- Line Balancing – Network (Precedence) Diagram
Example: Armstrong Pumps Example: Armstrong Pumps - Line Balancing – Minimum Number of Workstations
- Minimum
- Number of
- Workstations
- = [(42.8)(10)]/45 = 9.51 workstations
Example: Armstrong Pumps - Line Balancing – Incremental Utilization Heuristic
- WS Tasks Mins./pump #WS’s Incr.Util.
- 1 A 5.4 5.4/4.5=1.2= 2 60.0%
- 1 A,B 5.4 + 3.2 8.6/4.5=1.9= 2 95.0%
- 1 A,B,C 8.6 + 1.5 10.1/4.5=2.2= 3 49.8%
- 2 C 1.5 1.5/4.5=.33= 1 33.3%
- 2 C,D 1.5 + 2.8 4.3/4.5=.96= 1 95.6%
- 2 C,D,E 4.3 + 17.1 21.4/4.5=4.8= 5 95.1%
- 3 E 17.1 17.1/4.5=3.8= 4 95.0%
- 3 E,F 17.1 + 12.8 29.9/4.5=6.6= 7 94.9%
- 4 F 12.8 12.8/4.5=2.8= 3 94.8%
Example: Armstrong Pumps - Line Balancing – Utilization of Production Line
- = 9.51/10 = .951 = 95.1%
- Rebalancing a Production Line
- Changes that can lead to production lines being out of balance or having insufficient/excess capacity are:
- Changes in demand
- Machine modifications
- Variations in employee learning and training
- Cell Formation Decision
- Which machines are assigned to manufacturing cells
- Which parts will be produced in each cell
Planning Cellular Manufacturing Layouts - Fundamental Requirements for Parts to be Made in Cells
- Demand for the parts must be high enough and stable enough that moderate batch sizes of the parts can be produced periodically.
- Parts must be capable of being grouped into parts families.
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