Suppose that you have measured the strain aging kinetics of a high-strength low-alloy (HSLA) steel and obtained the following results: Aging Temperature (°C) Aging Time (min) ΔΥ (MPa) 150 240 40 130 1800 40 ermine (using a mathematical rather than graphical approach) the time necessary to obtain a f 40 AAD. f120°C Cte

Elements Of Electromagnetics
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1.
Suppose that you have measured the strain aging kinetics of a high-strength low-alloy
(HSLA) steel and obtained the following results:
Aging Temperature (°C)
Aging Time (min)
ΔΥ (MPa)
150
240
40
130
1800
40
Determine (using a mathematical rather than graphical approach) the time necessary to obtain a
strengthening increment, AY, of 40 MPa at an ageing temperature of 120°C. State any
assumptions made in order to arrive at your approximation.
Transcribed Image Text:1. Suppose that you have measured the strain aging kinetics of a high-strength low-alloy (HSLA) steel and obtained the following results: Aging Temperature (°C) Aging Time (min) ΔΥ (MPa) 150 240 40 130 1800 40 Determine (using a mathematical rather than graphical approach) the time necessary to obtain a strengthening increment, AY, of 40 MPa at an ageing temperature of 120°C. State any assumptions made in order to arrive at your approximation.
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