chapter-2 metal working processes
DESCRIPTION
Chapter-2 METAL WORKING PROCESSES. -Vishal Sir. Definition. Metal Working/Mechanical Working/Metal Forming Processes. Definition. The process in which permanent change is obtained in a metal shape by plastic deformation under the action of external forces. Why Metal Forming is required?. - PowerPoint PPT PresentationTRANSCRIPT
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Chapter-2
METAL WORKING PROCESSES
-Vishal Sir
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Definition
• Metal Working/Mechanical Working/Metal Forming Processes
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Definition
• The process in which permanent change is obtained in a metal shape by plastic deformation under the action of external forces.
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Why Metal Forming is required?
• Economical and time saving process to obtain desired shape from the given material.
• To improve mechanical properties.• To minimize defects such as holes, cracks etc• To distribute impurities equally in metal.
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Classification of Metal Working
• Hot Working of metals.• Cold Working of metals.
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Hot Working of metal
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Definition
• It can be defined as the plastic deformation of metals and alloys at a temperature above recrystallisation and below melting point such that fine refined grain is obtained.
• Maximum working temperature is 0.7 to 0.9 times the melting point.
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Advantages
• Properties such as strength, ductility and toughness is improved.
• Density increases by removing voids.• Desired shape can be easily obtained under
plastic deformation.• Effect of impurities can be reduced.• Good grain structure.• Atoms in same direction leads to better
strength.
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Disadvantages
• Surface finish is not good.• Required accuracy is not obtained.• Process takes place at higher temperature, so
tool life is minimum.• Thus handling cost is high.
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Hot working Methods
• Hot Rolling
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Hot working Methods
• Hot Forging
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Hot working Methods
• Hot Drawing
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Hot working Methods
• Hot Extrusion
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Hot working Methods
• Hot Spinning
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Hot working Methods
• Hot Piercing
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Cold Working of Metals
• Hot Working of metal
• Cold Working of metal
• Normal Temperature Temp Rise
Recrystallization temperature
Melting Point
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Definition
• The process in which plastic (permanent) deformation occurs when the process is carried out at a temperature lower than recrystallisation temperature.
• The temperature is half of absolute melting temp.
• Theoretically, it is room temperature. (25 to 30 “C)
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Advantages
• Improves hardness and strength• Desired accuracy is possible.• Heating is not required.• Thus, cost and time is reduced.
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Disadvantages
• Reduces ductility, thus difficult to process.• Force required is more.• Produce internal and residual stresses.• Atoms are deformed.• Low ductility -> Difficult to process.• Cost increases.
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Cold working Methods
• Cold Rolling• Cold Drawing• Cold Extrusion• Cold Spinning• Squeezing• Bending• Peening• Coining• Hobbing
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Difference between Hot and Cold Working
Hot Working1. Process is done above
recrystallisation temperature
2. Process is done on hot metal.
3. Less force is required.4. No residual stress is
formed in the metal.
Cold Working1. Below recrystallisation
temperature.
2. Process is done on metals at room temperature.
3. More force is required.4. Residual stresses
formed is more.
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Difference between Hot and Cold Working
Hot Working5. Improves ductility,
stiffness and toughness.
6. Accuracy in surface finish is less.
7. Maintenance cost is high.
Cold Working5. Improves strength and
hardness.
6. Accuracy in surface finish is more.
7. Maintenance cost is low.
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Rolling Process
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ROLLING PROCESS
INGOT
SLABBLOOMS
SheetsPlates
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BLOOMS
Channels I-Beams Rails Rounds Billets
Rods Wires Bars
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Definition
• Rolling process is the process in which the metals and alloys are plastically deformed by passing them between circular or cylindrical rollers.
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What actually happens in Rolling Process????
1. Rolls or rollers are arranged.2. The metal piece which is to be deformed is
drawn between the space of the rollers (by using frictional force between the rolls and metal surface)
3. Metal is squeezed (compressive force)
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Angle of Contact
Feed directionAngle of contactNew grain
t2 t1
Friction Force
Normal Force
R
Old Grain
A C
B
O
V2 V1
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Angle of Contact
• From the fig. we can say that, when the roller and work piece make contact, then we get arcAB.
• Here arc AB is the contact portion.• Now, arc AB makes an angle “θ” with O.• This angle formed is known as angle of
contact.
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• Angle of Contact:
Cosθ = 1- (t1-t2)2R
Where, t1 = thickness before rolling
t2 = thickness after rolling
R = radius of roll θ = Angle of contact or
bite
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Coefficient of Friction
• Now, coefficient of friction is given by,
µ = Frictional Force
Normal Force
=tanβWhere, β = Friction angle
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Angle of Friction (β)
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Principle working of Rolling
• Stage 1: At the beginning, the metal enters smoothly and it should not come back from roller.
For that, θ‹β
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Stage 2:
Feed directionAngle of contactNew grain
t2 t1
Friction Force
Normal Force
R
Old Grain
A C
B
O
V2 V1
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• Stage 2:Between B and C, speed of work piece is less than roller speed
• Stage 3: At point C, the speed of work piece and roller is same. This point is known as no slip point.
• Stage 4: From point C to A, the speed of work piece is more than the roller
• i.e. V2 > V > V1
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Forward Slip
• Forward slip is the slip that is caused due to difference between, the strip velocity and roller velocity.
• i.e if the strip velocity is greater than roller velocity, then a slip occurs, which is known as forward slip.
• Forward Slip = V2 –V where, V2 = Strip Velocity
V V = Roller peripheral velocity
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Types of Rolling
Hot Rolling Cold Rolling
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Hot Rolling
• Definition: Hot rolling is defined as the rolling process which occurs above recrystallisation temperature.
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Hot Rolling Process Video
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Hot Rolling Process Video
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Points to remember
• The metals are recrystalized parallelly along with deformation.
• Temperature is made constant during the rolling process.
• The distance between the roller is less than the thickness of the metal (ingot), the thickness of metal reduce and length increases.
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Advantages
• The grains become finer, thus mechanical properties improve.
• Productivity increases.• Due to high temperature, high pressure is
created. This pressure reduces the cavity and voids.
• The grains are equally divided. Thus,shape is uniform.
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Advantages
• Since the impurities are distributed equally, its effect is minimized.
• Entire process is economic.
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Disadvantages
1. Surface finish is not good due to oxidation.2. Since the process is carried out at high
temperature, its handling and tooling cost is more.
3. Metal (output) of desired measurement is not obtained.
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COLD ROLLING
• Definition: It is defined as the process that is carried out at room temperature or temperature below recrystallisation temperature.
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Cold Rolling Process Video
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Points to remember
• Since in cold working, tremendous force is applied and when such force is removed, some residual forces remain inside the metal.
• Before cold working is carried out, the scale (formed due to hot rolling) are removed by submerging the metal into sulphuric acid. Then, it is washed with water and cold working is done.
• It is done for softer metals. Eg. Aluminum, copper, silver.
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Advantages
• Surface finish is good.• Measurement accuracy is achieved.• Tool handling cost is less.• Porosity (sponge like) is reduced.• Mechanical properties improve.• Here also, the impurities are evenly
distributed. Thus, its effect is minimized.
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Disadvantages
• Since this process is carried out at room temperature, higher amount of force is required.
• Ductility is decreased.• Residual stresses are formed.
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HOT ROLLING COLD ROLLING
• Process is carried out at above recrystallisation temperature.
• Process is carried out at below recrystallisation temperature.
• Pressure applied is less due to high temperature.
• High pressure is applied.
• Coarse grain becomes fine grains.
• The grains becomes longer and distorted.
• No residual stresses are generated.
• Residual stresses are generated.
• Tool handling cost is more. • Tool handling cost is less.
• Improves ductility. • Ductility reduces.
• Surface finish and accuracy is less.
• Surface Finish and Accuracy is more.
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Basic Definitions
• Ingot : The metal in a square shape obtained from casting process is known as ingot. Area range : 300 to 500 mm^2Length is between 1.5 to 2m
400mm
400mm
1.5 m
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Basic Definitions
• Bloom: Metal piece smaller than ingot. Area range : 200 to 300 mm^2 Length is between 3.5 to 5.5 m
250 mm
250 mm
4.5 m
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Basic Definitions
• Billet : Metal piece produced from bloom is known as Billet. Further billet is rolled into bars.
Billet100 mm
100 mm
Billet
Bars
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Basic Definitions
• Slab: The rectangular cross section type metal obtained from rolling of bloom or billet is known as slab. Thickness: 50 to 150 mm Width : 0.5 to 1.5 m
SLAB
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Basic Definitions
• Plate : Further rolling slabs, we get plates. Width : 750 to 1200 mm
Thickness: 2.7 to 7mm Length: 1.5m to 3m
PLATE
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Basic Definitions
• Sheet : Rolling of Slab will result into sheets.Thickness: 0.21 to 2.64mm Width and length same as plate.
SHEET
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Basic Definitions
• Flat : 2.5mm to 6mm thickness strip is known as flat.
• Strip : 0.1 mm to 2.5 mm thickness is known as strip. The width is very less compared to length.
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INGOT
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INGOT
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INGOT
BLOOMS
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INGOT
BLOOMS
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INGOT
SLABBLOOMS
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INGOT
SLABBLOOMS
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INGOT
SLABBLOOMS
SheetsPlates
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INGOT
SLABBLOOMS
SheetsPlates
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INGOT
SLABBLOOMS
SheetsPlates Billet
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INGOT
SLABBLOOMS
SheetsPlates Billet
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INGOT
SLABBLOOMS
SheetsPlates Billet
Billet
bars
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Factors affecting rolling and their functions
1. Roller Diameter2. Metal Friction3. Presence of tension4. Operation Speed
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1) Roller Diameter (R)
• Function: To make contact with work piece. While it is in contact with the work piece, it applies pressure and the area of the plate is reduced and the length is increased.
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Calculation of roller diameter
Angle of contact is given by :
Cosθ = 1- (t1-t2)2R
• Thus from above equation, we get roller diameter as,
R = (t1-t2)___ 2(1- Cosθ )
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2) Metal Friction
FRICTIONAL FORCE
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Definition
• The force that occurs due to friction between the area of contact between the roller and work piece is known as frictional force or metal friction.
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Function of Friction.
• Initially, the angle of friction (β) should be higher than angle of contact (θ).
• Thus, because of this, the work piece does not come back.
• i.e θ< β• Also, based on angle of contact, we can find
out mill drive design, number of passes, draft (t1-t2) and power requirement.
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3) Presence of tension
• When the work piece is pulled from one end, tensile stress is created.
• Thus, this will reduce, the roller diameter and amount of power to be applied through rollers.
Tensile force
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4) Operation speed
• Refer slide 36 – 38.• Conclusion:• Due to forward slip, the exit velocity increases.
Thus, we can say that, the effect of coefficient of friction decreases.
• So, operational speed is also important for rolling process.
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Roll Mills used in Rolling Process:
1. Two – high rolling milla) 2 high pull over millb) 2 high reversing mill
2. Three high rolling mill3. Four high rolling mill4. Cluster rolling mill5. Continuous rolling mill6.Special mill
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Two – High Rolling mills• 2- High Pull Rolling Mill In this type of rolling
mill, the direction of feed is from one side only.
It uses two rollers. i.e when the first pass is
over, the work piece is again brought back to its original position and the rolled back again, which lesser space between the rollers.
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Two – High Rolling mills
• Two High Reversing Mill
In this method of rolling, the direction of feed is from both direction.
Here also, 2 mills are used.
During this process, handling of work piece is easier.
(1)
(2)
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Two – High Rolling mills
• Two high rolling mills are used for bloom, billet or slab rolling.
• Two high roll mills are normally used for obtaining medium change in cross section.
• For every pass in reverse mill, the direction of roller is to be changed.
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Three – High Rolling mills
• Here total three rollers are used. Upper, middle and lower roller.
• As shown in figure, we can easily see that the gap between upper roll and middle roll is more compared to middle and lower roll.
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Three – High Rolling mills• The reason for this is,
initially, the ingot or bloom is fed between upper and middle roll to decrease the cross section.
• Thereafter, in the reverse pass, the work piece is passed between middle and lower roller to further decrease its cross section.
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Three – High Rolling mills
• In this process, there is no need to change the direction of roller.
• Thus, minimum power is required.• Bloom, billet, channel, rail can be
manufactured.• It is cheaper.
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Four High Rolling Mills
• Here total four rolls are used, of which two are bigger rolls and two smaller ones.
• The bigger rolls are known as back up rolls.
• The smaller rolls are known as working rolls.
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Four High Rolling Mills
• Here, metal with bigger size are rolled by passing them between the working (smaller) rolls.
• Since, these rolls are used to roll bigger sizes metals, they have to face shocks and vibrations.
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Four High Rolling Mills
• Also, huge amount of pressure is to be applied.
• For this purpose, back up rolls (bigger rolls) are used.
• The work piece can be entered between the rolls in both direction by changing the roll direction and space between the working rolls.
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Cluster Rolling Mill
• As from the figures, we can say cluster mills are the type of rolling mills, which has 6 or more rolling mills in operation.
• It is used for cold working of metals.
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Continuous (Tandom) Rolling Mill
• Its arrangement is similar to two – high rolling mill.
• Here, the metal work piece passes from one roll pass to another and we get continuous reduction in size.
• Used for mass production.
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Schematic illustration of various roll arrangements: (a) two-high; (b) three- high; (c) four-high; (d) cluster (Sendzimir) mill (e)
Tandom rolling mill.
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Special Mill
• Nowadays, usage of special type of rolling mills are increasing in industries at higher rate.
• There are main two types of Special Rolling Mill. They are as follows
–Universal Rolling Mill–Planetary Rolling Mill
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Universal Rolling Mill
• In this type of rolling mill there are two vertical rolling mills, and two horizontal rolling mills.
• This mill generally produces H-section and I-section.
• This mills are used for producing accurate edges.
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Planetary Rolling Mill
• Here the rolls are arranged in the shape of sun and planets, thus its named as planetary rolls.(only for understanding)
• The feed rolls, push the metal into the gap between the planetary rolls.
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Planetary Rolling Mill
• Further after rolling from planetary rolls, the work piece will pass through two or, four high mill.
• The product obtained is in form of strips.
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Rolling Mills, Video
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DEFECTS AND ITS REASON FOR CAUSE
1. Cracks
2. Rough Surface
1. Cracks mainly occur due to cold working of metals.
2. Rough surface is formed due to oxidation in hot working process.
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DEFECTS AND ITS REASON FOR CAUSE
3. Fin
4. Lap
3. Excess material pass during rolling.
4. Over filling at roll pass.
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DEFECTS AND ITS REASON FOR CAUSE
5. Non uniform deformation.
6. Blow holes, pit holes.
5. Due to unequal shape.
6. Gas inside the metal mould.
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DEFECTS AND ITS REASON FOR CAUSE
7. Pipes
8. Warpage
7. Due to uneven cooling.
8. Due to uneven cooling and residual stresses.
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Basic Elements of Rolling Mill
• RollsMain components of rolling process. It is rolled and gives shape to the metal.Two types of rolls are used, (1) Working (2) Back
up rolls.Working rolls contact with work piece.While Back up rolls provide strength to working
rolls, do minimize deflection and add up force.
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Basic Elements of Rolling Mill
• Bearing and Housing • They provide support to the rollers shaft.
• The rollers shaft are fixed at both the endings by bearings and housing for proper alignment.
• If not, the product will be defective.
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Basic Elements of Rolling Mill
• Drive • Drives are of two types• Chain Drive• Gear drive• These drives are used to
roll the rollers in rolling process