The carburizing time necessary to achieve a carbon concentration of 0.30 w t % at a position 4 -mm into a steel alloy that initially contains 0.10 w t % carbon needs to be determined. Concept introduction: Consider the following expression of Fick's second law. c s − c x c s − c 0 = erf ( x 2 D t ) ........... ( 1 ) Here, c s is a constant concentration of the diffusion atoms at the surface of the material, c x is the concentration of the diffusing atoms at location X below the surface, c 0 is the initial uniform concentration, D is the diffusion coefficient, erf is the error function, and t is the time. Calculate the diffusion coefficient at 1100 o C for carbon in FCC iron. D = D 0 exp ( − Q R T ) ........... ( 2 ) Here, D 0 is a constant for the given diffusion system, Q is the activation energy, R is the gas constant, T is the absolute temperature.

Question

The rectangular gate shown in figure rotates about an axis through N. If a=3.3 ft,b=1.3 ft, d=2 ft, and the width perpendicular to the plane of the figure is 3 ft, what torque(applied to the shaft through N) is required to hold the gate closed?

Answer 1

Question

Chapter 5, Problem 5.51P

Interpretation Introduction

Interpretation:

The carburizing time necessary to achieve a carbon concentration of 0.30 wt% at a position 4 -mm into a steel alloy that initially contains 0.10 wt% carbon needs to be determined.

Concept introduction:

Consider the following expression of Fick's second law.

cs−cxcs−c0=erf(x2 Dt)...........(1)

Here, cs is a constant concentration of the diffusion atoms at the surface of the material, cx is the concentration of the diffusing atoms at location X below the surface, c0 is the initial uniform concentration, D is the diffusion coefficient, erf is the error function, and t is the time.

Calculate the diffusion coefficient at 1100oC for carbon in FCC iron.

D=D0exp(−QRT)...........(2)

Here, D0 is a constant for the given diffusion system, Q is the activation energy, R is the gas constant, T is the absolute temperature.

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