An uncold-worked brass specimen of average grain size 0.008 mm has a yield strength of 151...
An uncold-worked brass specimen of average grain size 0.008 mm has a yield strength of 163 MPa. Estimate the yield strength of this alloy (in MPa) after it has been heated to 600°C for 1500 s, if it is known that the value of ky is 12.7 MPa-mm 1/2. The Animated Figure 7.25 may be helpful. MPa [The tolerance is +/- 10%.]
The yield strength for an alloy that was an average grain diameter of 5.4 x 102 mm is 133 MPa. At a grain diameter of 7.4 x 10 mm, the yield strength increases to 250 MPa. At wh grain diameter, in mm, will the yield strength be 203 MPa? mm the tolerance is +/-6% Click if you would like to Show Work for this question: Open Show Work
The yield strength for an alloy that has an average grain diameter of 5.7 × 10-2 mm is 140 MPa. At a grain diameter of 7.3 × 10-3 mm, the yield strength increases to 277 MPa. At what grain diameter, in mm, will the yield strength be 228 MPa? d = mm We were unable to transcribe this imageThe yield strength for an alloy that has an average grain diameter of 5.7 x 10-2 mm is 140 MPa. At a...
A brass alloy is known to have a yield strength of 275 MPa (40,000 psi), a tensile strength of 380 MPa (55,000 psi), and an elastic modulus of 103 GPa (15.0×106 psi). A cylindrical specimen of this alloy 9.0 mm (0.35 in.) in diameter and 245 mm (9.65 in.) long is stressed in tension and found to elongate 9.0 mm (0.35 in.). A) What is the yield strain? B) What is the test strain?
Can someone help me with this materials problem? Problem 7.23 Your answer is partially correct. Try again. Consider the brass alloy for which the stress-strain behavior is shown in the Animated Figure 7.12. A cylindrical specimen of this material 10.1 mm (0.3976 in.) in diameter and 98.8 mm (3.890 in.) long is pulled in tension with a force of 10200 N (2293 lbr). If it ls known that this alloy has a value for Polsson's ratio of 0.35, compute (a)...
A cylindrical specimen of a cold-worked brass has a ductility (%EL) of 33%. If its cold-worked radius is 11 mm, what was its radius before deformation? You may need to use Animated Figure 7.19c. Percent cold work = 0 Ductility = 0 Ductility (%EL) Brass 1040 Steel Copper 10 60 70 20 30 40 50 Percent cold work
ive already gotten 2 wrong answers this is my last attempt please be correct!!!!!!!!!!!!!! Incorrect Consider the brass alloy the stress-strain behavior of which is shown in the Animated Fioure 2.12. A cylindrical specimen of this alloy 15 mm in diameter and 214 mm long is to be pulled in tension Calculate the force necessary to cause 0.00788 mm reduction in diameter. Assume a value of 0.35 for Poisson's ratio. 26507.1 the tolerance is +/-2% Click if you would like...
Question 4: A cylindrical specimen of cold-worked copper has a ductility (%EL) of 25% What is its tensile strength? (a) (b) If its cold-worked radius is 10 mm, what was its radius before deformation? 70 140 120 900 800 1040 Steel 60 120 1040 Stee 800 700 100 50 700 600 100 80 40 600 500 Brass Brass 80 30 60 400 500 Brass 20 Copper 40 300 60 400 Copper 10 1040 Stee 200 300 40 20 Copper 100...
Summer 2 Name: Question 3: (10 points) A cylindrical specimen of cold-worked copper has ductility (%EL) of 30%. (a) If its cold worked radius is 6.4 mm, what was its radius before deformation? (b)What are its tensile and yield strengths? 140 120 800 900 1040 Steel 1040 S 700 800 100 120 600 a700 80 100 E 500 600 400 Br Brass 500 300 Capper 40 400 200 Capper 300 20 100 200 10 20 30 40 50 70 10...