Determining the optimal rotation cycle time


Assignment:

Green’s Buttons of Rolla, Missouri, supplies all the New Jersey Fabrics stores with eight different styles of buttons for men’s dress shirts. The plastic injection molding machine can produce only one button style at a time and substantial time is required to reconfigure the machine for different button styles. As Green’s has contracted to supply fixed quantities of buttons for the next three years, its demand can be treated as fixed and known. The relevant data for this problem appear in the following table.

Button

Annual

Production Rate

Setup Time

Variable

Type

Sales

(units/day)

(hours)

Cost

A

25,900

4,500

6

$0.003

B

42,000

5,500

4

0.002

C

14,400

3,300

8

0.008

D

46,000

3,200

4

0.002

E

12,500

1,800

3

0.010

F

75,000

3,900

6

0.005

G

30,000

2,900

1

0.004

H

18,900

1,200

3

0.007

Assume 250 working days per year. Green’s accounting department has established an 18 percent annual interest rate for the cost of capital and a 3 percent annual interest rate to account for storage space. Setup costs are $20 per hour required to reconfigure the equipment for a new style. Suppose that the firm decides to use a rotation cycle policy for production of the buttons.

a. What is the optimal rotation cycle time?
b. How large should the lots be?
c. What is the average annual cost of holding and setups at the optimal solution?
d. What contractual obligations might Green's have with New Jersey Fabrics that would prevent them from implementing the policy you determined in parts (a) and (b)? More specifically, if Green's agreed to make three shipments per year for each button style, what production policy would you recommend?

Provide complete and step by step solution for the question and show calculations and use formulas.

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Basic Statistics: Determining the optimal rotation cycle time
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