Methods of vulcanization and removal of lead-acid batteries.
- Mar 30, 2018 -

Methods of vulcanization and removal of lead-acid batteries.

The development of lead-acid battery technology has not changed much in 100 years. Although the chemical and structural improvements have been made, there is a common factor causing battery failure. The reason for this failure is: sulfate accumulation on the plate caused by the failure of the results, the most effective way to solve these problems is the application of pulse technology.

Pulse technology helps to eliminate these failures, it can maintain a high reactive material reaction, so that the internal balance of the battery, easy to accept external charging. This saves the cost of replacing the battery.


Experts predict: lead-acid batteries as in the battery power field in the first place will continue to the next century. However, the most important problem is that most of the battery's working status can not meet the needs of modern advanced technology vehicles. Supposedly, the reactive materials of lead-acid batteries can last for 8 years-10 or longer-but in fact they are not. The average battery life today is 6-48 months. And the 48-month battery only accounts for 30%. Most batteries are prematurely aged and ineffective. The causes of a series of problems affecting battery life are: the accumulation of sulfate, and the most effective way to solve these problems is pulse technology.


As early as 1989, there is the first patent, the use of pulse technology to improve the practicality of batteries, prolong battery life. Its working principle: the battery keeps high reactive substance reaction, make the battery internal balance, easy to accept charge. This technology can provide large discharge capacity, receive fast charging, and can be used lastingly.