Not really. There may be some relationships that work narrowly within very similar materials, but they really are different physical properties.
There is no formulae to calculate yield strength from tensile strength...
Load to failure F, divided by cross section area, A is the engineering tensile strength
You mean tensile strength. Different steels have different tensile strengths. The way they are made (drawn, cast, forged, etc.) is critically important to the tensile strength. By the way--steel is more important for its stiffness than its tensile strength.
.08KN/mm2
according to ASTM A36 Marine grade mild steel plate has a tensile strength of 58 - 80 thousand psi.
the yield strength of EN8 material is 465MPa.
Take a piece of any material, say a steel rod, or a piece of timber dowel and you grip it at both ends and try to pull it until it breaks. When you do this, you are putting a tensile load on the material. It is said to be 'in tension'. If the material had a cross sectional AREA of say, 1 Square Inch, and the Tensile Load on it was say, 50,000 Pound,then the Tensile load would be 50,000 PSI (pound per square inch). If the material broke apart under that exact load, then we say it has a TENSILE STRENGTH of 50,000 lb/ square inch. Engineers measure tensile strength in either Pound/Squ.inch. OR Pascal. A Pascal (metric system) is Newton per Square Metre. Steel cables used on bridges have a Tensile Load on them at all times. Engineers calculate the cross sectional area of steel cable needed to be safe , and never break apart. Engineers need to know the Tensile Strength of Steel to be able to choose what size cable to use,so that it is quite SAFE and will not break when in Tension. They use safety factors such as 5 (typical) This means they calculate the cross sectional area of a cable which is going to be 5 times as strong as the Tensile Strength of the steel they are using. They then know that it will never break. The Tesile strength at which a material breaks is called its Ultimate Tensile Strength. Engineers never allow the tension in steel to exceed about 1/5th ofthe Ultimate tensile strength of the steel. Modern Steel bars used in steel structures, has an ultimate tensile strength of approx. 80,000 lb/Squ.inch
You mean tensile strength. Different steels have different tensile strengths. The way they are made (drawn, cast, forged, etc.) is critically important to the tensile strength. By the way--steel is more important for its stiffness than its tensile strength.
You mean tensile strength. Different steels have different tensile strengths. The way they are made (drawn, cast, forged, etc.) is critically important to the tensile strength. By the way--steel is more important for its stiffness than its tensile strength.
My= As*Fy*Jd As= Area of steel reinforcement (tensile steel only) Fy= yield strength of steel Jd= moment arm
High tensile steel is strong steel. It is 10 times stronger than wood and more than twice the tensile strength of mild steel. High tensile steel is commonly used in highway guardrails.
cars
YIELD STRENGTH 242 N/sqmm TENSILE STRENGTH 440~520 N/sqmm
high tensile stainless steel
275 MPa
.08KN/mm2
according to ASTM A36 Marine grade mild steel plate has a tensile strength of 58 - 80 thousand psi.
yep it is. It has much more tensile strength then steel.
yield is the breaking point and tensile strength is what it is rated at per square inch