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Twisting a wire lab.

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Presentation on theme: "Twisting a wire lab."— Presentation transcript:

1 Twisting a wire lab

2 Learning targets for this lab
Students will be able to describe and apply annealing Students can relate the physical changes in a work hardened wire to the internal changes of the crystalline structure.

3 Copper has crystals On the atomic level copper is arranged in a face centered cubic crystal structure.

4 The atomic crystal structure changes the behavior of a metal
6 planes One way is via the number of slip planes the atomic crystal structure has. A slip plane is a way that the atoms can easily slide over each other. The more slip planes the more the metal can change shape without cracking. 12 slip planes 3 slip planes

5 Face centered cubic has lots of slip planes
Plastic deformation in metal takes place by sliding (slip) of close-packed planes over one another. The greater the number of slip systems, the greater the capacity for deformation. Face-centered cubic metals have a large number of slip systems (12) and are capable of moderate to extensive plastic deformation, even at temperatures approaching absolute zero.

6 This is what the crystal structure might look like in your wire
Thanks Wikipedia!

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