Lean Manufacturing Case Study 2022
Added on 2022-09-10
6 Pages1352 Words19 Views
Lean Manufacturing
Farm Equipment International Case Study
Farm Equipment International Case Study
Introduction
lean manufacturing is a systematic approach underpinned by waster minimization within production
systems while maintaining productivity: It is an ideal approach, but often causes problems due to
the need for trade-offs. The lean manufacturing methods can be traced to Japan, specifically to
Toyota Motors and is premised on a number of principles that include Kanban (continuous
improvement). Lean has five basic principles that include identification of value from the
perspective of the customer as it is the customer that defines value, although the manufacturer
creates the value. The second principle is mapping the value stream, a process that entails recording
and evaluating materials and information flows necessary for producing a given product with the
objective of identifying wastes and approaches for making improvements. The third principle is
creating flow to eliminate functional barriers while the fourth principle is establishing a pull system.
The last principle is to pursue perfection through continuous improvements. This paper evaluates
the present manufacturing system at Farm Equipment International (FEI) in its hydraulic sections
manufacture process. A value stream map for current production is produced, lean principles used,
and a future state map is produced to reach lean manufacturing capacities.
Analysis
The initial VSM (value stream map) has been preapred as shown below and a few area identified
where improvements can be made;
lean manufacturing is a systematic approach underpinned by waster minimization within production
systems while maintaining productivity: It is an ideal approach, but often causes problems due to
the need for trade-offs. The lean manufacturing methods can be traced to Japan, specifically to
Toyota Motors and is premised on a number of principles that include Kanban (continuous
improvement). Lean has five basic principles that include identification of value from the
perspective of the customer as it is the customer that defines value, although the manufacturer
creates the value. The second principle is mapping the value stream, a process that entails recording
and evaluating materials and information flows necessary for producing a given product with the
objective of identifying wastes and approaches for making improvements. The third principle is
creating flow to eliminate functional barriers while the fourth principle is establishing a pull system.
The last principle is to pursue perfection through continuous improvements. This paper evaluates
the present manufacturing system at Farm Equipment International (FEI) in its hydraulic sections
manufacture process. A value stream map for current production is produced, lean principles used,
and a future state map is produced to reach lean manufacturing capacities.
Analysis
The initial VSM (value stream map) has been preapred as shown below and a few area identified
where improvements can be made;
Ordering from suppliers
The lead time to get goods from Kentish is 16 weeks, however, they deliver every two weeks while
castings are delivered every 2 weeks, with a 12 week lead time. The process can be improved so
that the deliveries match the demand; but because of a longer lead time, FEI will stick with the
ordering schedule so it does not run out of raw materials. The uncut inventory is 20 days, meaning
there is more than enough inventory given the two week ordering window. The company should
reduce the amount of items ordered for the metal rods to minimize inventory holding costs and have
an inventory of 15 days to cover for the 2 week delivery frequency of the raw materials. Fewer
materials should be ordered regularly to reduce inventory and inventory management costs. The
ordering should be based on forecast demand, which is 24000 pieces a month; this works to an
average of 800 a day, so about 1000 should be produced daily.
Cutting
This is a manual process that has a 15 second cycle time and a 15 minute changeover for length
cutting and sixty minutes for diameter cuts while changing between the three types of cast
connectors is two hours. The number of pieces cut should be reduced to match the estimated daily
demand that can be projected using historical data and ordering frequencies (Ramanathan, 2012).
This will ensure that work moves faster and minimize or eliminate the need for two work shifts,
which based on demand, is another waste. This process has 5 inventory days, which means there is
a lot of wastage in terms of inventory management and idle materials that have been cut. There
needs to be two operators rather than one in this stage of the process.
Welding Station 1
have two processes with similar cycle times, an operator takes ten seconds while the machine takes
30 seconds. The inventory days are 3 for both and this also represents a bottleneck because it results
in unnecessary inventory days at the cutting stage (Kalchschmidt, 2012). The number of welded
materials should be reduced to match the fore-casted demand and minimize too much inventory that
only serves to make the system inefficient.
Welding Station 2
The workstation should have reduced workload based on the demand forecast and in this case, it is
recommended 1000 pieces be welded daily so as to match demand forecast and cater to period of
low or higher demand on a daily basis (Roser and Nakano, 2015).
Deflashing
The deflashing section has a bottleneck created by having a single operator taking ten seconds while
the machine takes 30 seconds. Based on the previous section, this section can continue operating as
The lead time to get goods from Kentish is 16 weeks, however, they deliver every two weeks while
castings are delivered every 2 weeks, with a 12 week lead time. The process can be improved so
that the deliveries match the demand; but because of a longer lead time, FEI will stick with the
ordering schedule so it does not run out of raw materials. The uncut inventory is 20 days, meaning
there is more than enough inventory given the two week ordering window. The company should
reduce the amount of items ordered for the metal rods to minimize inventory holding costs and have
an inventory of 15 days to cover for the 2 week delivery frequency of the raw materials. Fewer
materials should be ordered regularly to reduce inventory and inventory management costs. The
ordering should be based on forecast demand, which is 24000 pieces a month; this works to an
average of 800 a day, so about 1000 should be produced daily.
Cutting
This is a manual process that has a 15 second cycle time and a 15 minute changeover for length
cutting and sixty minutes for diameter cuts while changing between the three types of cast
connectors is two hours. The number of pieces cut should be reduced to match the estimated daily
demand that can be projected using historical data and ordering frequencies (Ramanathan, 2012).
This will ensure that work moves faster and minimize or eliminate the need for two work shifts,
which based on demand, is another waste. This process has 5 inventory days, which means there is
a lot of wastage in terms of inventory management and idle materials that have been cut. There
needs to be two operators rather than one in this stage of the process.
Welding Station 1
have two processes with similar cycle times, an operator takes ten seconds while the machine takes
30 seconds. The inventory days are 3 for both and this also represents a bottleneck because it results
in unnecessary inventory days at the cutting stage (Kalchschmidt, 2012). The number of welded
materials should be reduced to match the fore-casted demand and minimize too much inventory that
only serves to make the system inefficient.
Welding Station 2
The workstation should have reduced workload based on the demand forecast and in this case, it is
recommended 1000 pieces be welded daily so as to match demand forecast and cater to period of
low or higher demand on a daily basis (Roser and Nakano, 2015).
Deflashing
The deflashing section has a bottleneck created by having a single operator taking ten seconds while
the machine takes 30 seconds. Based on the previous section, this section can continue operating as
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