Ultimate Tensile Strength is the (BHN*500)
Tensile strength calculation for Finger cots and Condom:-(RING TYPE)Tensile strength Formula : F/A (N/mm2)Where :- F - Force (N)A- cross sectional area (mm2)A- cross sectional area - Width *thickness (single wall)So F/2(width * thickness) (N/mm2)For Example :-F= 35.963 Nwidth = 6.35 mm (specimen width standard in finger cots)Thickness = 0.12 mmCalculation:-= F/ 2(Width *Thickness) (N/mm2)Where 2 is common factor for ring samples .= 37.963 / 2(6.35*0.12) (N/mm2)= 37.963 /1.524 (N/mm2)= 24.91 (N/mm2) this is good answer for finger cots and condom Tensile strength calculation.You stretch test specimens in a prescribed manner (ASTM) and make note of what force failure occurs. The tensile strength is that force divided by the cross-sectional area.
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1 pa = 1x10-5 bar or 1 Mpa = 10 bar, therefore, to convert from Mpa to bar you simply take the number of Mpa and multiply it by 10.
1 tonner aircon = 4.7 HP
With a generator mounted on the "turbine". The propeller spins the generator shaft.
The formula to convert Vickers to Brinell hardness is: Brinell Hardness = (2.025 x Vickers Hardness).
Hardness Conversion TableTensileStrength(N/mm2)Brinell Hardness(BHN)Vickers Hardness(HV)RockwellHardness(HRB)Rockwell Hardness(HRC)28586903209510056.235010511062.338511412066.741512413071.245013314075.048014315078.751015216081.754516217085.057517118087.161018119089.564019020091.567519921093.570520922095.074021923096.777022824098.180023825099.582024225523.185025226524.888026127526.490026628027.193027629028.595028029529.299529531031.0103030432032.2106031433033.3109532334034.4112533335035.5115534236036.6119035237037.7122036138038.8125537139039.8129038040040.8132039041041.8135039942042.7138540943043.6142041844044.5145542845045.3148543746046.1152044747046.9155545648047.7159546649048.4163047550049.1166548551049.8170049452050.5174050453051.1177551354051.7181052355052.3184553256053.0188054257053.6192055158054.1195556159054.7199557060055.2203058061055.7207058962056.3210559963056.8214560864057.3218061865057.8
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.
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fc'=0.785 fck fck=1.273 fc' fc'=strength of cylinder fck=strength of cube
With jesus
With jesus
How do I convert foot pounds of torque to a tensile strength
To convert Asker C hardness to Shore A hardness, you can use a conversion table or formula, as there is no direct mathematical relationship between the two scales. Generally, an approximate conversion is that Asker C hardness values of around 60-70 correspond to Shore A values of approximately 75-90. However, for precise applications, it's best to refer to specific conversion charts or conduct comparative testing, as variations can occur depending on the material.
If you load a beam in tension or compression only ( pull or push) then you multiply the tensile yield or ultimate strength by the area of the beam cross section. Thus applies to a simple beam (bar) only. If you load the beam any other way, such as bending or twisting, or perpendicular to its axis you need to use formulas from an engineering strength of materials course or handbook.
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the compressive strength can be converted in to flexural strength by following formula of IS code 456-2000fcr=0.7^/- fck fcr= flexural strength fck= characteristic compressive strength in N/mm2