require precise connections, and demand for innovative components is rapidly increasing around the globe. Recently acquired by Eaton, Royal Power Solutions is recognized for its numerous industry-leading electrical components, including stamped battery and eyelet terminals specially designed for electrified vehicles. These power connection technologies provide vehicle manufacturers with… Read more »
Under Fire: Reevaluating Torch and Grit Testing Parameters
Sponsored by Aspen Aerogels. The safety of Li-ion batteries relies on containing single-cell thermal runaway (TR) events so that they cannot propagate into adjacent cells, triggering a cascading failure. While the thermal energy released during a runaway event can take multiple pathways, the most significant are: The first can be controlled with high-performance insulation materials… Read more »