RNP Chapter 578
Chapter 578
The battery was frozen in time, but the temperature was still high.
In the laboratory…
Under the watchful eyes of the public, when this nuclear diamond battery was taken out of the refrigerator.
At this time, the battery had been frozen into ice lumps, and the outer shell was still filled with cold air.
The researcher put on gloves and carefully placed the battery on the workbench.
After a series of “inhumane” experiments.
The power contained in this nuclear diamond battery has been consumed by more than half.
But the test to be carried out today is far from over.
Because this new energy with extremely strong performance will definitely be used in the military field in the future.
And any military product must undergo the most rigorous testing to simulate the harsh use environment on the real battlefield.
Only in this way can we find out potential safety hazards and make timely improvements.
After the short-circuit test and the severe cold test.
The next thing to do is the most important puncture test!
For traditional batteries, whether they are alkaline, acidic, neutral, solid, or organic electrolyte batteries.
The most feared tests are severe cold, puncture, extrusion, and impact.
Because after the traditional battery is squeezed and impacted, the shell and internal structure will be destroyed, resulting in a short circuit after the positive and negative electrode materials contact.
When the high temperature generated by the out-of-control electrochemical reaction makes the internal pressure exceed the limit of the battery shell, it will trigger an explosion reaction!
Therefore, in order to improve the safety of the battery.
Traditional battery engineers usually take multiple safety measures.
For example… strengthen the packaging material, add explosion-proof valves, and optimize the battery management system to reduce the possibility of explosion.
But this method is often not optimistic when applied to new energy vehicles.
Because when the car collides, especially on the highway, if the speed is relatively fast, the force is very strong!
At the moment of collision, it is very likely that the internal part of the battery will be squeezed and damaged.
Just like wearing a bulletproof vest can block bullets, but the internal organs will also be injured and damaged by the impact of bullets.
This is also the main reason why some new energy vehicles will catch fire and explode after being hit.
This problem has become the most worrying point for Han Sanqiu and other researchers.
If the nuclear diamond battery containing huge energy explodes.
Its power is probably not much less than the same amount of strong TNT explosives.
Twenty minutes later.
As the battery was quickly thawed and heated to 35 degrees Celsius.
The researchers modified the battery module again and adjusted it to be charged with a 600KWH charging pile.
It only took three minutes to restore the original 36% power to 100%, and a full 32 degrees of electricity were charged!
This charging speed, which is not inferior to the super fast charging of cars, once again shocked the researchers.
Han Sanqiu pushed his glasses on the bridge of his nose and couldn’t help but sighed: “If you don’t see it with your own eyes, it’s really hard to imagine.”
“A mobile phone battery that is not even the size of a palm can actually withstand a voltage power of 600KWH!”
“If it is replaced with a traditional type of battery, it will probably be directly overloaded and exploded!”
After hearing Han Sanqiu’s words, Su Mo laughed and said: “Mr. Han, the materials used in ordinary batteries are two different concepts from nuclear materials!”
“600KWH is just the limit of the current charging pile, not the limit of the nuclear diamond battery.”
“In theory, this nuclear diamond battery can fully withstand a charging speed of 1000KWH.”
“If the battery volume is enlarged, the charging voltage carrying capacity will also double!”
Hearing this, Han Sanqiu nodded thoughtfully.
Although they are both batteries, nuclear diamond batteries are obviously two different concepts compared to traditional batteries.
After all, judging from the experimental test results, the two are completely incomparable.
The only thing that is uncertain at present is whether the nuclear diamond battery will cause nuclear radiation leakage and explosion danger after being squeezed and hit?
If safety can be guaranteed, then the nuclear diamond battery will completely crush the traditional material battery in every aspect!
“Report to the chief!”
“The battery puncture test is ready, please give your instructions!”
“Test now!”
“Yes!”
With an order.
Several researchers immediately left the laboratory and closed the thick hatch.
Then the researcher Wang Dalei remotely controlled
With the mechanical device.
A steel needle with a diameter of 5mm was used to vertically pierce a ternary lithium battery with a penetration force of 200KG.
As the mechanical device slowly advanced, the steel needle also approached at a uniform speed of 2-3cm per second.
The next second!
When the steel needle pierced the surface of the ternary lithium battery and reached the inside of the battery cell.
There was a loud “bang!”!
After a series of sparks burst out, the ternary lithium battery on the experimental table instantly burned a raging flame!
The raging fire snake soon burned the battery beyond recognition!
In the next few tests.
Except for the blade battery that was superior to the enemy, no chemical reaction occurred during the piercing process.
All other types of batteries caught fire and exploded.
The next highlight was the test of the nuclear diamond battery!
When the sharp steel needle slowly pierced into the battery.
Han Sanqiu and the other researchers’ hearts instantly rose to their throats.
Even Su Mo, who was standing in front of the explosion-proof glass, couldn’t help but feel a little nervous.
Although the system’s products must be high-quality.
But Su Mo couldn’t guarantee 100% that the researchers in his company had no mistakes in the research and development process.
After all, the raw materials of nuclear diamond batteries are extracted from nuclear waste.
If the purification process is not done well, it is very likely to cause an explosion after being punctured.
But until the sharp steel needle pierced the entire nuclear diamond battery, there was no fire or explosion.
The hearts of everyone in the laboratory were slightly relieved.
Although the nuclear diamond battery achieved excellent results in the puncture experiment, it does not mean 100% safety.
Because this new type of battery uses nuclear waste.
If the nuclear waste is not handled cleanly, the nuclear radiation hazards caused by leakage are far more terrible than the explosion and fire of traditional batteries!
At this time…
In a fully enclosed laboratory.
When the researcher remotely controlled the steel needle, he pierced more than a dozen holes in the nuclear diamond battery, ensuring that the raw materials in the battery core were completely exposed to the air before stopping.
About half an hour later.
The researcher who was staring at the radiation monitoring instrument immediately reported:
“Report!”
“Carbon-14 radioactive elements were detected in the laboratory!”
“Radiation level: 20.59mSv”