Corbel Repair\Replacement

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M

MysteryM

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General plastering questions, i'm a bit of a diy numpty so go easy :RpS_laugh:

Is attaching or repairing plaster corbels something most plasterers would know how to do? We are moving into a house which has a damaged corbel on an arch that needs correcting, either by replacing or by repairing it. I'd rather get it repaired, but if it did need replacing i'd be happy to get it changed IF it was easy to get an exact replacement.

I'm hoping this isn't the domain of a plaster expert\restoration company as this is just In a normal home - its not a stately home or anything! We are based in the Coventry area.

Corbel Repair\Replacement

From the picture above, the corbel actually extends over its own width at the top (if that makes sense) so that it overlaps the wall. Is it going to be possible to source one of these if I need to replace it?

Thanks for any replies in advance.
 
You could contact an ornate plasterer good luck if you find a plasterer to put it right I doubt you would
 
You're in luck - one of our regulars lives in Coventry, Beddy is his name on here.
Nicee wee job for ya @beddy :RpS_thumbup:
 
Last edited by a moderator:
I'm sure Beddy has mentioned before about a ornate plaster company in Coventry.
He'll sort you out or give you the details for the shop :RpS_thumbup:
 
Easy enough to do, get some casting plaster and rules, fill it out in sections and rule it as before, once you start you will find it easy enough to do, pva the joins,
 
Cool if someone can provide me the details of someone in Coventry that could sort this it would be perfect. We get the keys to the house mid July so will be a definately job for some then.
 
johniosaif said:
Easy enough to do, get some casting plaster and rules, fill it out in sections and rule it as before, once you start you will find it easy enough to do, pva the joins,
Click to expand...

John I do believe you wrote that all by yourself, well done:RpS_thumbsup:
 
its all that copy and pasteing..................who is the real asif is what we all want to know.....................:RpS_confused:
 
johniosaif said:
Easy enough to do, get some casting plaster and rules, fill it out in sections and rule it as before, once you start you will find it easy enough to do, pva the joins,
Click to expand...

John where will you rule it too ? its on a return. The guy needs to take a squeeze, once hes got that mold he can put the corner back in.
 
Artisan998 said:
what makes you think we like how you are now
Click to expand...
Could I care less, never played nice with the other kids, never felt the need to belong or tell people what they want to hear, and I am missing my painkillers, detox before my op Tuesday, then six weeks off.
 
Airborne said:
John where will you rule it too ? its on a return. The guy needs to take a squeeze, once hes got that mold he can put the corner back in.
Click to expand...
You could do it by holding or fixing something in pace to replicate the missing return then reverse that.
 
Call in to ap molloys based on Holbrook lane. Inbetween the hollybush and karpet Kingdom. He will either repair or replace for you and is beyond good at his job.
 
Airborne said:
@johniosaif do you like Steve's post above because you think it now gets you off the hook with not being able to explain yourself properly ?
Click to expand...
No ,not for that reason, he gave the solution to the DIY section or the plasterers who would be nervous to tackle this little job, I could do it myself easily enough and have repaired bits and pieces of decorative corniche and external stucco works, trying to explain it to the pub bore with abc steps to the end would take too long and some still would not get it, bit like explaining how to fly a plane...
 
The airplane is controlled by deflection of flight control surfaces. These are hinged or movable surfaces with which the pilot adjusts the airplane's attitude during takeoff, flight manoeuvring, and landing (airplane attitude refers to whether the airplane is pointing up, down, etc.). The flight control surfaces are operated by the pilot through connecting linkage to the rudder pedals and a control yoke.
The control yoke is similar to the steering wheel of a car. However, you can push and pull it in addition to turning it. The push/pull dimension controls the third direction (up and down). Remember, a car can only go straight or turn (move in two dimensions), but an airplane can go straight, turn, or move up and down.
Corbel Repair\Replacement

control yokes rudder pedals and panel of a Cessna 152 trainer
The rudder is attached to the vertical stabilizer. Controlled by the rudder pedals, the rudder is used by the pilot to control the direction (left or right) of yaw about the airplane's vertical axis for minor adjustments. It is NOT used to make the airplane turn, as is often erroneously believed. Banking the airplane makes it turn.
[h=2] axes of rotation[/h]The airplane can rotate around one, two, or all three axes simultaneously. Think of these axes as imaginary axles around which the airplane turns, much as a wheel would turn around axles positioned in these same three directions.
flight controls and control surfaces (see the illustration below.)
Corbel Repair\Replacement
Lateral (pitch) axis -- an imaginary line from wingtip to wingtip

  • Rotation about the lateral axis is called pitch and is controlled by the elevator.

  • The rotation is similar to a seesaw. The bar holding the seesaw is the lateral axis.

  • This is known as the airplane's pitch attitude.
secondary effect of elevator actuation
The primary effect is to change the aircraft's pitch. The secondary effect will change the speed. Climbing will slow the plane and descending in increase its speed.
[h=4] Elevators [/h]The control yoke is connected by means of wires, rods or hydraulics to the tail section's elevators. By moving the yoke, the pilot can change the position of the elevators. When the control column is pushed in, the elevators move down, pitching the tail of the airplane up and the nose down, rolling the airplane down. When pulling the control column back makes the elevators move up, bringing the tail of the airplane down and the nose up, pitching the airplane upwards.
click arrows to operate movie

[TD="width: 37%"] Corbel Repair\Replacement [/TD]
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Your browser does not support inline frames or is currently configured not to display inline frames.​
[/TD]
[TD="width: 39%"] Corbel Repair\Replacement [/TD]
Longitudinal (roll) axis -- an imaginary line from the nose to the tail
  • Rotation about the longitudinal axis is called roll and is controlled by the outboard movable portions of each wing: the ailerons. The term "aileron" is the French word for "little wing." Ailerons are located on the trailing (rear) edge of each wing near the outer tips. When deflected up or down, they in effect change the wing's camber (curvature) and its angle of attack. This changes the wing's lift and drag characteristics.

  • Their primary use is to bank (roll) the airplane around its longitudinal axis. The banking of the wings results in the airplane turning in the direction of the bank, i.e., toward the direction of the low wing.

  • The ailerons are interconnected in the control system to operate simultaneously in opposite directions of each other. As the aileron on one wing is deflected downward, the aileron on the opposite wing is deflected upward.

  • The ailerons are controlled by turning the control yoke.
secondary effect of aileron actuation
The ailerons primarily control bank. However because the air underneath a wing is denser than that above it, the lowering aileron causes more drag on its side than the rising aileron. Using ailerons causes a small amount of yaw to occur. This is more pronounced for light aircraft with long wings, such as gliders. It is usually counteracted by the pilot with the rudder. Another most import consideration is that the stall speed of the aircraft increases with the angle of roll. Large angles of bank at slow speed may very well result in a stall and spin.
click arrows to operate movie

[TD="width: 38%"]
Corbel Repair\Replacement
[/TD]
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Your browser does not support inline frames or is currently configured not to display inline frames.​
[/TD]
[TD="width: 44%"] Corbel Repair\Replacement [/TD]
Vertical (yaw) axis -- an imaginary line extending vertically through the intersection of the lateral and longitudinal axes

  • Rotation about the vertical axis is called yaw and is controlled by the rudder. This rotation is referred to as directional control or directional stability.

  • The rotation is similar to a weather vane, in which the post holding the vane is the vertical axis but the rotation is directional.
[h=4]Rudder [/h]The rudder is attached to the vertical stabilizer. Controlled by the rudder pedals, the rudder is used by the pilot to control the direction (left or right) of yaw about the airplane's vertical axis for minor adjustments. It is NOT used to make the airplane turn, as is often erroneously believed. Banking the airplane makes it turn.
When the foot pressure on the left rudder pedal moves the rudder to the left, causing the nose of the airplane to move to the left.
When the foot pressure on the right rudder pedal moves the rudder to the right, causing the nose of the airplane to move to the right.
secondary effect of rudder actuation
Using the rudder causes one wing to move forward faster than the other. Increased speed means increased lift, and hence rudder use causes a small roll effect. For this reason ailerons and rudder are generally used together on light aircraft.
click arrows to operate movie

[TD="width: 39%"]
Corbel Repair\Replacement
[/TD]
[TD="width: 22%"]
Your browser does not support inline frames or is currently configured not to display inline frames.​
[/TD]
[TD="width: 39%"] Corbel Repair\Replacement [/TD]
PowerThe application of power will increase the aircraft speed with a secondary effect of climb. A reduction in power will reduce speed with a secondary effect of descent.​
click here to operate movie
 Your browser does not support inline frames or is currently configured not to display inline frames.

[TD="width: 218"][/TD]
[TD="width: 711"]
[/TD]
 
Artisan998 said:
The airplane is controlled by deflection of flight control surfaces. These are hinged or movable surfaces with which the pilot adjusts the airplane's attitude during takeoff, flight manoeuvring, and landing (airplane attitude refers to whether the airplane is pointing up, down, etc.). The flight control surfaces are operated by the pilot through connecting linkage to the rudder pedals and a control yoke.
The control yoke is similar to the steering wheel of a car. However, you can push and pull it in addition to turning it. The push/pull dimension controls the third direction (up and down). Remember, a car can only go straight or turn (move in two dimensions), but an airplane can go straight, turn, or move up and down.
Corbel Repair\Replacement

control yokes rudder pedals and panel of a Cessna 152 trainer
The rudder is attached to the vertical stabilizer. Controlled by the rudder pedals, the rudder is used by the pilot to control the direction (left or right) of yaw about the airplane's vertical axis for minor adjustments. It is NOT used to make the airplane turn, as is often erroneously believed. Banking the airplane makes it turn.
axes of rotation

The airplane can rotate around one, two, or all three axes simultaneously. Think of these axes as imaginary axles around which the airplane turns, much as a wheel would turn around axles positioned in these same three directions.
flight controls and control surfaces (see the illustration below.)
Corbel Repair\Replacement
Lateral (pitch) axis -- an imaginary line from wingtip to wingtip

  • Rotation about the lateral axis is called pitch and is controlled by the elevator.
  • The rotation is similar to a seesaw. The bar holding the seesaw is the lateral axis.
  • This is known as the airplane's pitch attitude.
secondary effect of elevator actuation
The primary effect is to change the aircraft's pitch. The secondary effect will change the speed. Climbing will slow the plane and descending in increase its speed.
Elevators

The control yoke is connected by means of wires, rods or hydraulics to the tail section's elevators. By moving the yoke, the pilot can change the position of the elevators. When the control column is pushed in, the elevators move down, pitching the tail of the airplane up and the nose down, rolling the airplane down. When pulling the control column back makes the elevators move up, bringing the tail of the airplane down and the nose up, pitching the airplane upwards.
click arrows to operate movie
Corbel Repair\Replacement

[TD="width: 24%"]
Your browser does not support inline frames or is currently configured not to display inline frames.​
[/TD]
[TD="width: 39%"] Corbel Repair\Replacement [/TD]
Longitudinal (roll) axis -- an imaginary line from the nose to the tail

  • Rotation about the longitudinal axis is called roll and is controlled by the outboard movable portions of each wing: the ailerons. The term "aileron" is the French word for "little wing." Ailerons are located on the trailing (rear) edge of each wing near the outer tips. When deflected up or down, they in effect change the wing's camber (curvature) and its angle of attack. This changes the wing's lift and drag characteristics.
  • Their primary use is to bank (roll) the airplane around its longitudinal axis. The banking of the wings results in the airplane turning in the direction of the bank, i.e., toward the direction of the low wing.
  • The ailerons are interconnected in the control system to operate simultaneously in opposite directions of each other. As the aileron on one wing is deflected downward, the aileron on the opposite wing is deflected upward.
  • The ailerons are controlled by turning the control yoke.
secondary effect of aileron actuation
The ailerons primarily control bank. However because the air underneath a wing is denser than that above it, the lowering aileron causes more drag on its side than the rising aileron. Using ailerons causes a small amount of yaw to occur. This is more pronounced for light aircraft with long wings, such as gliders. It is usually counteracted by the pilot with the rudder. Another most import consideration is that the stall speed of the aircraft increases with the angle of roll. Large angles of bank at slow speed may very well result in a stall and spin.
click arrows to operate movie
Corbel Repair\Replacement

[TD="width: 23%"]
Your browser does not support inline frames or is currently configured not to display inline frames.​
[/TD]
[TD="width: 44%"] Corbel Repair\Replacement [/TD]
Vertical (yaw) axis -- an imaginary line extending vertically through the intersection of the lateral and longitudinal axes

  • Rotation about the vertical axis is called yaw and is controlled by the rudder. This rotation is referred to as directional control or directional stability.
  • The rotation is similar to a weather vane, in which the post holding the vane is the vertical axis but the rotation is directional.
Rudder

The rudder is attached to the vertical stabilizer. Controlled by the rudder pedals, the rudder is used by the pilot to control the direction (left or right) of yaw about the airplane's vertical axis for minor adjustments. It is NOT used to make the airplane turn, as is often erroneously believed. Banking the airplane makes it turn.
When the foot pressure on the left rudder pedal moves the rudder to the left, causing the nose of the airplane to move to the left.
When the foot pressure on the right rudder pedal moves the rudder to the right, causing the nose of the airplane to move to the right.
secondary effect of rudder actuation
Using the rudder causes one wing to move forward faster than the other. Increased speed means increased lift, and hence rudder use causes a small roll effect. For this reason ailerons and rudder are generally used together on light aircraft.
click arrows to operate movie
Corbel Repair\Replacement

[TD="width: 22%"]
Your browser does not support inline frames or is currently configured not to display inline frames.​
[/TD]
[TD="width: 39%"] Corbel Repair\Replacement [/TD]
PowerThe application of power will increase the aircraft speed with a secondary effect of climb. A reduction in power will reduce speed with a secondary effect of descent.​
click here to operate movie
 Your browser does not support inline frames or is currently configured not to display inline frames.

[TD="width: 711"][/TD]
Click to expand...
Hope its not copy and paste, way above my head much like the plane
 
I wrote all that from memory. it is not copy and paste.....................:RpS_wink:
 
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