"Tempered into steel".
Since ancient times, people have known that the way to "strong" metals is to train them so that they are "made into steel". Now what we call the word "exercise" is actually the first to exercise on metal. The way to exercise the metal is by heat treatment, such as constant tempering and hammering of the steel, to toughen it and reduce the metal's ability to fatigue.
Another approach that comes to mind is to incorporate other substances into a single metal to fill in the voids and imperfections in the metal. If the incorporated substance is metal, an alloy can be made, and the two metals fill the void with each other to compensate for the defects and increase the strength of the metal. If carbon is added to the metal, high-strength carbon steel can be made;Adding various "vitamins" to metal materials is an effective way to enhance the anti-fatigue of metals. For example, in steel and non-ferrous metals, adding rare earth elements in a few parts per ten thousand or ten million parts can greatly improve the ability of these metals to resist fatigue and prolong their service life. With the development of science and technology, a new technology of "metal immunity" has emerged, which enhances the fatigue strength of metals through the methods introduced in advance to resist fatigue damage. In addition, on metal components, weak links should be minimized, and some auxiliary processes can be used to increase the surface finish to avoid corrosion. Shock-proof measures should be taken for mechanical equipment that generates vibration to reduce the possibility of metal fatigue. When necessary, it is necessary to inspect the internal structure of the metal to prevent metal fatigue.
Now, a stress breaker made of metal fatigue fracture characteristics has been born. It is possible to process the fatigue fracture of metals and non-metals with various properties at a certain mouth. This process takes only 1 2 seconds, and the more difficult the material to cut, the easier it is to meet people's needs through this machining.
Let's find outHaynes 25 L605 this material:
haynes 25 / l605
Corresponding grade: UNS R30605 Wnr 2.4964 aws 060
Applicable standards: AMS 5796 ASTM F90 NACE MR0175 ISO 15156-3