By submitting this form, you are agreeing to the Terms of Use and Privacy Policy.
A specialised testing tool used to assess the safety of lithium-ion batteries under difficult conditions is the nail penetration crush tester. This apparatus is intended to replicate the nail puncture and crush tests that batteries could experience while being used or transported.
Due to the rising usage of lithium-ion batteries in several applications, including electric cars, cellphones, and laptops, the lithium-ion battery nail penetration crush tester market has been expanding recently. Safety is of vital importance since lithium-ion batteries are frequently employed in equipment that demands high energy density.
The tester operates by mimicking various external mechanical stresses that a battery could experience while in operation. It might make the battery look like it is being crushed or punctured by a nail or screw.The main market for this equipment is lithium-ion battery and battery-powered gadget manufacturers.
They make use of the tester to make sure their goods adhere to the necessary safety standards and laws. The necessity for high-performance batteries and the rising popularity of electric vehicles have increased demand for lithium-ion battery nail penetration crush tests.
In order to address the rising demand for lithium-ion batteries, numerous players are putting their efforts into developing cutting-edge testing methods.
The Global Lithium Ion Battery Nail Penetration Crush Tester market accounted for $XX Billion in 2022 and is anticipated to reach $XX Billion by 2030, registering a CAGR of XX% from 2023 to 2030.
Tob New Energy introduces a brand-new item that was developed in China. This battery crush nail penetration test machine is intended to replicate real-world lithium battery usage scenarios, including battery crushing, and to provide feedback on various outcomes under various crushing scenarios.
The motor powers the screw to impart the crushing force onto the battery, which is sandwiched between two crushing boards. If a predetermined force value is reached, the voltage drops to a predetermined level, or the battery deforms, the screw returns, and the cycle of repeated crushing and return repeats.
