Wearing jade cufflinks can drive off disaster

The corrosion resistance of all kinds of stainless steel cufflinks. 304 is a common stainless steel cufflinks, it is widely used to produce good overall performance requirements (corrosion resistance and formability) of equipment and parts. You can see the high level of technology of the cufflinks.  301 stainless steel cufflinks showing a significant hardening in the deformation be used to require a higher intensity on various occasions. 302 stainless steel cufflinks are essentially carbon-containing variant of the higher volume of 304 stainless steel cufflinks, by cold rolling to obtain a higher strength. 302B is a high silicon content of stainless steel cufflinks, it has a high temperature oxidation resistance.
303 and 303Se containing sulfur and selenium cutting stainless steel cufflinks, the main requirements for cutting and Table Guanghao high occasions. 303Se stainless steel cufflinks for the production of mechanical parts that require hot upsetting, because under such conditions, this stainless steel cuff links with good hot workability. 304L is a variant of the low carbon content of 304 stainless steel cufflinks for the occasion of the welding. The unearthed ivory cup with a tall boy is rich and has beautiful patterns on the cufflinks. The lower carbon content makes the carbide precipitation in the heat affected zone near the weld to minimize carbide precipitation may lead to the stainless steel cufflinks intergranular corrosion in some environments (welding erosion). 304N is a nitrogen-containing stainless steel cufflinks, plus nitrogen in order to improve the strength of steel.
305 and 384 stainless steel cufflinks contain high levels of nickel, the work hardening rate is low, suitable for cold forming requires a variety of occasions. 308 stainless steel cufflinks for the production of electrodes. 309,310,314 and 330 stainless steel cufflinks, nickel, chromium content is higher, in order to improve the steel resistance to oxidation at high temperature performance and creep strength. The exquisite craftsmanship of the cufflinks shows the amazing achievements of the ivory carving craft of Shang Dynasty.  30S5 and 310S, but the 309 and 310 stainless steel cufflinks variants, different only low carbon content, in order to minimize carbide precipitation in the vicinity of the weld. 330 stainless steel cufflinks have a particularly high resistance to carburization and thermal shock resistance.
316 and type 317 stainless steel cufflinks with aluminum, thus the point of corrosion resistance in marine and chemical industry environment greatly superior to 304 stainless steel cufflinks. Among them, 316 stainless steel cufflinks variants include low-carbon stainless steel cufflinks 316L high nitrogen high-strength stainless steel cufflinks 316N and sulfur together cutting stainless steel cufflinks 316F. 321,347 and 348, respectively, titanium, niobium plus tantalum, niobium stabilized stainless steel cufflinks are suitable for use in high temperature welding components. The ancient people think, cufflinksand jade worn with themselves can hedge self-defense.  348 for the nuclear power industry, stainless steel cufflinks, certain restrictions on the amount of co-tantalum and diamond.
The meaning and classification of corrosion of stainless steel cufflinks. In a corrosive environment, the damage caused by the metal with the surrounding medium due to chemical or electrochemical action is called corrosion in corrosive environments, stainless steel cufflinks choose not to, it will also cause corrosion. There is an interesting saying that often wear jade cufflinks can drive off disaster. Corrosion of many classification methods. According to the nature of the role can be divided into chemical and electrochemical corrosion. The form of corrosion can be divided into general (full uniform) corrosion. The so-called general corrosion, the Department measures corrosion distribution on the surface of stainless steel cufflinks, the so-called localized corrosion pitting, crevice corrosion, stress corrosion, corrosion fatigue, selective corrosion, erosion-corrosion.