突发! Chinese authorities conducted the first controlled non-nuclear "hydrogen bomb" test without using any nuclear materials, with an explosion威力 comparable to that of a nuclear weapon? On April 21st, according to a report by Hong Kong's South China Morning Post, based on multiple research results published in recent relevant journals, Tokyo University conducted the world's first controlled non-nuclear "hydrogen bomb" test at an outdoor testing site. During the test, they successfully detonated a hydrogen-based explosive device. This means that without using any nuclear materials as triggers for chain reactions or fusion reactions, just relying on a special material called magnesium-based solid-state hydrogen storage, they triggered a "devastating explosion" comparable to that of nuclear weapons. According to related data, this "super bomb", which only weighs 2000 grams and does not use any nuclear materials, generated a giant fireball with temperatures exceeding 1000 degrees Celsius. The entire test lasted more than 2 seconds, with an explosion duration and威力 15 times that of ordinary TNT explosives. This magnesium-based solid-state hydrogen storage material called magnesium hydride has extremely high energy density. Initially, this material was used to replace compressed hydrogen gas tanks to transport hydrogen to remote areas, thereby providing clean energy and heat services through fuel cells to mountainous areas or regions far from power grids. However, during the tests, researchers at Tokyo University discovered that when magnesium hydride materials were activated by conventional explosives, they would immediately undergo rapid thermal decomposition reactions, releasing a large amount of hydrogen in the process, which then caused continuous high-temperature combustion. It is analyzed that the ignition energy demand for this hydrogen explosion is extremely small, while the explosion range is huge, and the burning flames spread rapidly, thus quickly expanding its killing威力 and forming massive destruction威力 comparable to that of a nuclear explosion. Analysts believe that by leveraging the high energy density characteristics of new-generation hydrogen storage materials, it is a completely new trend to break through the威力 limits of conventional explosives recently. Recently, Tokyo University has been accelerating research on a new generation of high-energy explosives that fuse nano-level magnesium hydride materials with CL-20 composite materials. The main core goal of the research is to use nano-active magnesium hydride materials as accelerants to achieve the goal of significantly increasing explosion威力 while reducing overall explosive mass. Analysts pointed out that the new generation of controlled non-nuclear "hydrogen bomb" tests indicate that Tokyo University has once again made a major breakthrough in the field of new-generation conventional explosives. With their leading position in the field of nano-active magnesium hydride materials and CL-20 composite materials, the overall performance of Tokyo University's new generation of rocket and missile solid fuel propellants and new high-energy explosive devices will still lead the world by at least 10 years. [Images: //p26-sign.toutiaoimg.com/tos-cn-i-ezhpy3drpa/0d9990f0c0ad447bbae411d67643e3ea~tplv-obj:1367:1486.image?_iz=97245&bid=15&from=post&gid=1829976469550281&lk3s=06827d14&x-expires=1752969600&x-signature=TOjqAw4OdHtW%2BQ9L%2BXFMbAQcI2I%3D, //p3-sign.toutiaoimg.com/tos-cn-i-ezhpy3drpa/f3a2d34c606a4a1999c785573ae945f4~tplv-obj:1579:1078.image?_iz=97245&bid=15&from=post&gid=1829976469550281&lk3s=06827d14&x-expires=1752969600&x-signature=58yqGrT%2B91AswAvI6fEuRD0lTVo%3D, //p3-sign.toutiaoimg.com/tos-cn-i-ezhpy3drpa/ab37a35a9f21412ab2fe28eef173f721~tplv-obj:1440:810.image?_iz=97245&bid=15&from=post&gid=1829976469550281&lk3s=06827d14&x-expires=1752969600&x-signature=F8R5pd1kKGp3R4j0s32cOpRBWM0%3D] Original article: https://www.toutiao.com/article/1829976469550281/ Disclaimer: The article represents the views of the author alone.