if its standard wrought carbon steel, the psi should be just about in the 100,000psi range. The last two digits of the designation, 75, are the carbon content. 0.75%. the higher the carbon content, the higher the tensile strength.
The ultimate tensile strength of a steel such as AISI 1075 varies depending upon the heat treated condition and hardness. The tensile strength of a steel can be approximated from the hardness using hardness conversion tables found elsewhere on the web.
http://www.engineeringtoolbox.com/aisi-sae-steel-numbering-system-d_1449.html here are the ansi codes...you can figure it out
It depends in the type of Stainless material grade. Each grade has different percentage of elements such as carbon, nickel, chromium,etc. If you look in the ASME Code on materials. I believe Section I, it will tell you about metals and alloys. If you look in Section IX it will tell you about welding procedures etc etc. Another Code that may asssist you is the ASTM. American System of Testing Materials
A mill certificate can be a steel industry document that is used to certify the manuafacturing standards of the products produced by the mill. It can specify the following: A recognized Standard specification number such as an ASTM or AISI number (Ex ASTM A106. The ASTM is the American Society for Testing and Materials. This identifies the type of product (sheet, plate, tube, bar, etc.) and the set engineering standards to which it is produced. An analysis of the elements (%) that make up the content of the mill product. Ie. carbon, nickel, titanium. Brief description of the goods such as galvanized carbon steel sheet, welded tube, seamless pipe, zinc coated, hot rolled or cold rolled plate, etc.
AISI standard condition "B" for 302 grade stainless steel refers to material which has been work hardened to produce higher tensile strength qualities.
The AISI 1045 Medium Carbon Steel has a Shear Strength of 80 GPa.
A tensile rod in a mechanism is made from AISI 4140 OQT 1300 steel. It has a rectangular cross section , 30mm*20mm & a length of 700mm.It is to be
AISI stands for "American Iron and Steel Institute"
AISI stands for American Iron and Steel Institute.
The modulus of elasticity for AI-SI 1020 steel, commonly known as AISI 1020 steel, is approximately 200 GPa (gigapascals) or 29,000 ksi (kilopounds per square inch). This value represents the steel's ability to deform elastically when a tensile or compressive force is applied. AISI 1020 is a low-carbon steel, and its modulus of elasticity is similar to that of other carbon steels.
AISI 4130 steel, also known as B.S CDS 110 steel, melts at between 1370 and 1400oC.
It will depend on the Alloy. You need the alloy steel AISI - SAE material designation; such as 4140 or 8620. Mechanical engineering handbooks will have the mechanical properties listed in an appendix; such as UTS, YS, Modulus (E), etc. In addition, steel distributor's will have books (free) that have the mechanical properties listed. I did attempt to add a website as an example of where you could go on-line as well. I am not sure where or how the link will appear.
its having the magnetic property
40C8 is a representation of a specific type of steel according to the American Iron and Steel Institute (AISI) standard. In this case, 40C8 indicates that the steel has a carbon content of approximately 0.40% and is classified as a medium carbon steel with good strength and toughness properties.
Some of the aims of the American Iron and Steel Institute, also known as the AISI, are to promote steel production not only in America but globally, and to provide high-caliber talented people with jobs. The AISI also aims to be a growing company and provide to those who need steel.
The GMW 25 8.8 standard pertains to a specific grade of high-strength steel used in automotive applications. An equivalent AISI material grade for GMW 25 8.8 would be AISI 4140 or AISI 4340, which are both alloy steels known for their strength and toughness. However, it is essential to verify specific mechanical properties and chemical compositions for precise applications. Always consult engineering standards and material specifications for exact equivalencies.