Testing Data of Cell Thermal Runaway and Analysis of Gas Production,
Gas,
Circular 42/2016/TT-BTTTT stipulated that batteries installed in mobile phones, tablets and notebooks are not allowed to be exported to Vietnam unless they are subjected to DoC certifctaion since Oct.1,2016. DoC will also be required to provide when applying Type Approval for end products (mobile phones, tablets and notebooks).
MIC released new Circular 04/2018/TT-BTTTT in May,2018 which stipulates that no more IEC 62133:2012 report issued by overseas accredited laboratory is accepted in July 1, 2018. Local test is necessity while applying for ADoC certificate.
QCVN101:2016/BTTTT(refer to IEC 62133:2012)
The Vietnamese government issued a new decree No. 74/2018 / ND-CP on May 15, 2018 to stipulate that two types of products imported into Vietnam are subject to PQIR (Product Quality Inspection Registration) application when being imported to Vietnam.
Based on this law, the Ministry of Information and Communication (MIC) of Vietnam issued the official document 2305/BTTTT-CVT on July 1, 2018, stipulating that the products under its control (including batteries) must be applied for PQIR when being imported into Vietnam. SDoC shall be submitted to complete the customs clearance process. The official date of entry into force of this regulation is August 10, 2018. PQIR is applicable to a single import to Vietnam, that is, every time an importer imports goods, he shall apply for PQIR (batch inspection) + SDoC.
However, for importers who are urgent to import goods without SDOC, VNTA will temporarily verify PQIR and facilitate customs clearance. But importers need to submit SDoC to VNTA to complete the entire customs clearance process within 15 working days after customs clearance. (VNTA will no longer issue the previous ADOC which is only applicable to Vietnam Local Manufacturers)
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The safety of energy storage system is a common concern. As one of the critical components of energy storage system, the safety of lithium-ion battery is particularly important. As thermal runaway test can directly evaluate the risk of fire occurring in energy storage system, many countries have developed corresponding test methods in their standards to assess the risk of thermal runaway. For example, IEC 62619 issued by the International Electrotechnical Commission (IEC) stipulates the propagation method to evaluate the influence of thermal runaway of the cell; Chinese national standard GB/T 36276 requires thermal runaway evaluation of the cell and thermal runaway test of the battery module; The U.S. Underwriters Laboratories (UL) publishes two standards, UL 1973 and UL 9540A, both of which assess thermal runaway effects. UL 9540A is specially designed to evaluate from four levels: cell, module, cabinet, and heat propagation at installation level. The results of thermal runaway test can not only evaluate the overall safety of the battery, but also allow us to quickly understand the thermal runaway of cells, and provide comparable parameters for the safety design of cells with similar chemistry. The following group of testing data for thermal runaway is for you to understand the characteristics of thermal runaway on each stage and the materials in the cell.
Stage 1: The temperature rises steadily with an external heating source. At this time, the heat production rate of the cell is 0℃/min (0~ T1), the cell itself does not heat, and there is no chemical reaction inside.