The steady-state diffusion flux through a metal plate is 5.4 x 10 at a temperature of...
Problem 5.27 The diffusion coefficients for species A in metal B are given at two temperatures: T(°C) 1020 1260 D (m2/s) 8.09 x 10-17 7.96% 10-15 (a) Determine the value of the activation energy Od (in J/mol). J/mol (b) Determine the value of Do. m2/s (Use scientific notation.) (c) What is the magnitude of D at 1160°C? m2/s (Use scientific notation.)
The diffusion coefficients for species A in metal B are given at two temperatures: T (°C)D (m2/s) 1020 7.23 x 10 1290 7.09% 10-16 (a) Determine the value of the activation energy Qd (in נ/mol). J/mol (b) Determine the value of Do m2/s (Use scientific notation.) (c) What is the magnitude of D at 1180°C? m2/s (Use scientific notation.)
Problem 5.27 x Incorrect The diffusion coefficients for species A in metal 8 are given at two temperatures TrC) (m2/s) 1010 8.63 10 1260 8.50x 101 (a) Determine the value of the activation energy a (in J/mol) 162636 /mo (b) Determine the value of O m2/s (Use scientific notation) 000000000023 (c) What is the magnitude of Dat 1180°C? 0.00000000000000033 m s (Use scientific notation) Click if you would like to Show Work for this question: Open Show Wrk
UTVER VIS Concentration of Nitrogen (wt%): = 0.21 Position in mm= 7.2 Diffusion Coefficient for Nitrogen in Iron at 700°C -8.90E-10 Nitrogen in Iron Heat Treatment Time (hours): = 8 Carburizing Time (hrs): = 7 Steel Alloy Case Depth (mm): 4.8 Steel Alloy New Case Depth (mm) - 9.9 Activation Energy kJ/mol: = 103 Temperature for Problem 3 (Celsius) -809 . Data for Problem 4 Temperature in C: -595 Diffusivity (m2/s) = 5.62E-14 Temperature in C: -702 Diffusivity (m /s)...
I will rate. Thanks so much Supplemental Problem 2.003 A large plate of thickness 2L is at a uniform temperature of Tỉ-190°C, when it is suddenly quenched by dipping it in a liquid bath of temperature To Heat transfer to the liquid is characterized by the convection coefficient h. Assume x = 0 corresponds to the midplane of the wall -20°C (a) If h = 100 w/m2, K, what is the heat flux atx = L and t = 0?...
A diffusion couple composed of two silver– gold alloys is formed; these alloys have compositions of 98 wt% Ag–2 wt% Au and 95 wt% Ag– 5 wt% Au. Determine the time this diffusion couple must be heated at 750°C (1023 K) in order for the composition to be 2.5 wt% Au at the 50 μm position into the 2 wt% Au side of the diffusion couple. Preexponential and activation energy values for Au diffusion in Ag are 8.5 × 10−5...
4) A piece of steel is to be hardened by nitrogen diffusion into its outer layer. The initial nitrogen content of the steel is 0.010 wt%, and the surface concentration (from an external nitrogen-rich gas) is to be maintained at 0.75 wt%. Goal: nitrogen content of 0.25 wt% at a position of 0.50 mm below the surface. Specify a minimum of three appropriate heat treatments (time and temperature combinations) for temperatures between 600°C and 850°C (use the minimum and maximum...
can you answer these for me! I am struggling. EEN 211 Home work #2 Due Date: 03/23/2020 1. The equilibrium fraction of lattice sites that are vacant in silver (Ag) at 700C is 2 x 10-6 Calculate the number of vacancies (per meter cubed) at 700 C. Assume a density of 10.35 g/cm for Ag 2. What is the composition, in atom percent of an alloy that consists of 92.5 wt% Ag and 7.5 wrCu? 3. Calculate the number of...
Questions and Problems 167 Fick's Second Law-Nonsteady-State Diffusion 5.D3 The wear resistance of a steel shaft is to be im proved by hardening its surface by increasing the nitrogen content within an outer surface layer as a result of nitrogen diffusion into the steel; the nitro- gen is to be supplied from an external nitrogen-rich gas at an elevated and constant temperature. The initial nitrogen content of the steel is 0.0025 wt%, whereas the surface concentration is to be main-...
Consider liquid water flowing over a flat plate of length L = 1 m. The water has the following properties: ρ-1000 kg/m3, Cp-4000 J/kgK. 10 3 kg/ ms, k 0.6 W/m . C μ Midway through the plate at x = 0.5 m, you measure a heat flux to the surface of: 05 m 3181 W/m2 You also measure an average heat flux to the surface over the length of the plate of: "4500 W/m2 Knowing the latter, and knowing...