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Bearings
Bearings
• Bearings are needed whenever one part of a machine
slides against another. Bearings can be classified as
providing sliding or rolling contact.
• A sliding bearing typically uses a lubricant to reduce
friction between the sliding surfaces. A shaft and bushing
bearing is known as a journal bearing. The fluid lubricant
forms a film between the sliding surfaces so that there is
no contact between solid components. This kind of
bearings are known as fluid film bearings.
• Rolling contact bearings are often referred to
antifriction bearings. Antifriction bearings, as their
name implies, minimize friction by removing any possible
sliding between bearing surfaces and replacing all
contacts with rolling interfaces. Please select "Antifriction
Bearings" for a more detailed explanation.
Bearing Types
Journal Bearing
Linear Bearing
Thrust bearing
• Conical Pivot Bearing
• Flat Pivot Bearing
• Collar Bearing
Integral
• Integral plain bearings are built into the object of use. It is a
hole that has been prepared into a bearing surface. Industrial
integral bearings are usually made from cast iron or babbitt and
a hardened steel shaft is used in the bearing.
• Integral bearings are not as common because bushings are
easy to accommodate and if they wear out then they are just
replaced. Depending on the material an integral bearing may be
less expensive but it cannot be replaced. If an integral bearing
wears out then the item may be replaced or reworked to accept
a bushing.
• Integral bearings were very common in 19th-century machinery
but became progressively less common as
interchangeable manufacture permeated the industry.
• An example of a common integral plain bearing is the hinge,
which is both a thrust bearing and a journal bearing.
Plain bearing
• A plain bearing, also known as a plane bearing or a
friction bearing is the simplest type of bearing, comprising
just a bearing surface and no rolling elements.
• Plain bearings, in general, are the least expensive type of
bearing. They are also compact and lightweight, and they
have a high load-carrying capacity
• The design of a plain bearing depends on the type of
motion the bearing must provide. The three types of
motions possible are:
• Journal, Linear, Thrust
• Journal (friction, radial or rotary) bearing: This is the most common
type of plain bearing; it is simply a shaft rotating in a bearing. In
locomotive applications a journal bearing specifically refers to the plain
bearing found at the ends of the axles of railroad wheel sets, which are
enclosed by journal boxes.
Plain Bearing continued
• Linear Bearing This bearing provides linear motion; it may take
the form of a circular bearing and shaft or any other two matching
surfaces (e.g., a slide plate).
• Therefore the journal (i.e., the part of the shaft in contact with the
bearing) slides over the bearing surface.
1. The simplest example of a plain
bearing is a shaft rotating in a hole.
2. A simple linear bearing can be a pair
of flat surfaces designed to allow motion;
» e.g., a drawer and the slides it rests on or the ways
on the bed of a lathe.
• Thrust Bearing A thrust bearing provides a bearing surface for
forces acting axial to the shaft.
• .
Journal
Bushing
• A bushing, also known as a bush, is an independent
plain bearing that is inserted into a housing to provide a
bearing surface for rotary applications; this is the most
common form of a plain bearing. Common designs
include solid (sleeve and flanged), split, and clenched
bushings. A sleeve, split, or clenched bushing is only a
"sleeve" of material with an inner diameter (ID), outer
diameter (OD), and length. The difference between the
three types is that a solid sleeved bushing is solid all the
way around, a split bushing has a cut along its length,
and a clenched bearing is similar to a split bushing but
with a clench across the cut. A flanged bushing is a
sleeve bushing with a flange extending radially outward
from the ID.
Journal
Bush Bearing
Bush Bearing
Thrust
Bearing
Thrust bearing
• A thrust bearing is a particular type of rotary bearing. Like other rotary
bearings they permit rotation between parts, but they are designed to
support a high axial load while doing this.
• Thrust bearings come in several varieties.
• Ball thrust bearings, composed of ball bearings supported in a ring,
can be used in low thrust applications where there is little radial load.
• Roller thrust bearings consist of small cylindrical rollers arranged flat
with their axes pointing to the axis of the bearing. They give very good
carrying capacity and are cheap, but tend to wear due to the
differences in radial speed and friction is higher than with ball
bearings.
• Tapered roller bearings consist of small tapered rollers arranged so
that their axes all converge at a point on the axis of the bearing. The
length of the roller and the diameter of the wide and the narrow ends
and the angle of rollers need to be carefully calculated to provide the
correct taper so that each end of the roller rolls smoothly on the
bearing face without skidding. These are the type most commonly
used in automotive applications (to support the wheels of a motor car
for example), where they are used in pairs to accommodate axial
thrust in either direction, as well as radial loads. They can support
rather larger thrust loads than the ball type due to the larger contact
area, but are more expensive to manufacture.
Ball Bearing
Micro Thrust Bearings
Bigger size thrust Bearing
Agricultural Bearing
Thrust Ball Bearing
Wheel Hub Bearing
Micro Thrust Bearing
Thrust Bearing
Flat Pivot
Bearing
Pivot Bearing
Conical Pivot
Bearing
Thrust Bearing with out Balls
Thrust Bearing with balls
Conical Pivot in hand Watch
• The conical pivot (1)
requires two jewels for a
bearing, a cap jewel (5)
and pierced jewel (6).
Unlike the
cylindrical pivot, the
conical pivot has no
"shoulder" and uses the
cap jewel to determine
end-shake of the wheel
pinion (3). This
arrangement provides
lower friction than the
single-jewel cylindrical
pivot arrangement.
Conical Pivot Bearing
• Uniform pressure
case
• For conical bearing
surface consider
weight W is an axial
load which is
supported by
conical bearing
surface with apex
angle 2α. Now
consider bearing
surface of radius r
and its radial width
δr. Assume dl to be
the length of ring
along cone
dl = dr. cosec α
Area = circumference x dl
Area = 2πr x dr. cosec α
A = 2πrdr.cosecα
• In conical bearing load is
applied normally as well as
axially on the ring so
• δWn = Normal pressure x
Area
• δWn = p x 2πrdr.cosec α
• For axial load
• δW =δWn.sin α
• δW = pn x 2πrdr
• So total load which is
transmitted on the bearing is
• W = 2πpn
W = 2πpn (R2
/2)
W = πpnR2
pn = W/ πR2
Frictional force on the ring is acting tangentially
at radius r will be
Fr = μ.δWn
Fr = 2πμpn.r2
cosec α dr
Similarly vertical load acting on the ring will be
δW = pn sin α x A
δW = pn sin α x 2πrdr.cosec α
δW = 2πpnrdr
For the calculation of torque which is lost
during transmission we should integrate
T =
T = 2π μpncosec α
T = 2πμpncosec α x (R3
/3)
T = (2πR3
/3) μpn cosec α
Now putting the value of pn in the
above expression
T = (2πR3
/3) x μ x (W/ πR2
) cosec α
T = (2/3) x μ WR. cosec α
Collar Bearing
Collar Bearing
Shaft with collars
Roller and Ball Bearings
A thrust bearing
• A thrust bearing is a particular type of rotary bearing. Like other rotary bearings they permit rotation
between parts, but they are designed to support a high axial load while doing this.
• Thrust bearings come in several varieties.
• Ball thrust bearings, composed of ball bearings supported in a ring, can be used in low thrust applications
where there is little radial load.
• Roller thrust bearings consist of small cylindrical rollers arranged flat with their axes pointing to the axis of
the bearing. They give very good carrying capacity and are cheap, but tend to wear due to the differences in
radial speed and friction is higher than with ball bearings.
• Tapered roller bearings consist of small tapered rollers arranged so that their axes all converge at a point on
the axis of the bearing. The length of the roller and the diameter of the wide and the narrow ends and the
angle of rollers need to be carefully calculated to provide the correct taper so that each end of the roller rolls
smoothly on the bearing face without skidding. These are the type most commonly used in automotive
applications (to support the wheels of a motor car for example), where they are used in pairs to
accommodate axial thrust in either direction, as well as radial loads. They can support rather larger thrust
loads than the ball type due to the larger contact area, but are more expensive to manufacture.
• Fluid bearings, where the axial thrust is supported on a thin layer of pressurized liquid—these give low drag.
• Magnetic bearings, where the axial thrust is supported on a magnetic field. This is used where very high
speeds or very low drag is needed, for example the Zippe-type centrifuge.
• They are commonly used in automotive, marine, and aerospace applications.
• Thrust bearings are used in cars because the forward gears in modern car gearboxes use helical gears
which, while aiding in smoothness and noise reduction, cause axial forces that need to be dealt with. The
double helical or herringbone gear balances the thrust caused by normal helical gears.
• One specific thrust bearing in an automobile is the clutch "throw out" bearing, sometimes called the clutch
release bearing.
• Fluid-film thrust bearings were invented by Australian engineer George Michell (pronounced Mitchell) who
patented his invention in 1905. Michell bearings contain a number of sector-shaped pads, arranged in a
circle around the shaft, and which are free to pivot. These create wedge-shaped regions of oil inside the
bearing between the pads and a rotating disk, which support the applied thrust and eliminate metal-on-metal
contact.
• Michell's invention was notably applied to the thrust block in ships. The small size (one-tenth the size of old
bearing designs), low friction and long life of Michell's invention made possible the development of more
powerful engines and propellers. They were used extensively in ships built during World War I, and have
• Bushing
• A bushing, also known as a bush, is an independent plain bearing that is
inserted into a housing to provide a bearing surface for rotary applications;
this is the most common form of a plain bearing. Common designs
include solid (sleeve and flanged), split, and clenched bushings. A
sleeve, split, or clenched bushing is only a "sleeve" of material with an inner
diameter (ID), outer diameter (OD), and length. The difference between
the three types is that a solid sleeved bushing is solid all the way
around, a split bushing has a cut along its length, and a clenched
bearing is similar to a split bushing but with a clench across the cut.
A flanged bushing is a sleeve bushing with a flange extending
radially outward from the ID. The flange is used to positively locate the
bushing when it is installed or to provide a thrust bearing surface.[9]
• Sleeve bearings of inch dimensions are almost exclusively dimensioned
using the SAE numbering system. The numbering system uses the format
-XXYY-ZZ, where XX is the ID in sixteenths of an inch, YY is the OD in
sixteenths of an inch, and ZZ is the length in eights of an inch.[1] Metric
sizes also exist.[10]
• A linear bushing is not usually pressed into a housing, but rather secured
with a radial feature. Two such examples include two retaining rings, or a
ring that is molded onto the OD of the bushing that matches with a groove in
the housing. This is usually a more durable way to retain the bushing,
because the forces acting on the bushing could press it out.
• The thrust form of a bushing is conventionally called a thrust washer.
Bearing
Bearing

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Bearing

  • 2.
  • 3. Bearings • Bearings are needed whenever one part of a machine slides against another. Bearings can be classified as providing sliding or rolling contact. • A sliding bearing typically uses a lubricant to reduce friction between the sliding surfaces. A shaft and bushing bearing is known as a journal bearing. The fluid lubricant forms a film between the sliding surfaces so that there is no contact between solid components. This kind of bearings are known as fluid film bearings. • Rolling contact bearings are often referred to antifriction bearings. Antifriction bearings, as their name implies, minimize friction by removing any possible sliding between bearing surfaces and replacing all contacts with rolling interfaces. Please select "Antifriction Bearings" for a more detailed explanation.
  • 4. Bearing Types Journal Bearing Linear Bearing Thrust bearing • Conical Pivot Bearing • Flat Pivot Bearing • Collar Bearing
  • 5. Integral • Integral plain bearings are built into the object of use. It is a hole that has been prepared into a bearing surface. Industrial integral bearings are usually made from cast iron or babbitt and a hardened steel shaft is used in the bearing. • Integral bearings are not as common because bushings are easy to accommodate and if they wear out then they are just replaced. Depending on the material an integral bearing may be less expensive but it cannot be replaced. If an integral bearing wears out then the item may be replaced or reworked to accept a bushing. • Integral bearings were very common in 19th-century machinery but became progressively less common as interchangeable manufacture permeated the industry. • An example of a common integral plain bearing is the hinge, which is both a thrust bearing and a journal bearing.
  • 6. Plain bearing • A plain bearing, also known as a plane bearing or a friction bearing is the simplest type of bearing, comprising just a bearing surface and no rolling elements. • Plain bearings, in general, are the least expensive type of bearing. They are also compact and lightweight, and they have a high load-carrying capacity • The design of a plain bearing depends on the type of motion the bearing must provide. The three types of motions possible are: • Journal, Linear, Thrust • Journal (friction, radial or rotary) bearing: This is the most common type of plain bearing; it is simply a shaft rotating in a bearing. In locomotive applications a journal bearing specifically refers to the plain bearing found at the ends of the axles of railroad wheel sets, which are enclosed by journal boxes.
  • 7. Plain Bearing continued • Linear Bearing This bearing provides linear motion; it may take the form of a circular bearing and shaft or any other two matching surfaces (e.g., a slide plate). • Therefore the journal (i.e., the part of the shaft in contact with the bearing) slides over the bearing surface. 1. The simplest example of a plain bearing is a shaft rotating in a hole. 2. A simple linear bearing can be a pair of flat surfaces designed to allow motion; » e.g., a drawer and the slides it rests on or the ways on the bed of a lathe. • Thrust Bearing A thrust bearing provides a bearing surface for forces acting axial to the shaft. • .
  • 9. Bushing • A bushing, also known as a bush, is an independent plain bearing that is inserted into a housing to provide a bearing surface for rotary applications; this is the most common form of a plain bearing. Common designs include solid (sleeve and flanged), split, and clenched bushings. A sleeve, split, or clenched bushing is only a "sleeve" of material with an inner diameter (ID), outer diameter (OD), and length. The difference between the three types is that a solid sleeved bushing is solid all the way around, a split bushing has a cut along its length, and a clenched bearing is similar to a split bushing but with a clench across the cut. A flanged bushing is a sleeve bushing with a flange extending radially outward from the ID.
  • 10.
  • 12.
  • 13.
  • 14.
  • 17.
  • 18.
  • 20. Thrust bearing • A thrust bearing is a particular type of rotary bearing. Like other rotary bearings they permit rotation between parts, but they are designed to support a high axial load while doing this. • Thrust bearings come in several varieties. • Ball thrust bearings, composed of ball bearings supported in a ring, can be used in low thrust applications where there is little radial load. • Roller thrust bearings consist of small cylindrical rollers arranged flat with their axes pointing to the axis of the bearing. They give very good carrying capacity and are cheap, but tend to wear due to the differences in radial speed and friction is higher than with ball bearings. • Tapered roller bearings consist of small tapered rollers arranged so that their axes all converge at a point on the axis of the bearing. The length of the roller and the diameter of the wide and the narrow ends and the angle of rollers need to be carefully calculated to provide the correct taper so that each end of the roller rolls smoothly on the bearing face without skidding. These are the type most commonly used in automotive applications (to support the wheels of a motor car for example), where they are used in pairs to accommodate axial thrust in either direction, as well as radial loads. They can support rather larger thrust loads than the ball type due to the larger contact area, but are more expensive to manufacture.
  • 22.
  • 23.
  • 33.
  • 35. Thrust Bearing with out Balls
  • 37. Conical Pivot in hand Watch • The conical pivot (1) requires two jewels for a bearing, a cap jewel (5) and pierced jewel (6). Unlike the cylindrical pivot, the conical pivot has no "shoulder" and uses the cap jewel to determine end-shake of the wheel pinion (3). This arrangement provides lower friction than the single-jewel cylindrical pivot arrangement.
  • 38. Conical Pivot Bearing • Uniform pressure case • For conical bearing surface consider weight W is an axial load which is supported by conical bearing surface with apex angle 2α. Now consider bearing surface of radius r and its radial width δr. Assume dl to be the length of ring along cone dl = dr. cosec α Area = circumference x dl Area = 2πr x dr. cosec α A = 2πrdr.cosecα
  • 39. • In conical bearing load is applied normally as well as axially on the ring so • δWn = Normal pressure x Area • δWn = p x 2πrdr.cosec α • For axial load • δW =δWn.sin α • δW = pn x 2πrdr • So total load which is transmitted on the bearing is
  • 40. • W = 2πpn W = 2πpn (R2 /2) W = πpnR2 pn = W/ πR2 Frictional force on the ring is acting tangentially at radius r will be Fr = μ.δWn Fr = 2πμpn.r2 cosec α dr Similarly vertical load acting on the ring will be δW = pn sin α x A δW = pn sin α x 2πrdr.cosec α δW = 2πpnrdr For the calculation of torque which is lost during transmission we should integrate
  • 41. T = T = 2π μpncosec α T = 2πμpncosec α x (R3 /3) T = (2πR3 /3) μpn cosec α Now putting the value of pn in the above expression T = (2πR3 /3) x μ x (W/ πR2 ) cosec α T = (2/3) x μ WR. cosec α
  • 45.
  • 46.
  • 47.
  • 48. Roller and Ball Bearings
  • 49.
  • 50.
  • 51. A thrust bearing • A thrust bearing is a particular type of rotary bearing. Like other rotary bearings they permit rotation between parts, but they are designed to support a high axial load while doing this. • Thrust bearings come in several varieties. • Ball thrust bearings, composed of ball bearings supported in a ring, can be used in low thrust applications where there is little radial load. • Roller thrust bearings consist of small cylindrical rollers arranged flat with their axes pointing to the axis of the bearing. They give very good carrying capacity and are cheap, but tend to wear due to the differences in radial speed and friction is higher than with ball bearings. • Tapered roller bearings consist of small tapered rollers arranged so that their axes all converge at a point on the axis of the bearing. The length of the roller and the diameter of the wide and the narrow ends and the angle of rollers need to be carefully calculated to provide the correct taper so that each end of the roller rolls smoothly on the bearing face without skidding. These are the type most commonly used in automotive applications (to support the wheels of a motor car for example), where they are used in pairs to accommodate axial thrust in either direction, as well as radial loads. They can support rather larger thrust loads than the ball type due to the larger contact area, but are more expensive to manufacture. • Fluid bearings, where the axial thrust is supported on a thin layer of pressurized liquid—these give low drag. • Magnetic bearings, where the axial thrust is supported on a magnetic field. This is used where very high speeds or very low drag is needed, for example the Zippe-type centrifuge. • They are commonly used in automotive, marine, and aerospace applications. • Thrust bearings are used in cars because the forward gears in modern car gearboxes use helical gears which, while aiding in smoothness and noise reduction, cause axial forces that need to be dealt with. The double helical or herringbone gear balances the thrust caused by normal helical gears. • One specific thrust bearing in an automobile is the clutch "throw out" bearing, sometimes called the clutch release bearing. • Fluid-film thrust bearings were invented by Australian engineer George Michell (pronounced Mitchell) who patented his invention in 1905. Michell bearings contain a number of sector-shaped pads, arranged in a circle around the shaft, and which are free to pivot. These create wedge-shaped regions of oil inside the bearing between the pads and a rotating disk, which support the applied thrust and eliminate metal-on-metal contact. • Michell's invention was notably applied to the thrust block in ships. The small size (one-tenth the size of old bearing designs), low friction and long life of Michell's invention made possible the development of more powerful engines and propellers. They were used extensively in ships built during World War I, and have
  • 52. • Bushing • A bushing, also known as a bush, is an independent plain bearing that is inserted into a housing to provide a bearing surface for rotary applications; this is the most common form of a plain bearing. Common designs include solid (sleeve and flanged), split, and clenched bushings. A sleeve, split, or clenched bushing is only a "sleeve" of material with an inner diameter (ID), outer diameter (OD), and length. The difference between the three types is that a solid sleeved bushing is solid all the way around, a split bushing has a cut along its length, and a clenched bearing is similar to a split bushing but with a clench across the cut. A flanged bushing is a sleeve bushing with a flange extending radially outward from the ID. The flange is used to positively locate the bushing when it is installed or to provide a thrust bearing surface.[9] • Sleeve bearings of inch dimensions are almost exclusively dimensioned using the SAE numbering system. The numbering system uses the format -XXYY-ZZ, where XX is the ID in sixteenths of an inch, YY is the OD in sixteenths of an inch, and ZZ is the length in eights of an inch.[1] Metric sizes also exist.[10] • A linear bushing is not usually pressed into a housing, but rather secured with a radial feature. Two such examples include two retaining rings, or a ring that is molded onto the OD of the bushing that matches with a groove in the housing. This is usually a more durable way to retain the bushing, because the forces acting on the bushing could press it out. • The thrust form of a bushing is conventionally called a thrust washer.