Grain diameter = 0.045 mm Time = 16.73 min 850°C 800°C 1.0E 700°C 600°C 0.1E 1500°C 0.01 102 104 10 103 Time (min) (Logarithmic scale) Grain diameter (mm) (Logarithmic scale) Chapter 07, Problem 7.43 GO Tutorial X Incorrect. An uncold-worked brass specimen of average grain size 0.006 mm has a yield strength of 178 MPa. Estimate the yield strength of this alloy (in MPa) after it has been heated to 600°C for 1000 s, if it is known that the value of k, is 11 MPa-mm1/2. The Animated Figure 7.25 may be helpful. MPa [The tolerance is +/- 2%.]

An uncold-worked brass specimen of average grain size 0.006 mm has a yield strength of 178 MPa. Estimate the yield strength of this alloy (in MPa) after it has been heated to 600°C for 1000 s, if it is known that the value of k_y is 11 MPa-mm^1/2. The Animated Figure 7.25 may be helpful.

Attached is the question and the figure referenced.

Transcribed Image Text:

Grain diameter = 0.045 mm Time = 16.73 min 850°C 800°C 1.0E 700°C 600°C 0.1E 1500°C 0.01 102 104 10 103 Time (min) (Logarithmic scale) Grain diameter (mm) (Logarithmic scale)

Transcribed Image Text:

Chapter 07, Problem 7.43 GO Tutorial X Incorrect. An uncold-worked brass specimen of average grain size 0.006 mm has a yield strength of 178 MPa. Estimate the yield strength of this alloy (in MPa) after it has been heated to 600°C for 1000 s, if it is known that the value of k, is 11 MPa-mm1/2. The Animated Figure 7.25 may be helpful. MPa [The tolerance is +/- 2%.]