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3. Microfluidic channels will need to be fabricated on a key micro-scale sensor used by aerospace industries. Before running machining tests and analyzing machined quality, preliminary efforts are needed to evaluate selected materials and factors affecting machining process¹. Three material candidates have been selected, including 422SS (stainless steel), IN718 (nickel alloy), and Ti64 (titanium alloy) with their measured tensile properties and equation of true stress-true strain relationship used listed below. Tref25°C. Specifically, three factors will need to be evaluated, including different materials, temperature, and size effect. Please calculate true stress values for true strain ranging between 0-3 for each case listed below. Material A (MPa) & (S-¹) Tm (°C) 870 0.01 1520 422SS (Peyre et al., 2007) IN718 (Kobayashi et al., 2008) Ti64 (Umbrello, 2008) 980 1 1300 782.7 1E-5 1660 Material 422SS (CINDAS, 2011) IN718 (Davis, 1997) Ti64 (Fukuhara and Sanpei, 1993) 0 = X G (GPa) 1+ B (MPa) 400 1370 498.4 -0.0439T(°C)+85.709 -0.0225 T(°C) +86.003 -0.0241 T(°C)+41.097 : (A+Bɛ¹) 1+ c log (₁ n 0.4 0.164 0.28 с 0.015 0.02 0.028 b (nm) 0.248 0.249 0.295 T-Tref 08 / ) (¹ - (7-T)") 1- Tm-Tref m m 0.5 1.03 1 a 0.5 0.5 0.5 1/2 :)")" 18a²bG² L((A + Bɛ¹)(1 +c log (ê)/((&), ))(1 – ((T – Tref )/(Tm – Tref ))))² - μ 0.38 0.38 0.38 (a) At a fixed temperature (T=400 °C) and a strain rate (¿=105 s¯¹, typical for micromachining), please plot and compare the true stress-true strain curves for different materials. A 1 µm wide channel will be cut, so the length parameter, L=10 nm, may be assumed. (b) At a strain rate (¿=10³ s¯¹) with a fixed length parameter (L=10 nm), please plot and compare the true stress-true strain curves of Ti64 at different temperatures (T=25 °C, 400 °C, 1000 °C). (c) At a fixed temperature (T=400 °C) and a strain rate (¿=105 s¯¹), please plot and compare the true stress- true strain curves of Ti64 if microfluidic channels with different width need to be made, specifically L=10 nm, 100 nm, 1000 nm.

3. Microfluidic channels will need to be fabricated on a key micro-scale sensor used by aerospace industries. Before running machining tests and analyzing machined quality, preliminary efforts are needed to evaluate selected materials and factors affecting machining process¹. Three material candidates have been selected, including 422SS (stainless steel), IN718 (nickel alloy), and Ti64 (titanium alloy) with their measured tensile properties and equation of true stress-true strain relationship used listed below. Tref25°C. Specifically, three factors will need to be evaluated, including different materials, temperature, and size effect. Please calculate true stress values for true strain ranging between 0-3 for each case listed below. Material A (MPa) & (S-¹) Tm (°C) 870 0.01 1520 422SS (Peyre et al., 2007) IN718 (Kobayashi et al., 2008) Ti64 (Umbrello, 2008) 980 1 1300 782.7 1E-5 1660 Material 422SS (CINDAS, 2011) IN718 (Davis, 1997) Ti64 (Fukuhara and Sanpei, 1993) 0 = X G (GPa) 1+ B (MPa) 400 1370 498.4 -0.0439T(°C)+85.709 -0.0225 T(°C) +86.003 -0.0241 T(°C)+41.097 : (A+Bɛ¹) 1+ c log (₁ n 0.4 0.164 0.28 с 0.015 0.02 0.028 b (nm) 0.248 0.249 0.295 T-Tref 08 / ) (¹ - (7-T)") 1- Tm-Tref m m 0.5 1.03 1 a 0.5 0.5 0.5 1/2 :)")" 18a²bG² L((A + Bɛ¹)(1 +c log (ê)/((&), ))(1 – ((T – Tref )/(Tm – Tref ))))² - μ 0.38 0.38 0.38 (a) At a fixed temperature (T=400 °C) and a strain rate (¿=105 s¯¹, typical for micromachining), please plot and compare the true stress-true strain curves for different materials. A 1 µm wide channel will be cut, so the length parameter, L=10 nm, may be assumed. (b) At a strain rate (¿=10³ s¯¹) with a fixed length parameter (L=10 nm), please plot and compare the true stress-true strain curves of Ti64 at different temperatures (T=25 °C, 400 °C, 1000 °C). (c) At a fixed temperature (T=400 °C) and a strain rate (¿=105 s¯¹), please plot and compare the true stress- true strain curves of Ti64 if microfluidic channels with different width need to be made, specifically L=10 nm, 100 nm, 1000 nm.

Elements Of Electromagnetics
Elements Of Electromagnetics
7th Edition
ISBN:9780190698614
Author:Sadiku, Matthew N. O.
Publisher:Sadiku, Matthew N. O.
ChapterMA: Math Assessment
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3. Microfluidic channels will need to be fabricated on a key micro-scale sensor used by aerospace industries. Before running machining tests and analyzing machined quality, preliminary efforts are needed to evaluate selected materials and factors affecting machining process¹. Three material candidates have been selected, including 422SS (stainless steel), IN718 (nickel alloy), and Ti64 (titanium alloy) with their measured tensile properties and equation of true stress-true strain relationship used listed below. Tref25°C. Specifically, three factors will need to be evaluated, including different materials, temperature, and size effect. Please calculate true stress values for true strain ranging between 0-3 for each case listed below. Material A (MPa) & (S-¹) Tm (°C) 870 0.01 1520 422SS (Peyre et al., 2007) IN718 (Kobayashi et al., 2008) Ti64 (Umbrello, 2008) 980 1 1300 782.7 1E-5 1660 Material 422SS (CINDAS, 2011) IN718 (Davis, 1997) Ti64 (Fukuhara and Sanpei, 1993) 0 = X G (GPa) 1+ B (MPa) 400 1370 498.4 -0.0439T(°C)+85.709 -0.0225 T(°C) +86.003 -0.0241 T(°C)+41.097 : (A+Bɛ¹) 1+ c log (₁ n 0.4 0.164 0.28 с 0.015 0.02 0.028 b (nm) 0.248 0.249 0.295 T-Tref 08 / ) (¹ - (7-T)") 1- Tm-Tref m m 0.5 1.03 1 a 0.5 0.5 0.5 1/2 :)")" 18a²bG² L((A + Bɛ¹)(1 +c log (ê)/((&), ))(1 – ((T – Tref )/(Tm – Tref ))))² - μ 0.38 0.38 0.38 (a) At a fixed temperature (T=400 °C) and a strain rate (¿=105 s¯¹, typical for micromachining), please plot and compare the true stress-true strain curves for different materials. A 1 µm wide channel will be cut, so the length parameter, L=10 nm, may be assumed. (b) At a strain rate (¿=10³ s¯¹) with a fixed length parameter (L=10 nm), please plot and compare the true stress-true strain curves of Ti64 at different temperatures (T=25 °C, 400 °C, 1000 °C). (c) At a fixed temperature (T=400 °C) and a strain rate (¿=105 s¯¹), please plot and compare the true stress- true strain curves of Ti64 if microfluidic channels with different width need to be made, specifically L=10 nm, 100 nm, 1000 nm.
Transcribed Image Text:3. Microfluidic channels will need to be fabricated on a key micro-scale sensor used by aerospace industries. Before running machining tests and analyzing machined quality, preliminary efforts are needed to evaluate selected materials and factors affecting machining process¹. Three material candidates have been selected, including 422SS (stainless steel), IN718 (nickel alloy), and Ti64 (titanium alloy) with their measured tensile properties and equation of true stress-true strain relationship used listed below. Tref25°C. Specifically, three factors will need to be evaluated, including different materials, temperature, and size effect. Please calculate true stress values for true strain ranging between 0-3 for each case listed below. Material A (MPa) & (S-¹) Tm (°C) 870 0.01 1520 422SS (Peyre et al., 2007) IN718 (Kobayashi et al., 2008) Ti64 (Umbrello, 2008) 980 1 1300 782.7 1E-5 1660 Material 422SS (CINDAS, 2011) IN718 (Davis, 1997) Ti64 (Fukuhara and Sanpei, 1993) 0 = X G (GPa) 1+ B (MPa) 400 1370 498.4 -0.0439T(°C)+85.709 -0.0225 T(°C) +86.003 -0.0241 T(°C)+41.097 : (A+Bɛ¹) 1+ c log (₁ n 0.4 0.164 0.28 с 0.015 0.02 0.028 b (nm) 0.248 0.249 0.295 T-Tref 08 / ) (¹ - (7-T)") 1- Tm-Tref m m 0.5 1.03 1 a 0.5 0.5 0.5 1/2 :)")" 18a²bG² L((A + Bɛ¹)(1 +c log (ê)/((&), ))(1 – ((T – Tref )/(Tm – Tref ))))² - μ 0.38 0.38 0.38 (a) At a fixed temperature (T=400 °C) and a strain rate (¿=105 s¯¹, typical for micromachining), please plot and compare the true stress-true strain curves for different materials. A 1 µm wide channel will be cut, so the length parameter, L=10 nm, may be assumed. (b) At a strain rate (¿=10³ s¯¹) with a fixed length parameter (L=10 nm), please plot and compare the true stress-true strain curves of Ti64 at different temperatures (T=25 °C, 400 °C, 1000 °C). (c) At a fixed temperature (T=400 °C) and a strain rate (¿=105 s¯¹), please plot and compare the true stress- true strain curves of Ti64 if microfluidic channels with different width need to be made, specifically L=10 nm, 100 nm, 1000 nm.
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