A study of professional advantages to manufacturing organizations by the way of utilization hot extrusion technique for production of brass Electrical contacts
This paper presents the study and analysis of long term advantages gained by electromechanical product
manufacturing Industries when the A class components like brass electrical contacts are manufactured by
newly devised advance manufacturing technique of hot brass extrusion .After completion of the research and
practical application this new advance manufacturing technique this has replaced previous traditional
manufacturing technique of green sand molding and casting used for commercial production of brass
contacts. The prime impact of research covers a newly devised innovative product life cycle which increases
product life.
The injection molding process itself is a complex mix of time, temperature and pressure
variables with a multitude of manufacturing defects that can occur without the right combination of
processing parameters and design components. Determining optimal initial process parameter
settings critically influences productivity, quality, and costs of production in the plastic injection
molding (PIM) industry. Up to now, most production engineers have used trial-and-error method to
determine initial settings for a number of parameters, including melt temperature, injection pressure,
injection velocity, injection time, packing pressure, packing time, cooling temperature, and cooling
time which depend on the engineers’ experience and intuition to determine initial process parameter
settings. However, the trial-and-error process is costly and time consuming.
The injection molding process itself is a complex mix of time, temperature and pressure
variables with a multitude of manufacturing defects that can occur without the right combination of
processing parameters and design components. Determining optimal initial process parameter
settings critically influences productivity, quality, and costs of production in the plastic injection
molding (PIM) industry. Up to now, most production engineers have used trial-and-error method to
determine initial settings for a number of parameters, including melt temperature, injection pressure,
injection velocity, injection time, packing pressure, packing time, cooling temperature, and cooling
time which depend on the engineers’ experience and intuition to determine initial process parameter
settings. However, the trial-and-error process is costly and time consuming.
A practical approach to eliminate defects in gravity die cast al alloy castin...eSAT Journals
Abstract
This paper deals with elimination of defects in aluminium alloy castings produced by gravity die casting process. The main intention of work is to investigate the defects and improve quality of a gravity die cast component using Computer Aided Casting Simulation Software. In this study an industrial gravity casting die is used which was producing defective components. The die and components produced by the die are studied to eliminate the defects using virtual simulations. The defects in the components are identified to be solidification shrinkage, cracks, unfilled riser and incomplete mould cavity. The reasons for the defects are analyzed as either improper selection of process parameters, or improper design of gating and risering system. SOLIDCast simulation software is used for simulating the solidification process of casting and visualizing outputs showing possible problematic areas or defects which may occur in the cast product. The work is carried out in two stages. In first stage, few test castings are produced by modifying the process parameters (pouring temperature, pouring time, pre heat and alloy type) and results are compared with simulation results produced using same parameters. The pouring and simulation results are observed to be in good accordance with each other. In second stage, number of virtual iterations of casting is performed by changing riser dimensions. It was found from the simulation results that riser with 35mm diameter is required to produce casting with zero defects. The die is modified accordingly with the simulation results and metal is poured. The castings produced are observed to be sound and contain no defects; and also it is verified that solidification simulation helps in locating the defects, eliminating them and ultimately improving the quality of castings without any shop-floor trails.
Keywords: Aluminum-Alloys, Casting Defects, Gravity Die Casting, Material Density and SOLIDCast Simulation
Design and Analysis of Ceiling Cable Holder Baseijtsrd
Injection moulds are classified into two types based on runner design i.e. Cold runner moulds and Runner less moulds i.e. hot runner moulds. In cold runner moulds, for multi cavity and multi point injection moulds, there is wreckage of material in runner area. Also wastage of material is more than component weight. To overcome the above problem, the technique used is hot Runner moulds. Hot runner mould is one of the improved manufacturing techniques for multi cavity type moulds. These types of moulds are commonly used for large production rate. While producing plastic components using normal standard multi cavity mould, we are facing the problems like partial filling, cavities in components, less product quality, injection pressure and temperature reduction and war page etc. Thus we are redesigning the holder base by doing some modification in and this will be beneficial for our using purpose. We are making design of the component, mould flow analysis using software Solid works. Nitish Kumar Mishra | Prof. Vaibhav Bankar ""Design and Analysis of Ceiling Cable Holder Base"" Published in International Journal of Trend in Scientific Research and Development (ijtsrd), ISSN: 2456-6470, Volume-3 | Issue-4 , June 2019, URL: https://www.ijtsrd.com/papers/ijtsrd23840.pdf
Paper URL: https://www.ijtsrd.com/engineering/mechanical-engineering/23840/design-and-analysis-of-ceiling-cable-holder-base/nitish-kumar-mishra
optimization of process parameters for cnc turning using taguchi methods for ...INFOGAIN PUBLICATION
Coated and uncoated tool inserts offers certain degrees of control on the desired rate of tool wear and surface roughness to an extent. This work pursues the quest for realizing the optimal values for the significant process parameters that bears an influence on the response parameters. Experiments were conducted on the samples of EN 24 alloy steel material with the help of PVD coated TiAlN insert and uncoated carbide insert. The experimental runs carried out with proper variation in the levels. Levels are selected with the help of manufacturing catalogue and by pilot experimentation and results are recorded for further analysis. For this study, 9 runs designed using L9 orthogonal array of Taguchi Design of Experiment. Surface roughness was measured using a Mitutoyo surface tester at test lab and material removal rate is calculated by mathematical equation. The data was compiled into Minitab 17 software for analysis. The relationship between the machining parameters and the response variables were analyzed using the Taguchi Method. Optimization of process parameters is carried out by Grey Relational Analysis method (GRA). GRA method is a powerful and most versatile tool which can manipulate the input data as per requirement and comes with results that can be used to have best multi-objective in respective concerns
A practical approach to eliminate defects in gravity die cast al alloy castin...eSAT Journals
Abstract
This paper deals with elimination of defects in aluminium alloy castings produced by gravity die casting process. The main intention of work is to investigate the defects and improve quality of a gravity die cast component using Computer Aided Casting Simulation Software. In this study an industrial gravity casting die is used which was producing defective components. The die and components produced by the die are studied to eliminate the defects using virtual simulations. The defects in the components are identified to be solidification shrinkage, cracks, unfilled riser and incomplete mould cavity. The reasons for the defects are analyzed as either improper selection of process parameters, or improper design of gating and risering system. SOLIDCast simulation software is used for simulating the solidification process of casting and visualizing outputs showing possible problematic areas or defects which may occur in the cast product. The work is carried out in two stages. In first stage, few test castings are produced by modifying the process parameters (pouring temperature, pouring time, pre heat and alloy type) and results are compared with simulation results produced using same parameters. The pouring and simulation results are observed to be in good accordance with each other. In second stage, number of virtual iterations of casting is performed by changing riser dimensions. It was found from the simulation results that riser with 35mm diameter is required to produce casting with zero defects. The die is modified accordingly with the simulation results and metal is poured. The castings produced are observed to be sound and contain no defects; and also it is verified that solidification simulation helps in locating the defects, eliminating them and ultimately improving the quality of castings without any shop-floor trails.
Keywords: Aluminum-Alloys, Casting Defects, Gravity Die Casting, Material Density and SOLIDCast Simulation
Design and Analysis of Ceiling Cable Holder Baseijtsrd
Injection moulds are classified into two types based on runner design i.e. Cold runner moulds and Runner less moulds i.e. hot runner moulds. In cold runner moulds, for multi cavity and multi point injection moulds, there is wreckage of material in runner area. Also wastage of material is more than component weight. To overcome the above problem, the technique used is hot Runner moulds. Hot runner mould is one of the improved manufacturing techniques for multi cavity type moulds. These types of moulds are commonly used for large production rate. While producing plastic components using normal standard multi cavity mould, we are facing the problems like partial filling, cavities in components, less product quality, injection pressure and temperature reduction and war page etc. Thus we are redesigning the holder base by doing some modification in and this will be beneficial for our using purpose. We are making design of the component, mould flow analysis using software Solid works. Nitish Kumar Mishra | Prof. Vaibhav Bankar ""Design and Analysis of Ceiling Cable Holder Base"" Published in International Journal of Trend in Scientific Research and Development (ijtsrd), ISSN: 2456-6470, Volume-3 | Issue-4 , June 2019, URL: https://www.ijtsrd.com/papers/ijtsrd23840.pdf
Paper URL: https://www.ijtsrd.com/engineering/mechanical-engineering/23840/design-and-analysis-of-ceiling-cable-holder-base/nitish-kumar-mishra
optimization of process parameters for cnc turning using taguchi methods for ...INFOGAIN PUBLICATION
Coated and uncoated tool inserts offers certain degrees of control on the desired rate of tool wear and surface roughness to an extent. This work pursues the quest for realizing the optimal values for the significant process parameters that bears an influence on the response parameters. Experiments were conducted on the samples of EN 24 alloy steel material with the help of PVD coated TiAlN insert and uncoated carbide insert. The experimental runs carried out with proper variation in the levels. Levels are selected with the help of manufacturing catalogue and by pilot experimentation and results are recorded for further analysis. For this study, 9 runs designed using L9 orthogonal array of Taguchi Design of Experiment. Surface roughness was measured using a Mitutoyo surface tester at test lab and material removal rate is calculated by mathematical equation. The data was compiled into Minitab 17 software for analysis. The relationship between the machining parameters and the response variables were analyzed using the Taguchi Method. Optimization of process parameters is carried out by Grey Relational Analysis method (GRA). GRA method is a powerful and most versatile tool which can manipulate the input data as per requirement and comes with results that can be used to have best multi-objective in respective concerns
Considering all aspects, clinical and administrative, of the surgical process at OSNC/Rex, identify and explore areas for improvement; Design a quality improvement initiative addressing a specific developmental opportunity. This should be a complete design/presentation with area of need, options, SWOT analysis, recommendations and action steps.
Ovo je prezentacija o glagolima 1. grupe . Nadam se da ovom prezentacijom o gramatici francuskog jezika mogu da pomognem mladim i pak neiskusnim petacima. Želim im dosta lepih ocena, tj. petica! Srećno vam bilo petaci !
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A study of professional advantages to manufacturing organizations by the way of utilization hot extrusion technique for production of brass Electrical contacts
1. V Malhar Dandge et al. Int. Journal of Engineering Research and Applications www.ijera.com
ISSN: 2248-9622, Vol. 5, Issue 10, (Part - 3) October 2015, pp.126-135
www.ijera.com 126 | P a g e
A study of professional advantages to manufacturing
organizations by the way of utilization hot extrusion technique
for production of brass Electrical contacts.
1
Vidyadhar Malhar Dandge, 2
Heramb Vidyadhar Dandge, 3
Siddhesh Subhash
Parab 4
Kedar Sharadchandra Pathak.
1
Qualifications B.E. (Mechanical) M.E. (Mech –Production)-Assistant Professor KITSCollege Of Engineering
Kolhapur, Maharashtra India.His total experience counts 31 yrs. He is specialized in project execution and
special process establishment, design and economic development of the products.
2
Qualification –D.A.E.,(M.S.B.T.E.),B.E.(Mech.) from Shivaji University Kolhapur, Presently he is doing
M.S.(Mech.) From Northumbriya University New Castle U.K. (student).He has got three years industrial
experience after graduation in a Limited Engineering company in India. His major areas of experience are
Machine shopFoundry and vendor development.
3,4
Student of final year of B.E. (Mech.) of KITS College of Engineering Kolhapur, Shivaji University.
Abstract
This paper presents the study and analysis of long term advantages gained by electromechanical product
manufacturing Industries when the A class components like brass electrical contacts are manufactured by
newly devised advance manufacturing technique of hot brass extrusion .After completion of the research and
practical application this new advance manufacturing technique this has replaced previous traditional
manufacturing technique of green sand molding and casting used for commercial production of brass
contacts. The prime impact of research covers a newly devised innovative product life cycle which increases
product life.
Key words-Electrical contact, Hot Extrusion, Traditional manufacturing techniques,class, Product life cycle.
I. Introduction
Manufacturing techniques play crucial role in
consistent quality and productivity of product
assembly and it all sub components. The key
elements which define productivity are set up time,
manufacturing cycle time are reduced due to use of
suitableadvance manufacturing techniques. This
paper mainly focuses on long term advantages
derived by new product design and development
industries.
If we deeply study various advantages we see
that the product for which these manufacturing
techniques are used undergo newly devised product
life cycle and extends active product life in the
market.In the context to advanced manufacturing
techniques helps in higher productivity and consistent
quantity of subparts but also simultaneously keeps
betterprocess control of advance manufacturing
technique. The process control eliminates wastes like
post production inspection, reduction in machining
operations and many other.
Process control gives inherent advantages such
as, less wear and tear of the machine toolsimmediate
correction of the process during part manufacturing
as per need.This research is substitute’straditional
techniques by advance manufacturing technique for
the parts quantity are higher in volumes.In this study
the brass material contacts required for socket
assembly are 7, 50,000 no. per month.
The FIG 1 shows some typical examples of
electrical contacts made by brass green sand molding
and casting technology and further machining if
required.
The FIG 2 fully finish brass electrical contacts
electrical contacts manufactured by new hot
extrusion process. (Photographs taken from three
different directions).
RESEARCH ARTICLE OPEN ACCESS
2. V Malhar Dandge et al. Int. Journal of Engineering Research and Applications www.ijera.com
ISSN: 2248-9622, Vol. 5, Issue 10, (Part - 3) October 2015, pp.126-135
www.ijera.com 127 | P a g e
FIG 1 FIG 2
It is general engineering practice to refer BOM
chart for deciding further work plan.
BOM of Socket assembly is as tabulated in
Table below.
TABLE 1
Number Part Description Qty. /Set
1 Housing -1 1
2 Housing-2 1
3 Clamping Bolt. 1
4 Clamping Nut. 1
5 Brass Contact. 3
The research had been undertaken due to the fact
that the socket assembly price is too made more
competitive in export market as per customers
demand. The subject paper discusses the long-term
advantages derived by the organizations after
completion of the research. We have carried out
subject R and D work by application of hot extrusion
technique so as to produce long sections of contacts
by extrusion and further slitting to suitable lengths
we get almost finish near and neat shape of the
contact.
Quality Management Techniques used-
TQM fundamentals are significantly used in this
research work. The homogeneous team forming and
effective working of team till completion of the
selected R and D project was helpful to concerned
manufacturing industries. Not only this but also we
have extended this concept and utilized by forming
and using cross functional teams to get effective and
time bound solutions to the productivity and quality
problems of brass electrical contacts.
In this specific case study we have selected PP-
043 EB/LB contacts used for power entry products
which have very serious productivity and quality
problems due to the reason that the contacts are
manufacture by existing traditional green sand
molding and casting techniques followed by further
machining operations . Present cumulative rejection
of contacts at various manufacturing stages works out
in a tune of 50%. This study is carried out for a span
of 18 Months after satisfactory completion and
implementation of the said research work where data
collection is performed on monthly basis.
In this paperproductivityand quality
improvement through innovative process usage this
has given us opportunity to use JIT revolutionary
concept of inventory aspect.
Drg.No-1for finish duly machined contact.
3. V Malhar Dandge et al. Int. Journal of Engineering Research and Applications www.ijera.com
ISSN: 2248-9622, Vol. 5, Issue 10, (Part - 3) October 2015, pp.126-135
www.ijera.com 128 | P a g e
This contact component was selected from productivity, quality and cost improvement.
II. Research Methodology
The research methodology used here is very
practical. This includes comparative evaluation of
various probable le manufacturing techniques and
selecting the best one which is most suitable. The
research work is based on the limitations and
advantages study and upon conclusion Hot extrusion
technique is to be used for the purpose of
manufacturing of long contact long cross sectional
strips so as to reduce number ofmachining operations
required for finishing of the contacts. This
experimentation is the actual research methodology
for the said research.The trials are conducted till
satisfactory metal extrusion results are achieved.After
long cross sectional strips are produced by hot
extrusion these are further requiredto be drawn into
finish sizes of cross sections since extrusionprocess
does not give finish sizes in the required accuracies.
After these long sections are slit to the required
thickness by slitting operation once the slitting
operation is done we have to perform only side slot
milling, drilling and tapping operations to get the
desired finish part of the contact.
The following is the comparative table depicting
the no of operations for traditional technique of
manufacturing and
A new devised advance manufacturing
technique. Both columns denotes the operational flow
chart for getting finish component as ultimate
objective.
4. V Malhar Dandge et al. Int. Journal of Engineering Research and Applications www.ijera.com
ISSN: 2248-9622, Vol. 5, Issue 10, (Part - 3) October 2015, pp.126-135
www.ijera.com 129 | P a g e
TABLE 2
From above table it is seen that there is reduction
of eight no of operations due to use of advance
manufacturing technique.
The table below presents the comparison of the
machining operations before and after completion of
the R and D work. Such type of lower level reduction
in rejection of the contacts is possible only due to
reduced number of machining operations usage of
SPMs for machining and simplification in machining
operation.
III. Experimental Set up description -
The experimental set up used for the R and D
work comprises of equipment specified below.
Induction furnace,water cooled molds ,billet
cutting saws, billet heating furnace, hydraulic
extrusion press, extrusion die with special innovative
feature,steel channel track for flow of extruded
sections ,straightening and drawing benches for
extruded sections, slitting saw bench, pillar drilling
and slot milling SPM.All equipment are listed in
sequence as per operational sequence.
The advantages derived due this research work are
effectively understood through study of various
production related commercial parameters which are
discussed one after the other in sequence on the basis
of comparative data for before and after the
completion and implementation of the research work.
For this purpose we have selected a period of 18
months period after satisfactory completion and
implementation of research work. Each technical
innovation has to lead to the economic advantages for
social growth.The benefits derived are so fruitful they
are contributing to the social development in addition
to organization benefits.
For clear understanding of these benefits we have
selected following business parameters which are
specified and compared one after the other as
discussedbelow.
1 Quantified analysis of production quantity
planned vs. achieved for contacts before and after
completion of development and used for
manufacturing.
Before the said research the when traditional
technique was used the production of planned contact
casting was no way achieved and as far as planned
quantity of the contacts is concerned. The higher
rejection in a tune of almost 50% was consistently
occurring at casting manufacturing stage. The
following table presents the quantity planned and
achieved for eighteen months period after alternate
SR.
NO.
Traditional manufacturing
technique.(Process)
Advance manufacturing
technique of Hot extrusion.
Advantage due to new technique.
1. Charge melting. Charge Melting. Not required.
2.
Box molding with multi
pattern.
Billet mold is readily
available this is permanent
water cooled mold.
No per piece molding required one
billet gives very long strip of section
of the contact.
3.
Pouring so as to fill all molds.
This operations needed to be
done depending upon number
of boxes. Hence low
productive.
Pouring in permanent molds
to get required billet size.
No independent pouring in molding
boxes. Only pouring of the metal in
water cooled molds.
4.
Knock out. This operation is
repeated for each tree of
castings.
Not needed in this technique. One billet gives long strip of sizable
length of strip.
5.
Shot blasting. This operation is
required to be performed for
each casted part.
Not needed in this technique. This operation is eliminated.
6.
Fettling is required to be
performed for each casted part.
Not needed in this operation. This operation is eliminated.
7.
Five Face Machining
operations. This is group of
five operations.
Not required. Sectional finish sizes are achieved
in extrusion and drawing. So this
operation is eliminated now.
8. Drilling operations –one
number.
Remains as it is. New technique limitation.
9 Drilling &Tapping operations
two nos.
Remains as it is. New technique is concerned with
metal forming.
10. De burring. Not required. This operation is now eliminated.
11. Total no of operations-14 Total No of operations-6
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technique of hot brass extrusion followed by cold
drawing was established and proven for the
production.
The scenario of production after necessary R and
D completion is as tabulated as under. Production
ratings of the electrical contacts for the period of last
18 months after completion of the R and D.
GRAPH 1
After a period of about eighteen months new
manufacturing technique when the process capability
was calculated it was found to be capable enough to
reach the required quality standard.
2Quality improvement status in terms of % of
rejection.
Reduction in rejection during production
always leads to the economic production this leads to
the higher profitability and improves the profitability
of the product .In long run it makes the product more
competitive in the market. The table below depicts
the rejection trends and hence contributes in
reduction of losses and hence waste eliminations on
long term basis.
Graph no-3 represents month wise rejection
details. It is clearly understood that even at initial
period of R and D the rejection is less and it is seen
going down consistently and reaching to 0.05 at the
end of 18 months span.
To add further the process control is monitored
through the SPC software and for consistently 18
months CpK value lies between 1.70to 2.00. This
proves the process is well within control and giving
consistent quality output.
GRAPH 2
3 Machining operation rejection Control-
If more are the machining operations more
process monitoring is required and more can be the
rejection especially for non-automated machines
tools. This process includes usage of hot extrusion
and drawing operations to produce finish cross
sectional length strips.Also this has reduced the
investment in design, development and
manufacturing of special purpose machines.
After the hot extrusion and drawing operations
were developed we see that the overall process
rejection comes well within control since initial phase
0
100000
200000
300000
400000
500000
600000
700000
800000
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18
QUALITY IMPROVEMENT STATUS
Month Number. Quantity produced Quantity found defect free.
0
200000
400000
600000
800000
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18
quantity planned Vs achieved
Quantity planned. Quantity produced.
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of development and comes to 0.02 % at the end of the
development period.
The above tabulated data is giving us a clear-cut
indication of reduction in rejection % as the process
is getting improved by practical application of
repeated running of brass extrusion. Set up.
GRAPH-3
QUATITY PLANED PER MONTH IN ABOVE GRAPH IS 750000
4 Assembly MTBF –Here the word MTBF is used
for explaining the situation when assembly function
used to be failed when there was significant shortfall
in the supply of the contacts. This was the scenario
when the research work need was identified initially.
When we took this project for R and D work the
situation was so beyond control that due to non-
availability of the contact assembly function use to
remain idle many times in a month. We monitored
this failure for the said period of 18 months and could
see that there is consistent reduction in the MTBF of
the product assembly function. This is tabulated in
the table below.
GRAPH-4
MTBF reduction means assembly remaining idle for the want of contacts.
5 Internal material handling distance before and
after R and D-
Process layout of the new devised technique has
become compact and things are remaining better
under control and it is now easier to monitor the
manufacturing status of contacts due to sizable
reduction in the material handling distances.
The comparative evaluation of the material
handling distances is as shown in the table -2
TABLE-3
Total Handling Distance for
production of each piece of
contact as per previous
technique.
Total Handling Distance for
production of single piece of
contact as penew devised
technique.
6.40 Kms. 1.1 Kms.
0
2
4
6
8
10
12
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18
MTBF events
0
500
1000
1500
2000
2500
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18
REJECTED QUANTITY MONTHWISE
Month Number Quantity rejected.
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ROI -There is drastic change in the ROI due to
following policy decisions-
1 It is decided to outsource the extrusion and drawing
operations due this the subject R and D work is
carried out without any additional set up investment
with increased business for outsourcing vendor.
7. Product life before and after R and D-
When the contacts were manufactured by
traditional technique the product assembly use to
remain idle and customers demand cannot be
satisfied.
The product was ought to get closed due to
customers refusal to accept on the basis non
competency of price of the product. Now the
projected life of product is minimum 5 years.
Normally due to high competition in the global
market and ever increasing customers’expectations
there can be many minor changes in
electromechanical product design .The average life of
such consumable product is maximum in a tune of 5-
6 calendar years.
8 Export Business Growth opportunities
improvements-
Further to note that looking at the irregular
supplies of the product assembly further new
products from APC were stopped... When the
consistent supplies were made it is seen that the
customers confidence isregained they have now
slowly started sending new inquiries without any
reminder. The table below shows how there is is in
the customer’s new potential inquiries.
GRAPH- 5
9 Employee encouragement evidences after
completion of R and D -
The total team of two engineers,one manager and
4 assistants had worked dedicatedly said R and D
cross functional team withfirst author V. M. Dandge
as team leader and technical co-ordinator.
They have successfully launched this advance
manufacturing technique the organization is benefited
and they are rewarded through the salary revision and
hence their currier is enhanced.
TABLE 4
No. Name /position
of employee.
Previous
designation.
Changed
designation
Previous salary. Revised salary.
1 Manager Manager Sr. Manager INR 15000/Month. INR 20000/Month.
2 Engineer Engineer Sr. Engineer. INR 4500/Month INR 5000/Month.
3 Assistants Technical
Assistant.
Technical
Supervisor.
INR 3000/Month. INR 3800/Month.
This was possible only because of the productivity and quality improvements in electrical contacts by using
advance manufacturing technique.
0
2
4
6
8
10
12
14
1 2 3 5 6 7 8 9 10 11 12 13 14 15 16 17 18
inquiries received monthwise.
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10 Inventory level improvements are as per the table 3 below-
TABLE 5
Inventory status before R and
D
Inventory status after completion
of R and D work.
Inventory status after eighteen
month review after completion of
R and D work.
Inventories were not built at
any stage of production.
Slow and steady increase in the
inventory (WIP) levels of brass
contacts.
Sufficient and consistent rise in
inventory levels and JIT Control
established for last ten months.
Initial lead time of contacts against confirmed
customers purchase order has remain undefined
strategy since building up three months inventory of
contacts 750000 no’s was just an impossible task as
far as traditional method is concerned. Since new
production technique has brought down the lead
time to 17 days. Once inventory of 750000 contacts
is built and scheduling this much of quantity per
week in continuation we could achieve JIT system
for inventory of the contacts .This has up course
implemented JIT system for Manufacturing of finish
products. After three months rigorous
implementation of the system.
One extra set of Extrusion and drawing dies was kept
ready to avoid contingent failures on account of
maintenance. For rest of the equipment the designs
selected are so safe that there is no chance of failure.
11Vendor plant capacity utilization of vendor
indicates the picture of business growth of vendor
The graph below shows the steady growth in
plant capacity utilization at the vendors end. This is
to be noted that hot brass extrusion is high productive
operation and 50% capacity utilization is sufficient to
satisfy contact requirement equivalent to the active
WIP.
GRAPH- 6
Effective manufacturing cost per piece of the contact
–
As per previous manufacturing technique-
INR 6.07/Pc.
As per new Rand D technique –INR 4.33/Pc.
Rs 2.04 /Pc of contact is net saving.
Monthly requirement of contacts is 750000 Nos.
The cost saved per month is INR 1500000.
Annual savings work of 1.8 Core INR.
Literature review is part of post research. This is
done with reference to the product life cycle
industrial engineering fundamentals, ROI principles,
Moral and motivation, TQM and team working. The
extract of such literature survey is as specified in
brief as below in the references.
For extrusion we have referred various journal
papers, books, die designing guidelines and many
other tool designing books for the innovative study of
the hot extrusion dies. Jamnagar in Gujarathas
about80 extrusion units and about 50 Tool Room
units which are well established in all respect. They
have always extended their practical experience in
brass extrusion technology so as to have high
productive extrusion die equipment is designed and
developed.
Due to reduction of contact manufacturing cost
we see that there is proportionate rise in the
profitability of the finish products looking at this
aspect the decision has been made by the customer to
pass on the cost saved to their export customer.This
has made the product price more competitive in the
export market.
IV. Conclusions
The consistent focus and review of the advances
taking place in various manufacturing techniques is
very much essential for the Manufacturing
industries who are engaged in design, development
and manufacturing of various product assemblies.
The major portion of manufacturing cost is
contributed by the manufacturing techniques. Such
cost saving and productivity improvement techniques
must be studied and used in practice by
manufacturing industries at the design stage through
cross functional teams for the business growth and
0
20
40
60
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18
Plant capacity Utilization %.
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hence ultimately for social improvement. This also
derives advantages such as waste elimination in
waste elimination, more customer satisfaction and
building an image of competitive manufacturer in
global market.
Such research also helps in implementing
concepts like JIT in both manufacturing as well as
inventory management. In long run it also gives
extended product life cycle.
Acknowledgments- We are thankful to Kulkarni
Engineering works for giving us the opportunity to
perform this research at their vendor located at
Jamnagar Gujarat India. Also we must submit our
thanks to other related industrial sectors in Jamnagar
mainly tool room based and extrusion based
industrial sectors where we performed
ourexperimentation.
We are also thankful to Shimpukade Engineering
(P) Ltd works for providing us Cp, CpK software
training to our team members due to this we could
monitor the process capability index and hence
process consistency and repeatability.
Abbreviations- MTBF- Mean time between failures.
R.O.I- Return on investment.
B.O.M - Bill of Materials.
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