MGT-655 Topic 3 Inventory Management - Analytics Exercise: An MRP Explosion - Brunswick Motors | Documents and Forms | Research Papers

MGT-655 Topic 3 Inventory Management - Analytics Exercise: An MRP Explosion - Brunswick Motors

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MGT-655 Topic 3 Inventory Management - Analytics Exercise: An MRP Explosion - Brunswick Motors

Operations Management - Inventory Management

Grand Canyon University (MGT-655-0101)

 

 

Complete the "Analytics Exercise: An MRP Explosion - Brunswick Motors," at the end of Chapter 21 in the textbook. Answer Questions 1-3.

APA format is not required, but solid academic writing is expected.

 

Analytics Exercise: An MRP Explosion—Brunswick Motors

Recently, Phil Harris, the production control manager at Brunswick, read an article on time-phased requirements planning. He was curious about how this technique might work in scheduling Brunswick’s engine assembly operations and decided to prepare an example to illustrate the use of time-phased requirements planning. Phil’s first step was to prepare a master schedule for one of the engine types produced by Brunswick: the Model 1000 engine. This schedule indicates the number of units of the Model 1000 engine to be assembled each week during the last 12 weeks and is shown below. Next, Phil decided to simplify his requirements planning example by considering only two of the many components that are needed to complete the assembly of the Model 1000 engine. These two components, the gear box and the input shaft, are shown in the product structure diagram below. Phil noted that the gear box is assembled by the Subassembly Department and subsequently is sent to the main engine assembly line. The input shaft is one of several component parts manufactured by Brunswick that are needed to produce a gear box sub assembly. Thus, levels 0, 1, and 2 are included in the product structure diagram to indicate the three manufacturing stages that are involved in producing an engine: the Engine Assembly Department, the Subassembly Department, and the Machine Shop. The manufacturing lead times required to produce the gear box and input shaft components are also indicated in the product structure diagram.

Note that two weeks are required to pro-duce a batch of gear boxes and that all the gear boxes must be delivered to the assembly line parts stockroom before Monday morning of the week in which they are to be used. Likewise, it takes three weeks to produce a lot of input shafts, and all the shafts that are needed for the production of gear boxes in a given week must be delivered to the Sub assembly Department stockroom before Monday morning of that week.

In preparing the MRP example Phil planned to use the worksheets shown on the next page and to make the following assumptions:1. Seventeen gear boxes are on hand at the beginning of Week 1, and five gear boxes are currently on order to be delivered at the start of Week 2.2. Forty input shafts are on hand at the start of Week 1, and 22 are scheduled for delivery at the beginning of Week 2.

 

Questions:

1.) Initially, assume that Phil wants to minimize his inventory requirements. Assume that each order will be only for what is required for a single period. Using the following forms, calculate the net requirements and planned order releases for the gear boxes and input shafts. Assume that lot sizing is done using lot-for-lot (L4L).

2.) Phil would like to consider the costs that his accountants are currently using for inventory carrying and setup for the gear boxes and input shafts. These costs are as follows:

Part                        Cost

Gear Box      Setup 5 $90/order

Inventory carrying cost 5 $2/unit/week

Input Shaft Setup 5 $45/order

Inventory carrying cost 5 $1/unit/week

 

 

Model 1000 master schedule

Week 1 2 3 4 5 6 7 8 9 10 11 12

Demand 15 5 7 10 15 20 10 8 2 16

 

Model 1000 product structure

        Engine assembly

Gear box

Crankcase Lead time = 2 weeks

       Used: 1 per engine

Input shaft

       Lead time = 3 weeks

       Used: 2 per gear box

Given the cost structure, evaluate the cost of the schedule from question 1. Assume inventory is valued at the end of each week.

 

 

3.) Find a better schedule by reducing the number of orders and carrying some inventory. What are the savings with this new schedule?

                  Engine assembly master schedule

Week 1 2 3 4 5 6 7 8 9 10 11 12

Quantity

                  Gear box requirements

Week 1 2 3 4 5 6 7 8 9 10 11 12

Gross requirements

Scheduled receipts

Projected available balance

Net requirements

Planned order release

 

Input shaft requirements

Week 1 2 3 4 5 6 7 8 9 10 11 12

Gross requirements

Scheduled receipts

Projected available balance

Net requirements

Planned order release

A+ Tutorials MGT-655 Topic 3 Inventory Management - Analytics Exercise: An MRP Explosion - Brunswick Motors Operations Management - Inventory Management Grand Canyon University (MGT-655-0101) Complete the "Analytics Exercise: An MRP Explosi
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