"Specialized chamber for lithium battery packs, conducting temperature/humidity cycling tests to assess reliability, performance, safety, and lifespan under simulated environmental conditions."

The Battery Pack Low Pressure Testing Chamber simulates low-pressure environments to evaluate lithium battery safety and performance under extreme conditions. With precise pressure control, real-time monitoring, and compliance with global standards, it supports R&D and quality assurance for aerospace, automotive, and energy storage systems.

The Battery Pack Compression Testing Chamber evaluates lithium battery structural integrity under mechanical stress, simulating real-world compression scenarios. With precision control, real-time data analysis, and compliance with UL/IEC standards, it ensures safety, performance, and resistance to extrusion failure for automotive, energy storage, and industrial applications.

The Precision Battery Pack Vibration Testing Machine evaluates lithium battery endurance under simulated real-world vibration stress. Featuring adjustable frequency/amplitude, real-time data monitoring, and compliance with UL/IEC standards, it ensures reliability, safety, and performance for automotive, aerospace, and energy storage applications. Ideal for R&D and quality assurance in extreme conditions.

The Battery Pack Drop Testing Machine evaluates lithium battery durability under free-fall impacts, simulating real-world accident scenarios. Featuring adjustable height/angle controls, high-speed data acquisition, and compliance with UL/IEC standards, it ensures crash safety for EVs, portable devices, and energy storage systems in rigorous QA validation.

The Battery Pack Combustion Testing Machine evaluates lithium battery safety under extreme fire conditions, simulating real-world combustion incidents. Featuring adjustable temperature/ignition controls, real-time thermal monitoring, and compliance with UL/IEC/UN38.3 standards, it ensures fire resistance, thermal runaway prevention, and flame spread mitigation for EVs and energy storage systems.

The Battery Heavy Object Impact Testing Machine evaluates lithium battery safety under drop-weight impacts, simulating real-world collision scenarios. Featuring adjustable force/height controls, high-speed data recording, and compliance with UL/IEC/UN38.3 standards, it ensures structural integrity, crash resistance, and thermal stability for EVs, energy storage, and consumer electronics.

The Advanced Battery Pack Testing Impact Table evaluates lithium battery safety under mechanical shocks, simulating real-world collision forces. With adjustable impact profiles, precision measurement sensors, and compliance with UL/IEC/UN38.3 standards, it ensures structural resilience for EVs, energy storage, and industrial applications through real-time data-driven QA validation.

The Reliable Battery Pack Overcharge-Discharge Tester evaluates lithium battery safety under extreme charge/discharge cycles. Featuring precision voltage/current controls, real-time data logging, and compliance with UL 2054/IEC 62133/UN38.3 standards, it ensures thermal runaway prevention, short-circuit mitigation, and voltage stability for EVs, energy storage, and consumer electronics.

The Battery Pack High-Low Temperature Testing Chamber evaluates lithium battery performance under extreme thermal (-40°C to 150°C) and humidity (10-98% RH) conditions. With rapid temperature cycling, real-time monitoring, and compliance with UL/IEC/UN38.3 standards, it ensures reliability for EVs, energy storage, and electronics in harsh environments

The Battery Pack Seawater Immersion Testing Device simulates harsh seawater conditions to validate lithium battery durability and safety during prolonged saltwater exposure. With corrosion-resistant design, automated test cycles, and compliance with IP68/maritime standards, it ensures leak-proof integrity and electrical stability for marine, EV, and energy storage applications