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22.322 Mechanical Design II

22.322 Mechanical Design II. Spring 2013. Exam #1 Re-do Problem Solutions. Problem 3. N2=35 N3=(2.5)(10) = 25 N4=55 N5=(7)(5)=35 N6=(9)(5)=45. +2. +2. +2. Exam #1 Re-do Problem Solutions. Problem 4. Lecture 18. Balancing.

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22.322 Mechanical Design II

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  1. 22.322 Mechanical Design II Spring 2013

  2. Exam #1 Re-do Problem Solutions Problem 3 N2=35 N3=(2.5)(10) = 25 N4=55 N5=(7)(5)=35 N6=(9)(5)=45 +2 +2 +2

  3. Exam #1 Re-do Problem Solutions Problem 4

  4. Lecture 18 Balancing • Rotating parts should be designed to be inherently balanced by their geometry. • An unbalance in machines is attributed to irregularities such as machining errors, size variation in bolts, nuts, welds, etc., wear and particle accumulation. • To balance a shaft, disk, or gear, we need to determine the size and location of the eccentric mass. • Then, to correct the problem we can make the mass distribution symmetrical by adding or removing weight • Unbalance in rotating machines occurs when a rotating member does not possess symmetry with respect to mass • Examples: automobile tire, washing machine

  5. Lecture 18 V2 w2R R mw2R

  6. Lecture 18 F kx cx

  7. Lecture 18

  8. Lecture 18 • For a car, tire and rim balancing is necessary from time to time. • A static wheel balance entails placing the wheel in a horizontal plane suspended by a cone through its center hole. • A bubble level is attached to the wheel and weights are added to the rim until the wheel sits level. • This type of balancing is generally no longer done because it neglects the effect of unbalanced moments.

  9. Lecture 18

  10. Lecture 18

  11. Lecture 18

  12. Lecture 18 • To perform a dynamic balance of an automobile wheel, the following setup is typically used:

  13. Lecture 18 Example

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