At the Beginning of the Game, Taishan Fengchan
by Zhaoyan
About This Novel
A pretentious bastard gets the door to travel across all realms. "Huh?! Isn't that an easy way to reach the top of life?"
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Official(5)Scraped 1mo ago
No need to subscribe, I just finish it if I work hard enough
I was already imagining a new book, and this one was ruined by a moment of caprice.
At first, I planned to write about alloy knives and the like as usual, but when I was writing, I searched
Https://www. Zhihu. Com/question/40322741/answer/104192868 After referring to this article, I think it makes sense, so I'll post the original article: What is the proportion of each element in the alloy? Does it contain iron? Can it be heat treated? What is the impact toughness and yield strength of the blade? How hard can a blade be? What is the metallographic structure of the blade? Is there any data? How can you compare if you have nothing? Seriously, this is just a figment of your own imagination. Are there specific standards for tungsten-titanium alloys? What is the proportion of each element in the alloy? Does it contain iron? Can it be heat treated? What is the impact toughness and yield strength of the blade? How hard can a blade be? What is the metallographic structure of the blade? Is there any data? How can you compare if you have nothing? Whether a tool is sharp depends on the micro-serrated crystals in the metallographic structure, not the hardness, do you understand? Anyone who often plays with knives may have experienced it. If you buy a stainless steel knife with high hardness, it will look good at shaving, but then it will become dull and unable to cut paper after a few times. This is called retention, and it has no direct relationship with hardness. It becomes dull after only a few uses. There are many knives that have a high hardness and become dull. I have to sharpen them for two hours and sweat profusely and still can't sharpen them. I buy an expensive imported knife, which has good retention and high enough hardness. Then when cutting meat, I find that it is not as useful as the iron knife made by a blacksmith at home decades ago. There are many of these. This is nonsense due to the micro-serrated structure of the blade. This is still talking about small knives. Long knives are all particular about toughness, elasticity, center of gravity, knife shape, feel, and vibration. Modern long knives with finished steel plate wire cutting grinding wheels cannot be used in actual combat at all. They can only be used for viewing, because the center of gravity has not been adjusted and there is no shock absorption treatment. If the weapon is really used in a fight, it will shock you to drop it immediately. Nowadays, the really good long knives are mainly made by ancient methods, supplemented by modern tools. For example, in the past, you had to smash it by yourself, but now you can use an air hammer. In the past, you had to level the blade of the newly forged blade with a special tool, but now you can just hit it with a grinding wheel. This manual process of crude benzene can be replaced by machines, but the process is still the same as it was before. Don't talk about powdered steel with me. There are a lot of rich people who play with long knives. They can afford the price of powdered steel, but there are no long knives made of powdered steel now, because they can't be used to make long knives. Of course, saying so much does not mean that ancient technology is more powerful than modern technology. It is because no one in modern times has studied how to make long knives and swords used in actual combat to be more powerful. The era of cold weapons has passed. The knife can also be used for daily use, and the bayonet has some military value. There is a dedicated R&D team working on it. There is no professional scientific research team to develop the long sword. What is the optimal ratio for what you call a "sword that precisely controls the proportion of materials similar to an engine fan blade"? Is there any data? Now no one studies the specific optimal data of long sword and long sword. How do you do it? R&D personnel and users have different ways of thinking, and not many of them can actually use it now. You say transcendence, it can be surpassed at the data level, but it may be outclassed in actual use. For example, there are many test videos showing how many pigs the Chinese Anti-Japanese War sword can kill with one blow, how it can cut down cars without damaging the blade, etc. All of them are completely destroyed by Japanese swords. In actual fights between two people with similar strength values, they have learned basic fighting skills. The one holding the Japanese sword can easily remove the one holding the Anti-Japanese War sword. Because the Anti-Japanese War Sword is short and has a forward center of gravity, it is still a disadvantage due to its slow attack speed and large length. If the Japanese sword was fast enough, the anti-Japanese sword would have chopped off his wrist as soon as he raised his hand. Go and shave it off. If you don't understand fighting and just look at the data, you won't be able to tell. Finally, I would like to give you a piece of advice. Don't just focus on new materials and new technologies. What kind of technology and materials can you use to make a more awesome knife? You are not a materials scientist. If I give you data on all aspects of metal, you actually don't understand what it means. You just think it should be very awesome. The reality is not what you think. Pay attention to the high-end knives that are actually sold. Masters sell knives for hundreds of thousands or millions. They can't afford any material. The more powerful the new material is, the more gimmick it is and the more it can raise the price. People don't use it not because you are smarter than the master knife maker, but because it is not suitable for making knives. Additional controversy: shotguns "So, even if the barrel of an old-fashioned shotgun is precision-bored and chrome-plated with modern technology, the projectile is made of machine-made lead bullets, the gunpowder is finely screened ultra-fine black powder, and an air-locking plug is added in front of the projectile, its effective range may be increased by one hundred meters." A gunshot can do this, so I chose 100 meters. About chainsaws C960 electric diamond chain saw reinforced concrete cutting chain saw power tool I searched it casually, the description may be exaggerated, but it is still possible to cut stone.
What the heck are the six inverses of the new century?
This is a dark, murderous, and unscrupulous novel. What you cultivate is to follow your heart, and what you practice is to be like my heart.
It's okay, mainly because the protagonist is arrogant and does whatever he wants
Kill whenever you want, without any scruples, just to give birth to a madman
Rating
Community(0)
Official(5)Scraped 1mo ago
No need to subscribe, I just finish it if I work hard enough
I was already imagining a new book, and this one was ruined by a moment of caprice.
At first, I planned to write about alloy knives and the like as usual, but when I was writing, I searched
Https://www. Zhihu. Com/question/40322741/answer/104192868 After referring to this article, I think it makes sense, so I'll post the original article: What is the proportion of each element in the alloy? Does it contain iron? Can it be heat treated? What is the impact toughness and yield strength of the blade? How hard can a blade be? What is the metallographic structure of the blade? Is there any data? How can you compare if you have nothing? Seriously, this is just a figment of your own imagination. Are there specific standards for tungsten-titanium alloys? What is the proportion of each element in the alloy? Does it contain iron? Can it be heat treated? What is the impact toughness and yield strength of the blade? How hard can a blade be? What is the metallographic structure of the blade? Is there any data? How can you compare if you have nothing? Whether a tool is sharp depends on the micro-serrated crystals in the metallographic structure, not the hardness, do you understand? Anyone who often plays with knives may have experienced it. If you buy a stainless steel knife with high hardness, it will look good at shaving, but then it will become dull and unable to cut paper after a few times. This is called retention, and it has no direct relationship with hardness. It becomes dull after only a few uses. There are many knives that have a high hardness and become dull. I have to sharpen them for two hours and sweat profusely and still can't sharpen them. I buy an expensive imported knife, which has good retention and high enough hardness. Then when cutting meat, I find that it is not as useful as the iron knife made by a blacksmith at home decades ago. There are many of these. This is nonsense due to the micro-serrated structure of the blade. This is still talking about small knives. Long knives are all particular about toughness, elasticity, center of gravity, knife shape, feel, and vibration. Modern long knives with finished steel plate wire cutting grinding wheels cannot be used in actual combat at all. They can only be used for viewing, because the center of gravity has not been adjusted and there is no shock absorption treatment. If the weapon is really used in a fight, it will shock you to drop it immediately. Nowadays, the really good long knives are mainly made by ancient methods, supplemented by modern tools. For example, in the past, you had to smash it by yourself, but now you can use an air hammer. In the past, you had to level the blade of the newly forged blade with a special tool, but now you can just hit it with a grinding wheel. This manual process of crude benzene can be replaced by machines, but the process is still the same as it was before. Don't talk about powdered steel with me. There are a lot of rich people who play with long knives. They can afford the price of powdered steel, but there are no long knives made of powdered steel now, because they can't be used to make long knives. Of course, saying so much does not mean that ancient technology is more powerful than modern technology. It is because no one in modern times has studied how to make long knives and swords used in actual combat to be more powerful. The era of cold weapons has passed. The knife can also be used for daily use, and the bayonet has some military value. There is a dedicated R&D team working on it. There is no professional scientific research team to develop the long sword. What is the optimal ratio for what you call a "sword that precisely controls the proportion of materials similar to an engine fan blade"? Is there any data? Now no one studies the specific optimal data of long sword and long sword. How do you do it? R&D personnel and users have different ways of thinking, and not many of them can actually use it now. You say transcendence, it can be surpassed at the data level, but it may be outclassed in actual use. For example, there are many test videos showing how many pigs the Chinese Anti-Japanese War sword can kill with one blow, how it can cut down cars without damaging the blade, etc. All of them are completely destroyed by Japanese swords. In actual fights between two people with similar strength values, they have learned basic fighting skills. The one holding the Japanese sword can easily remove the one holding the Anti-Japanese War sword. Because the Anti-Japanese War Sword is short and has a forward center of gravity, it is still a disadvantage due to its slow attack speed and large length. If the Japanese sword was fast enough, the anti-Japanese sword would have chopped off his wrist as soon as he raised his hand. Go and shave it off. If you don't understand fighting and just look at the data, you won't be able to tell. Finally, I would like to give you a piece of advice. Don't just focus on new materials and new technologies. What kind of technology and materials can you use to make a more awesome knife? You are not a materials scientist. If I give you data on all aspects of metal, you actually don't understand what it means. You just think it should be very awesome. The reality is not what you think. Pay attention to the high-end knives that are actually sold. Masters sell knives for hundreds of thousands or millions. They can't afford any material. The more powerful the new material is, the more gimmick it is and the more it can raise the price. People don't use it not because you are smarter than the master knife maker, but because it is not suitable for making knives. Additional controversy: shotguns "So, even if the barrel of an old-fashioned shotgun is precision-bored and chrome-plated with modern technology, the projectile is made of machine-made lead bullets, the gunpowder is finely screened ultra-fine black powder, and an air-locking plug is added in front of the projectile, its effective range may be increased by one hundred meters." A gunshot can do this, so I chose 100 meters. About chainsaws C960 electric diamond chain saw reinforced concrete cutting chain saw power tool I searched it casually, the description may be exaggerated, but it is still possible to cut stone.
What the heck are the six inverses of the new century?
This is a dark, murderous, and unscrupulous novel. What you cultivate is to follow your heart, and what you practice is to be like my heart.
It's okay, mainly because the protagonist is arrogant and does whatever he wants
Kill whenever you want, without any scruples, just to give birth to a madman
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