Västerås, Sweden, February 27, 2024 – Isostatic pressure has been shown to be a  key process to ensure solid-state battery performance. This has now led to Quintus  Technologies’ introduction of a small-footprint isostatic battery press for the  laboratory environment. The new system, the MIB 120, has been specifically  designed to meet the needs of the research community, with its space-saving profile  and minimal need for additional infrastructure. The new press has been engineered  to deliver results consistent with larger Quintus battery presses, an invaluable  capability for universities and institutes engaged in basic research, feasibility, and  prototyping studies of Isostatic Battery Pressing. 

“We listened to the cell design engineers and developed the MIB 120 press  accordingly,” says Peter Henning, Director, Marketing and Sales, Quintus  Technologies. “Now, the parameters chosen for pressure and temperature are  consistent throughout the entire Quintus battery press line, from the new small lab  model to our large-scale mass production machines. This enables a smooth  transition for scaling up cell or pouch sizes without compromising on process or  quality.” 

In comparison with other compressing technologies, isostatic pressing stands out as  the most effective method to address challenges in solid-state battery development. 

Quintus Technologies is the global leader in high pressure technology. The company designs, manufactures, installs, and  supports high pressure systems in three main areas: densification of advanced materials; sheet metal forming; and high  pressure processing for food and beverage innovation, safety, and shelf life. Quintus has delivered more than 1,900  systems to customers across the globe within industries such as energy, medical implants, space, aerospace,  automotive, and food processing. The company is headquartered in Västerås, Sweden, with a presence in 45 countries  worldwide. 

Studies have shown that isostatic pressure is the only way to close the porosity in  coated composite layers inside solid-state batteries effectively to a degree that  creates peak electrochemical performance, Mr. Henning explains. This allows for  uniform compression of small and large multilayer cells, preserving the internal  layered structure of components, without creating local defects or inhomogeneities.  

The multitude of orders Quintus has received from both start-up and OEM-level  customers confirms that the company’s isostatic battery presses are playing a key  role in the research, development, and mass production of solid-state batteries.  

“Thermal runaways in lithium-ion batteries are a continuing discussion topic with  respect to personal safety in the automotive and electronics industry,” Jan  Söderström, CEO and President, Quintus Technologies, points out. “Unlike  conventional lithium-ion cells, solid-state batteries do not contain a liquid electrolyte,  making them inherently safer whilst offering the added benefits of improved energy  density, shorter charging times, and a smaller carbon footprint.” 

The MIB 120 can reach pressures of 600 MPa (87,022 psi) and temperatures of 140°  C (284° F), which are fully scalable parameters for industrial presses from Quintus  Technologies. The press is designed to have a very high temperature uniformity,  which guarantees a high reproducibility of cells, under conditions that can be  transferred to mass production once concepts have been proven.  

The research model includes heated pressure vessel, pressurization system, heated  fluid reservoir, and all instrumentation controls. The self-contained system is  delivered ready for connection to air and electricity.  

“As the leader in the production of high pressure equipment for more than 70 years,  we are focused on the development of long-term customer relationships,” comments  Mr. Söderström. “Offerings such as access to global research partners and trials in  our Customer Application Centers add significant value, strengthening our partnerships with solid-state battery companies throughout the supply chain. These  partnerships also support Quintus’s commitment to using our high pressure  technology to advance sustainability.” 

MIB 120 customers can opt to participate in Quintus® Care, a rigorous partnership  program designed to reduce operational risks and provide trouble-free equipment  operation. It also includes technical and application support and spare parts

Quintus Technologies is the global leader in high pressure technology. The company designs, manufactures, installs, and  supports high pressure systems in three main areas: densification of advanced materials; sheet metal forming; and high  pressure processing for food and beverage innovation, safety, and shelf life. Quintus has delivered more than 1,900  systems to customers across the globe within industries such as energy, medical implants, space, aerospace,  automotive, and food processing. The company is headquartered in Västerås, Sweden, with a presence in 45 countries  worldwide. 

management. Having a Quintus Care contract allows for close collaboration on how  the press is used, optimized, and improved during the product lifecycle. 

About Quintus Technologies  

Quintus Technologies is the global leader in high pressure technology. The company  designs, manufactures, installs, and supports high pressure systems in three main  areas: densification of advanced materials; sheet metal forming; and high pressure  processing for food and beverage innovation, safety, and shelf life. Quintus has  delivered approximately 1900 systems to customers within industries such as  energy, medical implants, space, aerospace, automotive, and food processing. The  company is headquartered in Västerås, Sweden, with a presence in 45 countries  worldwide. For more information, visit https://quintustechnologies.com/  

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