yes
it is ductile. For hardened stainless steel it gets less ductile, but not brittle.
54,000 psi is its ultimate breaking tensile strength. Yield point is 36,000 psi
according to the pope yes they are > Through hardened steel.
case hardened steel
increased...because the specimen is strain hardened due to plastic deformation.
Low carbon steels suffer from yield-point runout where the material has two yield points. The first yield point (or upper yield point) is higher than the second and the yield drops dramatically after the upper yield point. If a low carbon steel is only stressed to some point between the upper and lower yield point then the surface may develop Lüder bands.
The steel has a ductile material properties so that it could be elongate at a point of ultimate yield point.It is stable while before the break point
His heart was hardened, so he couldn't yield.
If you work it beyond the yield point then you raise the yield point in a process called strain hardening
yield is the breaking point and tensile strength is what it is rated at per square inch
This means the force in 1,000 pounds per square inch to elongate steel beyond it's yield. The point where it will be permanently be elongated and not return to it's original dimension.
Lower YS is that point at which the steel flows elastically and failure takes place at upper YS.
The yield stress of tool steel is the amount of stress that a material can withstand without experiencing permanent deformation. The yield stress of a specific type of tool steel can vary depending on the specific composition and manufacturing process of the steel. In general, tool steels have high yield stresses, typically in the range of 1000 to 2000 megapascals (MPa). This allows them to withstand high levels of stress and strain without deforming permanently. For example, the yield stress of high-speed steel (HSS) can be in the range of 1500 to 2000 MPa, while the yield stress of cold-work tool steel can be in the range of 1200 to 1600 MPa. Overall, the yield stress of tool steel is an important property that determines the material's ability to withstand high levels of stress and strain without deforming permanently.
There isn't really a difference since a piece of steel can both stainless and air hardened. Stainless steel is a steel alloy with a minimum of 10% chromium content by mass. Metals can be hardened in a variety of ways. They may be work hardened, tempered, air or oil hardened, for example. Tempering, or the systematic heating, cooling and reheating of a material is one technique that might be used to harden steel.
Oil Hardened Non-shrinking Steel
Not hardened steel