Term
| Anisotropic behavior can result from processing of metals. This means: |
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Definition
| some properties of the material depend on its spatial orientation. |
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Term
| Extrusion is the process of: |
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Definition
| pushing metal through a die to produce an object of constant cross section, such as a rod. |
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Term
| Forging is the process of: |
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Definition
| compressing metal into a die to produce a desired shape. |
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Term
| Glass is commonly processed in a variety of ways, including all of the following except: |
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Definition
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Term
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Definition
| polymers that can be melted and reformed and are capable of being strengthened when their constituent molecules are aligned. |
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Term
| The process of strengthening metals usually results in |
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Definition
| multiplication of existing dislocations. |
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Term
| In general, thermoplastics can be processed using many of the same techniques for processing metals, such as extrusion. (T or F) |
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Definition
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Term
| In which step of annealing does the dislocation density remain unchanged? |
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Definition
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Term
| What does cold working result from? |
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Definition
| Increased dislocation density |
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Term
| Which is NOT an advantage of cold working a metallic material? |
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Definition
| Corrosion resistance is improved |
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Term
| How much can a plate plastically deform during hot working? |
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Definition
| An almost unlimited amount |
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Term
| What is a result of hot working? |
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Definition
| Elimination of imperfections |
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Term
| What material can be hot worked at room temperature? |
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Definition
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Term
| What reduces the recrystallization temperature? |
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Definition
| A smaller initial grain size |
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Term
| How can you eliminate residual stresses in cold-worked metallic materials? |
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Definition
| Stress-relief anneal the part |
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Term
| What is the second step of annealing? |
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Definition
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Term
| What does annealing NOT accomplish? |
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Definition
| Eliminating the dimensional accuracy |
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