Divide by 6.895 and multiply by 1000 to get psi
(500/6.895) x 1000 = 72,516 psi
150 MPa yield is equivalent to approximately 21,755 PSI. This means that a material with a yield strength of 150 MPa can withstand the same amount of stress as a material with a yield strength of 21,755 PSI before plastic deformation.
To convert 0.50 MPa to psi, you can use the conversion factor: 1 MPa is approximately equal to 145.038 psi. Therefore, 0.50 MPa is approximately equal to 72.519 psi.
1 psi = 6.89476 kPa (rounded) 1 kPa = 0.14504 psi (rounded) 1 mPa = 1,000 kPa
1 MPa = 145.038 PSI.
To convert MPa units to psi units, you can use the conversion factor: 1 MPa = 145.038 psi. Simply multiply the pressure in MPa by 145.038 to obtain the pressure in psi.
The ultimate strength of annealed SS304 is 80,000 psi (550 MPa). Its yield strength is 30,000 psi, and its shears strength is 80000/(SQRT(3)) = 46000 psi. If it is cold worked, as for bolts, its yield and ultimate and shear strength will increase.
ASTM 1011 comes in many grades which determine the yield strength ie:1011 gr 42 would have a min yield of 42,000 psi
2.95 megapascal = 428 psi
It is 217.556607 pounds per square inch.
MPa stands for Megapascal, a unit of pressure. 1 Mpa is equal to 145.0377 psi
To convert Brinell hardness of 300 HB to psi, use the formula: Brinell Hardness (HB) = (12.9 * N) / (D^2), where N is the applied force in kg and D is the diameter of the indention in mm. Given 300 HB, N/A = 1250 and D = 10 for a steel ball. Converting 300 HB to psi: (12.9 * 1250) / (10^2) = 16112.5 psi. To convert 300 HB to MPa: 16112.5 psi * 0.00689476 = 111.1 MPa.
1 psi = 0.00689475728 MPaAs such the average strength in PSI = (4620 + 4580 + 4400 + 4460 + 4200) / 5= 4452 psiAverage strength in MPa = 4452 x 0.00689475728= 30.69545941056 MPa= 30.7 MPa