Friday 3 June 2011

Time table


Group
Subject
Day
Time
Number of hours
Total hours
1
Financial Accounting
Mon, Tue
9:00 AM – 12:00 PM
2 hours
4 hours
1
Applied Direct Taxes
Wed & Thu
9:00 AM – 12:00 PM
2 hours
4 hours
2
Cost & Management Accounting
Fri & Sat
9:00 AM – 12:00 PM
2 hours
4 hours
2
Applied Indirect Taxes
Sunday
2:00 PM – 4:00 PM
2hours
2 hours
Total hours per week

14 hours

Thursday 2 June 2011

Self test OM & IS June 2nd

So NoChapterQuestionSourceTime TakenRemarks
1 1A shaft 1,000 mm. in length is being machined on a lathe. If the spindle executes 500 r.p.m. and the feed is
0.20 mm. per revolution, how long will it take the cutter to pass down the entire length of the shaft?
At the end of Study Material - -
2 1Find the machining cost of a M. S. bar on a lathe from the following data: R. P. M. of the Job = 500. Feed of
tool per revolution of job = 0.5 mm. Depth of cut = 2 mm. Diameter of raw material = 60 mm. Diameter of
finished job = 40 mm. Length of Job = 1000 mm. Machining cost = Rs. 3 per hour.
At the end of Study Material - -
3 1A shaft 500 mm. in diameter and 1 metre long is to be turned at a speed of 280 r.p.m. If the feed is 0.25 mm.
per revolution, calculate the time taken for one pass of the cutter.
At the end of Study Material - -
4 1A company is planning to undertake the production of medical testing equipments has to decide on the
location of the plant. Three locations are being considered, namely, A, B and C. The fixed costs of three
locations are estimated to be Rs. 300 Lakhs, 500 Lakhs and 250 Lakhs respectively. The variable costs are
Rs. 3000, Rs. 2000 and Rs. 3500 per unit respectively. The average sales price of the equipment is Rs. 7000
per unit. Find
(i) The range of annual production/sales volume for which each location is most suitable.
(ii) Select the best location, if the sales volume is of 18,000 units.
At the end of Study Material - -

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Wednesday 1 June 2011

OM & IS 1.0 Surface Treatment

Surface-treating processes are chemical or mechanical in nature and alter the surface characteristics of the
metal.
Eleven Types of surface treatment are briefly described below:
1) Anodizing: It is an electro-chemical process which gives a slight anticorrosion protection and improves
the appearance of the product. Unlike other types of surface treatment, this does not increase the
dimensions of the object. This gives a better finish. It is used in case of utensils, household appliances
etc.
2) Enamelling: It is a process that bakes on a white, brittle protection finish.
3) Galvanising: It is a hot-dip process which provides an anti-rust zinc coating. Zinc is used for this
purpose. This makes the surface of the metal anti-corrosive and gives a better finish.

4) Honing: It is an abrading operation for hole finishing done by a tool fitted with a bonded abrasive
stone.
5) Lapping: It is a surface smoothing operation by hand or machine.
6) Painting: It will yield protective coating and better appearance.
7) Plastic coating: This process is more durable than painting.
8) Plating: It is an electrolytic process. This can be done with the help of silver, chromium, cadmium,
nickel and copper. Plating provides anticorrosive finish.
9) Shot Blasting: Small shots usually in the form of iron balls are made to blast on the metal required for
making it resistance to wear and tear, remove the stresses and hardness.
10) Shot penning: It is air blasting the small shots against the metal surface in order to increase the hardness
of surface.
11) Tumbling: Castings are tumbled in a tumbling barrel together with an abrasive substance. The friction
created in this way will clean the surface.
Other surface treating processes may be such as:
• Buffing etc.
• Polishing,
• Power brushing,
• Sandblasting,
• Washing,
• Waxing

oM & IS 1.0 Welding Process:

Welding is a process of joining similar metals by the application of heat, with or without application of
pressure and addition of filler material.
“Welding consists of fusing metals together while they are in the plastic or molten state.” Gas and Electric
arc are used for the purpose of heat. Electrodes are used for filling in and reinforcement. There are 8
welding processes as mentioned below:
• Arc welding
• Brazing
• Flow welding
• Forge welding
• Gas welding
• Induction welding
• Resistance welding
• Thermit welding

OM & IS 1.0 Metal Working Processes:

Metal working processes involve operations on metals like cast iron, steel, brass, bronze, aluminium, etc,
with the help of machine tools like lathe, shaper, miller, grinder, planner, etc.
The following are the metal working processes:
• Finishing, plating, honing, galvanizing, anodising.
• Forming, casting, forging, hot-rolling, extruding.
• Heat treatment, hardening, tempering, annealing, normalising.
• Joining, welding, soldering, brazing, riveting.
• Machining, milling, plaining, shaping, grinding.
Metal working processes can be described as under:
Casting: A casting may be defined as a molten material that has been poured into a prepared cavity and
allowed to solidify. Casting may be classified as:
Sand Casting: It is used mainly for steel and iron and it can also be used for brass, aluminium, bronze,
copper etc. and relatively large amount of metal is to be removed.

Features of Sand Casting:
• Clay and water act as a bond.
• Compressed moist sand is used.
• Less costly.
• More machining of finished goods is required.
• More weight.
There are two methods of sand casting:
Green Sand Moulding and Dry Sand Moulding.
Green sand Moulding utilises a mould made of compressed moist sand. This method is not suitable for
large and heavy castings. In case of Dry sand Casting, the mould surfaces are given refractory coating and
are dried before the mould is closed for pouring. This method is useful for large and heavy castings.
Centrifugal Casting: The molten metal is poured into a hollow cylindrical mould, which is spinning and
the centrifugal force causes the liquid metal to flow to the outside of the mould and to remain there. Then
it is allowed to cool.
Die Casting: The dies are expensive but the advantage is that no finish machining is required in many
cases. This is limited to low melting point alloys.
Investment Casting: Machining the part made out of an alloy is very difficult and in such cases, the
investment casting is used.
Permanent Mould Casting: This is developed to avoid the above disadvantage. The advantages are smoother
finish, higher mechanical properties, good dimensional uniformity and ease of adaptability to automatic
high production. But this is having high initial cost of tooling and the size of casting is also limited by the
mould making equipment.
Plaster Mould Casting: Only one casting is made and then mould is destroyed. The advantages of plaster
are the superior surface finish, improved metal characteristics and good dimensional accuracy. But the
disadvantage is that the mould is destroyed each time.
Forming: Forming processes are those which accomplish the rough sizing or shaping of manufactured
articles. Any cutting tool which produces a desired contour on the work piece comes under forming process.
Heat Treatment: It is a process of heating and cooling metals in order to obtain certain desired properties.
Then the right combination of hardness and toughness is achieved for enabling the cutting tools to be able
to successfully machine other metals. In addition to hardness and toughness, this process will improve
heat and corrosion resistance and relieve stresses. The various types of heat treatment processes are briefly
discussed below:
1) Annealing: It refers to the heating and cooling operations which are usually applied to induce softening.
Annealing softens overly hard, overly brittle part, through heating, short of critical point, followed by
gradual cooling. Thus it relieves further the brittleness introduced by “hardening” and reduces metal
electricity slightly.
2) Case Hardening: This process involves two operations. The first is a carburizing process where carbon
is added to the outer surface by heating low carbon steel. The second operation is heat treatment of
the carburized parts so that the outer surface becomes hard.

3) Hardening Steel: Hardening is the process of heating a metal to the decalescence point, soaking it for
a considerable time to allow thorough penetration of the heat in the metal structure and then suddenly
quenching it in cold liquid.
4) Normalising: Normalising is the process, in which parts are allowed to cool in still air at room
temperature.
5) Quenching: Quenching is the process of rapidly cooling the metal from a high temperature. Rapid
cooling is required for obtaining high strength and hardness and the purpose is to harden steel so that
it can withstand wear and tear.
6) Tempering: Heat treatment should relieve stress as stated above. But after quenching, the metal is
hard and brittle. It requires reheating. Tempering is the process of reheating which will reduce the
brittleness and soften the steel.

(OM & IS ) 1.0 Fabrication Process

Fabrication (metal) Wikipedia


Fabrication is the process of forming, casting, machining and welding of metals.

A fabricating process modifies the physical characteristics of materials with the help of certain labour or
machine operations. It is generally applied in metal working industries. The fabricating process involves
changing the shape of materials and connecting the parts. Fabrication work involves several operations
like forging, gas welding, flame-cutting, etc.

Classification of Fabrication processes:


(A) Fabrication process concerning Iron Smelting: Metals are widely used for fabrication purposes in
most of the modern industries. Various metals like iron have-to be smelted to get them in virgin form.
Iron is obtained in free state as oxide and it is smelted in a Blast Furnace with the help of coke and
limestone.
(B) Fabrication Process concerning Making of Steel: Steel making involves re-melting the pig iron and
processing the molten iron to reduce the carbon content. Several other metals are then added to give
physical characteristics to the iron. This process is used in manufacturing high grade alloy steel because
of the improved control.
(C) Fabrication Process concerning Rolling of Steel: In this process, liquid steel is cast into ingots. These
rectangular pyramids are then rolled into blooms which square section lengths of steel. Blooms are
further heated and rolled into billets of smaller cross-section, which are then converted into various
fabricated lengths like beams, angles, rods, flats, sheets, plates, etc.
(D) Fabrication of Steel: The fabrication requirements are designed based and depends upon the
complexity of the process. It is done when steel materials are to be shaped in different forms.

OM & IS







Subject OM & IS (Operation Management and Information System)
Study Note 1Overview of Production Process
Index
Overview of Production Process

1.0 Fabrication Process

Metal working process, Forming, Heat treatment,
Welding, Surface treatment