Calculating Heat Transfer Time for Steel Immersed in Zinc Bath

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SUMMARY

The discussion focuses on calculating the heat transfer time for a steel piece immersed in a zinc bath. A steel block measuring 0.25 inches thick, 1 meter wide, and 1 meter long, initially at 100°C, is heated to 460°C. The heating time is estimated using the formula t ≈ L²/D, where L is the characteristic length (1/8 inch) and D is the thermal diffusivity of steel (10-5 m²/s). The estimated heating time is approximately one second, and the reference text "Fundamentals of Heat and Mass Transfer" by Incropera & DeWitt is recommended for further study.

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loopster
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If I had a piece of steel 0.25" thick 1 meter wide and 1 meter long and it was at 100 deg C and it was immersed in a bath of zinc at 460 deg C how long would it take to heat the piece of steel to 460 deg C?


Would this be down the lines of Fourier's Law of conduction?


q= 42*1*(460-100)/0.0635?

FYI... I am a process engineer at a steel company and my son directed me to this sight for help
 
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Hi loopster, welcome to PF. A simple way to estimate the heating time is

t\approx\frac{L^2}{D}

where L is the characteristic length and D is the thermal diffusivity. I'd take half the thickness, 1/8", as the characteristic length because the zinc bath is on both sides. It looks like the thermal diffusivity of steel is about 10-5 m2/s = 0.0155 in2/s. This predicts the heating time to be about a second. Is this helpful?

Incropera & DeWitt's Fundamentals of Heat and Mass Transfer is a great reference if you have to solve a lot of these types of problems.
 

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