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Determine the carburing time (Hour) necessary to achieve a carbon concentration of 0.47 wts at a...
10. Determine the carburizing time (in seconds) necessary to achieve a carbon concentration of 0.44 wt%...
10. Determine the carburizing time (in seconds) necessary to achieve a carbon concentration of 0.44 wt% at a position 3.0 mm into an iron-carbon alloy that initially contains 0.031 wt% C. The surface concentration is to be maintained at 1.2 wt% C, and the treatment is to be conducted at 1090°C. Assume that DO = 5.1 x 10-5 m2/s and Qd = 154 kJ/mol. You will find the table below useful. Z erf(z) t erf(z) Z erf(z) 0 0.55 1.3...
Determine the carburizing time (in s) necessary to achieve a carbon concentration of 0.44 wt% at...
Determine the carburizing time (in s) necessary to achieve a carbon concentration of 0.44 wt% at a position 2.9 mm into an iron-carbon alloy that initially contains 0.031 wt% C. The surface concentration is to be maintained at 1.2 wt% C, and the treatment is to be conducted at 1180°C. Assume that Do = 5.1 x 10-5 m2/s and Qd-154 krmol. You will find the table below useful. er(z) erf(z)erf(z) 0.55 0.5633 1.3 0.9340 0.025 0.0282 0.60 0.6039 1.4 0.9523...
Determine the carburizing time (in s) necessary to achieve a carbon concentration of 0.44 wt% at...
Determine the carburizing time (in s) necessary to achieve a carbon concentration of 0.44 wt% at a position 1.2 mm into an iron-carbon alloy that initially contains 0.031 wt% C. The surface concentration is to be maintained at 1.2 wt% C, and the treatment is to be conducted at 1260°C. Assume that Do - 5.1 x 10-5 m2/s and Qd-154 kJ/mol. You will find the table below useful. erf(z) erf(z)z erf(z) 0 0 0.55 0.5633 1.3 0.9340 0.025 0.02820.600.6039 1.4...
Determine the carburizing time (in s) necessary to achieve a carbon concentration of 0.44 wt% at...
Determine the carburizing time (in s) necessary to achieve a carbon concentration of 0.44 wt% at a position 1.4 mm into an iron-carbon alloy that initially contains 0.031 wt% C. The surface concentration is to be maintained at 1.2 wt% C, and the treatment is to be conducted at 1130°C. Assume that Do -5.1 x 10-5 m2/s and Qd 154 kJ/mol. You will find the table below useful. erf(z) erf(2)z erf(z) 5633 1.3 0.9340 0.025 0.0282 0.60 0.6039 1.4 0.9523...
2. An FCC iron-carbon alloy initially containing 0.40 wt% C is exposed to an oxygen-rich and...
2. An FCC iron-carbon alloy initially containing 0.40 wt% C is exposed to an oxygen-rich and virtually carbon-free atmosphere at 1325 K (1052°C). Under these circumstances the carbon diffuses from the alloy and reacts at the surface with the oxygen in the atmosphere—that is, the carbon concentration at the surface position is maintained essentially at 0 wt% C. (This process of carbon depletion is termed decarburization.) At what position will the carbon concentration be 0.25 wt% after a 10-h treatment?...
Nitrogen from a gaseous phase is to be diffused into pure iron at 700°C. If the...
Nitrogen from a gaseous phase is to be diffused into pure iron at 700°C. If the surface concentration is maintained at 0.12 wt% N, what will be the concentration (in weight percent) 3.9 mm from the surface after 6.5 h? The diffusion coefficient for nitrogen in iron at 700°C is 4.1 x 10-10 m²/s. 1.7 z erf(z) 0.00 0.0000 0.025 0.0282 0.05 0.0564 0.10 0.1125 0.15 0.1680 0.20 0.2227 0.25 0.2763 0.30 0.3286 0.35 0.3794 0.40 0.4284 0.45 0.4755 0.50...
You are overseeing the carburizing of gears. You find that a batch of gears us ub a urnace and that the temperature has...
You are overseeing the carburizing of gears. You find that a
batch of gears us ub a urnace and that the temperature has been set
too low by 25*c You decide to solve the problem by extending the
carburization time so that an equivalent amount of diffusion takes
place
.11 h You are overseeing the carburization of gears. You find that a batch of gears is in a furnace and that the temperature has been set too low by 25...
please solve it as soon as u can 2 Chapte c Antrop G Antrop 4R0* G...
please solve it as soon as u can
2 Chapte c Antrop G Antrop 4R0* G The di * This is * The Di Solved * Math + missouri.instructure.com/courses/23331/assignments/513990 ?module_item_id=1411967 Question 4 0/3 View Policies Show Attempt History Current Attempt in Progress Ses An iron-carbon alloy initially containing 0.245 W i s exposed to an oxygenrich and virtually carbon-free atmosphere at 1100°C. Under these drcumstances the carbon diffuses from the allorandreacts at the surface with the oxygen in the atmosphere...
Determine the carburizing time necessary to achieve a carbon concentration of 0.48 wt% at a position...
Determine the carburizing time necessary to achieve a carbon concentration of 0.48 wt% at a position 3.2 mm into an iron-carbon alloy that initially contains 0.20 wt% C. The surface concentration is to be maintained at 1.0 wt% C, and the treatment is to be conducted at 1070°C. Assume that D0 = 2.2 × 10-5 m2/s and Qd = 173 kJ/mol. The following table may be useful. om Equation 6.5 calculate the Gaussian error function: erf(x2Dt) =
No. 5 (20 points) (a) Determine the time necessary to achieve a carbon concentration of 0.30 wt.% at a position of 4 mm...
No. 5 (20 points) (a) Determine the time necessary to achieve a carbon concentration of 0.30 wt.% at a position of 4 mm into an iron-carbon alloy that initially contains 0.10 wt. % C. The surface concentration is to be maintained at 0.90 wt.% C, and the diffusion coefficient of C is 7.0 x 10-11 m2/sec. (10 points) (b) The diffusion coefficient of Ni in a stainless steel (fcc) is 1 x 1022 m2/sec at 500°C and 1 x 10-15...
10. Determine the carburizing time (in seconds) necessary to achieve a carbon concentration of 0.44 wt% at a position 3.0 mm into an iron-carbon alloy that initially contains 0.031 wt% C. The surface concentration is to be maintained at 1.2 wt% C, and the treatment is to be conducted at 1090°C. Assume that DO = 5.1 x 10-5 m2/s and Qd = 154 kJ/mol. You will find the table below useful. Z erf(z) t erf(z) Z erf(z) 0 0.55 1.3...
Determine the carburizing time (in s) necessary to achieve a carbon concentration of 0.44 wt% at a position 2.9 mm into an iron-carbon alloy that initially contains 0.031 wt% C. The surface concentration is to be maintained at 1.2 wt% C, and the treatment is to be conducted at 1180°C. Assume that Do = 5.1 x 10-5 m2/s and Qd-154 krmol. You will find the table below useful. er(z) erf(z)erf(z) 0.55 0.5633 1.3 0.9340 0.025 0.0282 0.60 0.6039 1.4 0.9523...
Determine the carburizing time (in s) necessary to achieve a carbon concentration of 0.44 wt% at a position 1.2 mm into an iron-carbon alloy that initially contains 0.031 wt% C. The surface concentration is to be maintained at 1.2 wt% C, and the treatment is to be conducted at 1260°C. Assume that Do - 5.1 x 10-5 m2/s and Qd-154 kJ/mol. You will find the table below useful. erf(z) erf(z)z erf(z) 0 0 0.55 0.5633 1.3 0.9340 0.025 0.02820.600.6039 1.4...
Determine the carburizing time (in s) necessary to achieve a carbon concentration of 0.44 wt% at a position 1.4 mm into an iron-carbon alloy that initially contains 0.031 wt% C. The surface concentration is to be maintained at 1.2 wt% C, and the treatment is to be conducted at 1130°C. Assume that Do -5.1 x 10-5 m2/s and Qd 154 kJ/mol. You will find the table below useful. erf(z) erf(2)z erf(z) 5633 1.3 0.9340 0.025 0.0282 0.60 0.6039 1.4 0.9523...
2. An FCC iron-carbon alloy initially containing 0.40 wt% C is exposed to an oxygen-rich and virtually carbon-free atmosphere at 1325 K (1052°C). Under these circumstances the carbon diffuses from the alloy and reacts at the surface with the oxygen in the atmosphere—that is, the carbon concentration at the surface position is maintained essentially at 0 wt% C. (This process of carbon depletion is termed decarburization.) At what position will the carbon concentration be 0.25 wt% after a 10-h treatment?...
Nitrogen from a gaseous phase is to be diffused into pure iron at 700°C. If the surface concentration is maintained at 0.12 wt% N, what will be the concentration (in weight percent) 3.9 mm from the surface after 6.5 h? The diffusion coefficient for nitrogen in iron at 700°C is 4.1 x 10-10 m²/s. 1.7 z erf(z) 0.00 0.0000 0.025 0.0282 0.05 0.0564 0.10 0.1125 0.15 0.1680 0.20 0.2227 0.25 0.2763 0.30 0.3286 0.35 0.3794 0.40 0.4284 0.45 0.4755 0.50...
You are overseeing the carburizing of gears. You find that a
batch of gears us ub a urnace and that the temperature has been set
too low by 25*c You decide to solve the problem by extending the
carburization time so that an equivalent amount of diffusion takes
place
.11 h You are overseeing the carburization of gears. You find that a batch of gears is in a furnace and that the temperature has been set too low by 25...
please solve it as soon as u can
2 Chapte c Antrop G Antrop 4R0* G The di * This is * The Di Solved * Math + missouri.instructure.com/courses/23331/assignments/513990 ?module_item_id=1411967 Question 4 0/3 View Policies Show Attempt History Current Attempt in Progress Ses An iron-carbon alloy initially containing 0.245 W i s exposed to an oxygenrich and virtually carbon-free atmosphere at 1100°C. Under these drcumstances the carbon diffuses from the allorandreacts at the surface with the oxygen in the atmosphere...
No. 5 (20 points) (a) Determine the time necessary to achieve a carbon concentration of 0.30 wt.% at a position of 4 mm into an iron-carbon alloy that initially contains 0.10 wt. % C. The surface concentration is to be maintained at 0.90 wt.% C, and the diffusion coefficient of C is 7.0 x 10-11 m2/sec. (10 points) (b) The diffusion coefficient of Ni in a stainless steel (fcc) is 1 x 1022 m2/sec at 500°C and 1 x 10-15...
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