According to Reference [1], alloys of nickel (Ni) and tungsten (W) are can form substitutional solid solutions up to approximately 11 at% W. Consider two different alloy compositions: Ni-5W (5 at% W) and Ni-10.5W (10.5 at% W). A. Which composition should be more ductile? B. Which composition should be stronger? C. Using the oy ~ C¹/2 relationship from the lecture slides, how many times larger should the yield strength be for Ni-10.5W compared to Ni-5W? D. Where should the tungsten atoms sit relative to the dislocation on or opposite the side with the extra half-plane? You will need information from Appendixes of the textbook.

Elements Of Electromagnetics
7th Edition
ISBN:9780190698614
Author:Sadiku, Matthew N. O.
Publisher:Sadiku, Matthew N. O.
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**Nickel-Tungsten Alloy Compositions**

According to Reference [1], alloys of nickel (Ni) and tungsten (W) can form substitutional solid solutions up to approximately 11 at% W. Consider two different alloy compositions: Ni-5W (5 at% W) and Ni-10.5W (10.5 at% W).

**A. Which composition should be more ductile?**

**B. Which composition should be stronger?**

**C. Using the σᵧ ∼ C^(1/2) relationship from the lecture slides, how many times larger should the yield strength be for Ni-10.5W compared to Ni-5W?**

**D. Where should the tungsten atoms sit relative to the dislocation—on or opposite the side with the extra half-plane? You will need information from Appendixes of the textbook.**
Transcribed Image Text:**Nickel-Tungsten Alloy Compositions** According to Reference [1], alloys of nickel (Ni) and tungsten (W) can form substitutional solid solutions up to approximately 11 at% W. Consider two different alloy compositions: Ni-5W (5 at% W) and Ni-10.5W (10.5 at% W). **A. Which composition should be more ductile?** **B. Which composition should be stronger?** **C. Using the σᵧ ∼ C^(1/2) relationship from the lecture slides, how many times larger should the yield strength be for Ni-10.5W compared to Ni-5W?** **D. Where should the tungsten atoms sit relative to the dislocation—on or opposite the side with the extra half-plane? You will need information from Appendixes of the textbook.**
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