AISI 5160H Alloy Steel Chemical Composition Properties, Grade, Charts and Online Pdf
AISI 5160H is a one of the alloyed steel that have extraordinary mechanical properties and high wear resistance. Its chemical makeup, usually made up of carbon, manganese, chromium, silicon, sulfur, and phosphorus, is its distinct and unique composition. Being a high carbon content like that, it has impressive hardness and wear resistance; therefore, it can be used in different fields in automotive, machinery, and tooling industries. AISI 5160H steel is resistant to several kinds of shocks and is therefore used as a spring material as well as for other deformed components with heavy-duty application in terms of toughness and fatigue. The character of this material is compared to other metals and put in separate grade charts and PDF resources available for engineers and manufacturers to select the material that best suitable for their products. Whether it is for design or manufacturing, the need for AISI 5160H detailed information guarantees the right decisions for optimal performance in a wide range of industries.
AISI 5160H Alloy Steel Chemical Composition And Grade Table
AISI 5160H is a well-known kind of alloy steel that offers high toughness and great durability and hence it's a good pick for many industrial applications. It is commonly composed of C, Mn, Cr, Si, P, S and sometimes, V that make the steel corrosion resistant and strong. Manufacturing specifications may bring about the least deviation in the chemical formula of various fabric lines. AISI 5160H is a member, if you may say, which belongs to the group of high-carbon chromium steels – famous for their high strength and hardenability. This material are often seen in manufacturing automotive springs due to their meandering configuration as well as for coil springs, heavy duty coil springs, and leaf springs. This steel grade provides an exceptional strength and resistance to fatigue that will guarantee the reliability though demanding environment.
| Elements | C | Mn | Cr | Si | P | S | Fe |
|---|---|---|---|---|---|---|---|
| Min (%) | 0.55 | 0.65 | 0.6 | 0.15 | - | - | - |
| Max (%) | 0.65 | 1.1 | 1 | 0.3 | 0.035 | 0.04 | Balance |
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