How an EV battery is packaged is as important to the environment as how the unit runs.
Electric vehicles (EVs) have taken the automotive world by storm, promising reduced emissions, improved performance, and a sustainable future. However, the engineering behind EVs presents a unique set of challenges, particularly when it comes to packaging the vehicle’s heart: the battery.
As the global market for EVs continues to grow, so does the demand for advanced, reliable, and efficient battery packaging solutions. Innovative impulse heat-sealing technology is at the forefront of addressing these evolving needs, offering unparalleled precision, reliability, and sustainability in EV battery packaging.
Unique Challenges
Consumers expect their EVs to be safe, durable and efficient. Manufacturers are turning to impulse heat sealing to meet their expectations while meeting the increased EV demand. The surge in demand isn’t limited to EVs, either. The rise of battery-powered devices across industries, from medical devices to consumer electronics, has led to an explosion in the variety of battery sizes and shapes—which the packaging must accommodate.
EV manufacturers, constantly pushing the boundaries of design and performance, often must fit batteries into contoured spaces within a vehicle. As battery technology evolves, we are seeing more batteries being built directly into the devices they power. This trend is apparent in everything from smartphones to electric cars. Impulse heat-sealing technology, with its ability to adapt to these complex shapes, is ideally suited to meet this emerging need.
Demand for advanced, reliable, and efficient electric vehicles continues to grow, as does the need for advanced battery packaging solutions. credit: iStock/3alexd
Sustainability and Safety
In the world of heat sealing, there are four main technologies commonly used for sealing polymeric materials: Radiofrequency (RF), ultrasonic, constant heat, and impulse heat sealing. Each type comes with pros and cons.
RF and ultrasonic are the most expensive options. And while constant heat offers cheaper upfront costs, it requires constant heating of the tooling that creates the seal therefore consuming large amounts of energy. Impulse heat sealing, on the other hand, is more energy-efficient—requiring heat only for the duration of the heat-sealing cycle. Additionally, impulse heat sealing can handle practically all types of plastic films, giving manufacturers more flexibility in their packaging materials.
When it comes to critical applications such as EV batteries, the importance of a strong, hermetic seal cannot be overstated. In EV batteries, multiple cells are often stacked together, and if the anodes and cathodes come into contact with one another, it could lead to short circuits. This poses significant safety risks. Impulse heat sealing creates a secure seal around each cell, ensuring that there is no contact between the individual components, further enhancing the safety and reliability of the battery.
Unlike constant heat, which can lead to film waste and inconsistent results as the tooling overheats, impulse heat sealing controls the temperature cycle precisely, cooling the material immediately after heating. This process leads to a stronger and more consistent seal, reducing the risk of defects or waste. As manufacturers look to reduce their carbon footprint and energy consumption, impulse heat sealing provides a clear advantage.
Batteries for electric cars problematically come in all shapes—a fact that TOSS Machine Components is overcoming with its PIREG technology. credit: iStock/SweetBunFactory
The TOSS Difference
Today, TOSS impulse heat-sealing technology is being used by a variety of customers to package lithium batteries, from EVs to smaller devices like pacemakers. Whether the battery is powering a lawnmower or an EV, TOSS technology ensures that each cell is individually sealed with no risk of contact between the cells.
TOSS’ PIREG technology is at the core of its heat-sealing systems. By measuring the temperature of the heat seal band 60 times per second, PIREG ensures consistency across its seals. This high level of control is essential in applications where safety is paramount, such as in EVs.
Furthermore, these systems can scale to accommodate parts large and small, in any shape. This versatility ensures that no matter the application, a consistent, reliable seal is delivered every time. This is a significant advantage, especially as EV manufacturers seek more compact, efficient battery designs that still provide maximum performance.
Another key differentiator for impulse heat sealing is its ability to be validated. This is especially critical in industries where precision is paramount. TOSS systems feature a feedback loop that allows users to monitor temperature with a high resolution, ensuring that the sealing process is always functioning as intended.
As the world continues to shift towards EVs and battery-powered devices, the demand for advanced battery packaging solutions will only grow. Offering precision, reliability, and sustainability, TOSS is helping manufacturers deliver safer, more efficient products to consumers around the globe.
Power Packed
How an EV battery is packaged is as important to the environment as how the unit runs.
Electric vehicles (EVs) have taken the automotive world by storm, promising reduced emissions, improved performance, and a sustainable future. However, the engineering behind EVs presents a unique set of challenges, particularly when it comes to packaging the vehicle’s heart: the battery.
As the global market for EVs continues to grow, so does the demand for advanced, reliable, and efficient battery packaging solutions. Innovative impulse heat-sealing technology is at the forefront of addressing these evolving needs, offering unparalleled precision, reliability, and sustainability in EV battery packaging.
Unique Challenges
Consumers expect their EVs to be safe, durable and efficient. Manufacturers are turning to impulse heat sealing to meet their expectations while meeting the increased EV demand. The surge in demand isn’t limited to EVs, either. The rise of battery-powered devices across industries, from medical devices to consumer electronics, has led to an explosion in the variety of battery sizes and shapes—which the packaging must accommodate.
EV manufacturers, constantly pushing the boundaries of design and performance, often must fit batteries into contoured spaces within a vehicle. As battery technology evolves, we are seeing more batteries being built directly into the devices they power. This trend is apparent in everything from smartphones to electric cars. Impulse heat-sealing technology, with its ability to adapt to these complex shapes, is ideally suited to meet this emerging need.
Demand for advanced, reliable, and efficient electric vehicles continues to grow, as does the need for advanced battery packaging solutions. credit: iStock/3alexd
Sustainability and Safety
In the world of heat sealing, there are four main technologies commonly used for sealing polymeric materials: Radiofrequency (RF), ultrasonic, constant heat, and impulse heat sealing. Each type comes with pros and cons.
RF and ultrasonic are the most expensive options. And while constant heat offers cheaper upfront costs, it requires constant heating of the tooling that creates the seal therefore consuming large amounts of energy. Impulse heat sealing, on the other hand, is more energy-efficient—requiring heat only for the duration of the heat-sealing cycle. Additionally, impulse heat sealing can handle practically all types of plastic films, giving manufacturers more flexibility in their packaging materials.
When it comes to critical applications such as EV batteries, the importance of a strong, hermetic seal cannot be overstated. In EV batteries, multiple cells are often stacked together, and if the anodes and cathodes come into contact with one another, it could lead to short circuits. This poses significant safety risks. Impulse heat sealing creates a secure seal around each cell, ensuring that there is no contact between the individual components, further enhancing the safety and reliability of the battery.
Unlike constant heat, which can lead to film waste and inconsistent results as the tooling overheats, impulse heat sealing controls the temperature cycle precisely, cooling the material immediately after heating. This process leads to a stronger and more consistent seal, reducing the risk of defects or waste. As manufacturers look to reduce their carbon footprint and energy consumption, impulse heat sealing provides a clear advantage.
Batteries for electric cars problematically come in all shapes—a fact that TOSS Machine Components is overcoming with its PIREG technology. credit: iStock/SweetBunFactory
The TOSS Difference
Today, TOSS impulse heat-sealing technology is being used by a variety of customers to package lithium batteries, from EVs to smaller devices like pacemakers. Whether the battery is powering a lawnmower or an EV, TOSS technology ensures that each cell is individually sealed with no risk of contact between the cells.
TOSS’ PIREG technology is at the core of its heat-sealing systems. By measuring the temperature of the heat seal band 60 times per second, PIREG ensures consistency across its seals. This high level of control is essential in applications where safety is paramount, such as in EVs.
Furthermore, these systems can scale to accommodate parts large and small, in any shape. This versatility ensures that no matter the application, a consistent, reliable seal is delivered every time. This is a significant advantage, especially as EV manufacturers seek more compact, efficient battery designs that still provide maximum performance.
Another key differentiator for impulse heat sealing is its ability to be validated. This is especially critical in industries where precision is paramount. TOSS systems feature a feedback loop that allows users to monitor temperature with a high resolution, ensuring that the sealing process is always functioning as intended.
As the world continues to shift towards EVs and battery-powered devices, the demand for advanced battery packaging solutions will only grow. Offering precision, reliability, and sustainability, TOSS is helping manufacturers deliver safer, more efficient products to consumers around the globe.
By Trevor Stout, Guest Columnist
Trevor Stout is applications engineer for TOSS Machine Components, a distributor of precision heat sealing equipment.Also Read