Possible Cause of Self-Discharge of Automotive Batteries
A battery manufacturer who manufactures automobile batteries faced a problem with their self-discharge. This issue started to arise after he began exporting his batteries. This is another Case Study. Join me as I walk you through the various steps before I zero in on the problem caused by an unexpected reason. This thrilling episode will make you assess your process. Another unmissable episode for all lead-acid battery manufacturers. To hear this enchanting case study, please tune in to...
30 Apr 8min
Will Lithium-Ion Batteries Replace Lead Acid Batteries?
I agree with many people within the battery industry and with battery users worldwide that Lithium Battery technology will usher in a change in the availability of battery technology. A lot of people hold the view that Lithium batteries will replace lead-acid battery Technology. Is it a far-fetched view or an impossible dream?Is it an unrealistic and non-achievable vision?To hear my views on this topic, please tune in to this episode of my podcast.SHARE YOUR FEEDBACK Visit, www.RameshN...
29 Apr 14min
Necessity Of Using Dry Charged Plates To Make Good SMF Batteries
The manufacture of SMF batteries is not as easy as that of flooded electrolyte vented type batteries. One main reason for this is that an SMF battery has limited electrolyte, and the specific gravity of this electrolyte cannot be measured. Is there a way to ensure the required consistent specific gravity in all the cells while maintaining a constant volume of sulphuric acid? How can a good SMF battery be manufactured? To learn how to make long-life, high-performance SMF batteries, pleas...
23 Apr 10min
How a Shortage of Antimony is Affecting the Lead Acid Battery Manufacturers
A shortage of Antimony metal is causing significant disruptions in the battery world, and the impact goes beyond battery manufacturers. So, what’s happening? The price of lead itself hasn’t skyrocketed, but the real trouble lies in the shortage of antimony, a key ingredient in the alloy used to make lead-acid batteries. And when something critical goes missing from the supply chain, chaos follows! Now let us understand why there is a shortage of Antimony. SHARE YOUR FEEDBACK Vi...
10 Apr 7min
A Calculator to Calculate Void Volume Before Manufacturing Positive Tubular Plates
Are you manufacturing tubular plate batteries? Are you adding more active material but still getting lower capacity? Are you facing issues with tubular bag bursting? Are your batteries heavier than branded ones but failing during the warranty period? Click on the link below to access the calculator: https://battech.rameshnatarajan.in/calculator SHARE YOUR FEEDBACK Visit, www.RameshNatarajan.in to stay connected Join my network on LinkedIn to engage on social media Vie...
11 Feb 4min
ट्यूबलर प्लेटों को सही ढंग से भरने के लिए एक कैलकुलेटर
क्या आप ट्यूबलर प्लेट बैटरी बना रहे हैं? क्या आप अधिक सक्रिय सामग्री भर रहे हैं और फिर भी कम क्षमता प्राप्त कर रहे हैं? क्या आपको ट्यूबलर बैग फटने की समस्या का सामना करना पड़ता है? क्या आपकी बैटरियां ब्रांडेड बैटरियों से भारी हैं लेकिन वारंटी अवधि के दौरान खराब हो रही हैं? कैलकुलेटर तक पहुंचने के लिए कृपया निम्नलिखित लिंक पर क्लिक करें: https://battech.rameshnatarajan.in/calculator SHARE YOUR FEEDBACK Visit, www.RameshNatarajan.in to stay connected Join my network on Link...
10 Feb 4min
Mix or Match? The Science of Lignosulphonates in Battery Manufacturing
Have you ever wondered which of Vanisperse A, Vanisperse HT 1, or Vanisperse DCA is more suitable for the lead-acid batteries that you manufacture? Do you know which of these lignosulphonates is better suited for batteries that gas vigorously and which is better for those that are overcharged and remain at high temperatures? Are you mixing two types of lignosulphonates—Vanisperse A and Vanisperse HT1—and is it acceptable to do so? Is Borregard’s product meant for CCA only, or is it also meant...
28 Jan 36min