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Animated Figure 8.34 shows a plot of the logarithm stress versus the Larson Miller parameter for...
Incorrect. Animated Figure 9.41 shows a plot of the logarithm stress versus the Larson-Miller parameter for...
Incorrect. Animated Figure 9.41 shows a plot of the logarithm stress versus the Larson-Miller parameter for an S-590 alloy. A component made of this alloy must have a creep rupture lifetime of at least 20 days at 650°C (923 K). Compute the maximum allowable stress level. MPa 390 the tolerance is +/-2%
Animated Figure 9.41 shows a plot of the logarithm stress versus the Larson-Miller parameter for an...
Animated Figure 9.41 shows a plot of the logarithm stress versus
the Larson-Miller parameter for an S-590 alloy. A component made of
this alloy must have a creep rupture lifetime of at least 20 days
at 750°C (1023 K). Compute the maximum allowable stress level in
MPa.
Larson-Miller parameter 12- 103 (R-h) 103 T(20 + log ir)("R-h) Larson-Miller parameter 2.2- 10s (K-h) Stress 6.9 MPA Stress 1 105 psi 25 30 35 4045 50 1000 100 100 CD 10 9...
shows a plot of the logarithm stress versus the Larson-Miller parameter for an S-590 alloy. A...
shows a plot of the logarithm stress versus the Larson-Miller parameter for an S-590 alloy. A component made of this alloy must have a creep rupture lifetime of at least 20 days at 800°C (1073 K). Compute the maximum allowable stress level.
Chapter 08, Problem 8.05 amated Eigurea4 shows a plt of the lagarithm stress versus the Larson-Miller...
Chapter 08, Problem 8.05 amated Eigurea4 shows a plt of the lagarithm stress versus the Larson-Miller parameter for an S590 alcy. A cormponent made of this alloy must have a creep rupture lfetime of at least 20 days at 750c (1023 maximum allawable stress level. MPa me tolerance is 4- 10%. Click if you would like to Show Work for this question: Open Shaw Wark Larson-Miller parameter 12-103 (R-h) Larson-Miller parameter 2.2 103 (K-h) Stress = 6.9 MPA Stress =...
ignment R VERSIONBACK NEXT Chapter 08, Problem 8.43 (a) Using 100 MPa at 925°C. (b) Determine...
ignment R VERSIONBACK NEXT Chapter 08, Problem 8.43 (a) Using 100 MPa at 925°C. (b) Determine the same value from the Larson-Miller plot of Animated Figure 8.34, which is for this same S-590 alloy compute the rupture lifetime for an S-590 alloy that is exposed to a tensile stress of hours hours Click if you would like to Show Work for this question: Open Show Work SUBMIT ANSWER
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...
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 10 Figure (a) shows charged particles 1 and 2 that are fixed in place on...
Question 10 Figure (a) shows charged particles 1 and 2 that are fixed in place on an x axis. Particle 1 has a charge with a magnitude of lg1l 8e. Particle 3 of charge q3 +8e is initially on the x axis near particle 2.Then particle 3 is gradually moved in the positive direction of the x axis. As a result, the magnitude of the net electrostatic force on particle 2 due to particles 1 and 3 changes. Figure (b)...
Incorrect. Animated Figure 9.41 shows a plot of the logarithm stress versus the Larson-Miller parameter for an S-590 alloy. A component made of this alloy must have a creep rupture lifetime of at least 20 days at 650°C (923 K). Compute the maximum allowable stress level. MPa 390 the tolerance is +/-2%
Animated Figure 9.41 shows a plot of the logarithm stress versus
the Larson-Miller parameter for an S-590 alloy. A component made of
this alloy must have a creep rupture lifetime of at least 20 days
at 750°C (1023 K). Compute the maximum allowable stress level in
MPa.
Larson-Miller parameter 12- 103 (R-h) 103 T(20 + log ir)("R-h) Larson-Miller parameter 2.2- 10s (K-h) Stress 6.9 MPA Stress 1 105 psi 25 30 35 4045 50 1000 100 100 CD 10 9...
Chapter 08, Problem 8.05 amated Eigurea4 shows a plt of the lagarithm stress versus the Larson-Miller parameter for an S590 alcy. A cormponent made of this alloy must have a creep rupture lfetime of at least 20 days at 750c (1023 maximum allawable stress level. MPa me tolerance is 4- 10%. Click if you would like to Show Work for this question: Open Shaw Wark Larson-Miller parameter 12-103 (R-h) Larson-Miller parameter 2.2 103 (K-h) Stress = 6.9 MPA Stress =...
ignment R VERSIONBACK NEXT Chapter 08, Problem 8.43 (a) Using 100 MPa at 925°C. (b) Determine the same value from the Larson-Miller plot of Animated Figure 8.34, which is for this same S-590 alloy compute the rupture lifetime for an S-590 alloy that is exposed to a tensile stress of hours hours Click if you would like to Show Work for this question: Open Show Work SUBMIT ANSWER
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 10 Figure (a) shows charged particles 1 and 2 that are fixed in place on an x axis. Particle 1 has a charge with a magnitude of lg1l 8e. Particle 3 of charge q3 +8e is initially on the x axis near particle 2.Then particle 3 is gradually moved in the positive direction of the x axis. As a result, the magnitude of the net electrostatic force on particle 2 due to particles 1 and 3 changes. Figure (b)...
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