Large Battery Adiabatic Calorimeter
LBT-420A
Large Battery Adiabatic Calorimeter complies with the "Adiabatic Temperature Rise Characteristics" experimental standard of 36276-2023 "Lithium-ion Batteries for Power Energy Storage", and can meet the thermal safety test requirements of battery cells within 600mm and small modules.
- Remove this product from my favorite's list.
- Add this product to my list of favorites.
Product info
Large Battery Adiabatic Calorimeter complies with the "Adiabatic Temperature Rise Characteristics" experimental standard of 36276-2023 "Lithium-ion Batteries for Power Energy Storage", and can meet the thermal safety test requirements of battery cells within 600mm and small modules.
Product Introduction
LBT-420A Large Battery Adiabatic Calorimeter has a special test mode that complies with the "adiabatic temperature rise characteristics" experimental standard of 36276-2023 "Lithium-ion Batteries for Power Energy Storage". It is an adiabatic calorimeter for studying large battery cells and small modules with a long side of 100mm~600mm. It can realize battery thermal runaway test, battery gas production test, battery charge and discharge heat production test, battery specific heat capacity test, and accurately obtain lithium battery charge and discharge heat production and specific heat capacity, thermal runaway starting temperature, maximum thermal runaway rate, adiabatic temperature rise characteristics, battery gas production and gas production rate and other parameters. The instrument can provide data support for the safety performance evaluation of lithium batteries and battery modules; and provide an evaluation basis for the thermal management system of power batteries.
The instrument has the functions of adiabatic thermal runaway, heating wire auxiliary heating, 36276 adiabatic temperature rise test, gas collection and pressure test, thermal/electrical/mechanical abuse, s pecific heat capacity test, charge and discharge heat generation test, multi-point temperature measurement, video monitoring, etc.
Guideline
36276-2023 Lithium-ion batteries for power storage
UL 9540A
ASTM E1981-98(2012)
Guidelines for the evaluation of thermal stability of chemicals Part 1: Accelerating rate calorimeter method
USABC SAND99-0497, July 1999: 3.2 Thermal Stability Tests
SAE J2464-R2009: 4.4.2 Thermal Stability Tests
Freedom CAR SAND 2005-3123: 4.1 Thermal stability
UL 1973
GB 38031-2020 Safety requirements for power batteries for electric vehicles
Features
Accurate: The sensitivity of self-heating detection is much better than the standard detection threshold of 0.02℃/min, with high insulation performance and small
temperature difference between wall and sample. Efficient: Innovative heating wire auxiliary heating solution, the experimental efficiency can be increased by up to 5 times.
Safety: The furnace body is equipped with bursting disc and spring lock design, and the explosion-proof box is standard. Double protection ensures the safety of experimental personnel and equipment
Technical specifications
MODEL | LBT-420A |
Effective size of insulation cavity | Diameter 420mm, depth 520mm |
Self-heating detection sensitivity | Better than 0.02℃/min |
Constant temperature wall sample temperature difference | ≤0.5℃ |
Temperature control range | RT~300℃ |
Temperature tracking rate | 0.02~13℃/min |
Sealed test tank working pressure range | 0~2MPa |
Maximum acupuncture stroke | Itinerary software can be set |
Overcurrent capacity of charge and discharge electrode column | -500A~500A |
