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{{Use American English|date=September 2016}}
{{Use American English|date=September 2016}}
{{more citations needed|date=July 2017}}
{{more citations needed|date=July 2017}}

[[File:F-22 cockpit close-up.jpg|thumb|The [[bubble canopy]] of a [[Lockheed Martin F-22 Raptor]]]]
[[File:F-22 cockpit close-up.jpg|thumb|The [[bubble canopy]] of a [[Lockheed Martin F-22 Raptor]]]]
[[File:150904-F-RN211-373 (21310751252).jpg|thumb|Canopy of an F-22 Raptor]]
[[File:150904-F-RN211-373 (21310751252).jpg|thumb|Canopy of an F-22 Raptor]]

An '''aircraft canopy''' is the transparent enclosure over the cockpit of some types of [[aircraft]]. An aircraft canopy provides a controlled and sometimes [[Cabin pressurization|pressurized]] environment for the aircraft's occupants, and allows for a greater field of view over a traditional [[cockpit|flight deck]]. A canopy's shape is a compromise designed to minimize [[aerodynamic drag]], while maximizing visibility for [[Aircraft pilot|pilot]]s and other crewmembers.
An '''aircraft canopy''' is the transparent enclosure over the [[cockpit]] of some types of [[aircraft]]. An aircraft canopy provides a controlled and sometimes [[Cabin pressurization|pressurized]] environment for the aircraft's occupants, and allows for a greater field of view over a traditional flight deck. A canopy's shape is a compromise designed to minimize [[aerodynamic drag]], while maximizing visibility for [[Aircraft pilot|pilot]]s and other crewmembers.


==History==
==History==
[[File:vans.rv-7a.g-jfrv.arp.jpg|thumb|right|The raised canopy of a [[Van's Aircraft RV-7]]]]
[[File:vans.rv-7a.g-jfrv.arp.jpg|thumb|right|The raised flip-forward canopy of a [[Van's Aircraft RV-7]]]]
[[File:Cockpit of Curtiss P-40 Warhawk 1941 (14569473480).jpg|thumb|right|Cockpit of a Curtiss P-40 Warhawk, note the rearward visibility panels]]
Very early aircraft had no canopies. The pilots were exposed to the wind and weather, although most flying was done in good weather. Through [[World War I]] most aircraft had no canopy, although they often had a small windshield to deflect the [[prop wash]] and wind from hitting the pilot in the face. In the 1920s and 1930s, the increasing speed and altitude of airplanes necessitated a fully enclosed cockpit and canopies became more common.
Very early aircraft had no canopies. The pilots were exposed to the wind and weather, although most flying was done in good weather. Through [[World War I]] most aircraft had no canopy, although they often had a small windshield to deflect the [[prop wash]] and wind from hitting the pilot in the face. In the 1920s and 1930s, the increasing speed and altitude of airplanes necessitated a fully enclosed cockpit and canopies became more common.


Early canopies were made of numerous pieces of [[flat glass]] held in position by a frame and [[muntin]]s. The muntins reduced visibility, which was especially awkward for [[military aircraft]]. Also, glass canopies were much heavier than [[Poly(methyl methacrylate)|acrylic]] canopies, which were first introduced shortly before the [[Second World War]]. The [[Poly(methyl methacrylate)|acrylic]] [[bubble canopy]] was used on aircraft such as the [[Supermarine Spitfire]] and [[Westland Whirlwind (fighter)|Westland Whirlwind]], which gave better all-round visibility and reduced weight and other advantages over the embedded canopy. It is still being used on most [[fighter aircraft]].
Early canopies were made of numerous pieces of [[flat glass]] held in position by a frame and [[muntin]]s. The muntins reduced visibility, which was especially awkward for [[military aircraft]]. Also, glass canopies were much heavier than [[Poly(methyl methacrylate)|acrylic]] canopies, which were first introduced shortly before the [[Second World War]]. Many aircraft used embedded canopies that restricted visibility for the pilot, some aircraft such as the [[Curtiss P-40 Warhawk]] and [[North American F-107]] used rearward visibility panels, this not only intended for peripheral vision but provided ventilation and air circulation for the cockpit. The acrylic [[bubble canopy]] was used on aircraft such as the [[Supermarine Spitfire]] and [[Westland Whirlwind (fighter)|Westland Whirlwind]], which gave better all-round visibility and reduced weight and other advantages over the embedded canopy. It is still being used on most [[fighter aircraft]].

[[File:McDonnell Douglas CF-188 Hornet, Canada - Air Force JP7645832.jpg|thumb|left|[[McDonnell Douglas CF-18 Hornet|CF-18 Hornet]] of the [[Royal Canadian Air Force|RCAF]] displaying a false canopy]]

In the 1970s, US aviation artist [[Keith Ferris]] invented a ''false canopy'' to paint on the underside of military aircraft, directly underneath the front of the plane, the purpose of [[Military deception|deception]] which was to [[aircraft camouflage|camouflage]] the direction the aircraft is heading. This ruse was inspired by animals and fishes that have similar markings on the head and tail, so they can confuse other creatures. Pilots remain skeptical of this feature, asserting that if the enemy is close enough to see the marking, they are too close to be fooled by it.{{Citation needed|date=December 2008}}


==Ejection seat system==
==Ejection seat system==
[[File:View from the cockpit of a Hawk TMK1.jpg|thumb|right|A cockpit view from a [[BAE Hawk]] showing the explosive cord in the canopy]]
[[File:View from the cockpit of a Hawk TMK1.jpg|thumb|right|A cockpit view from a [[BAE Hawk]] showing the explosive cord in the canopy]]

On many high-performance [[military aircraft]], the canopy is an integral part of the [[ejection seat]] system. The pilot cannot be ejected from the [[aircraft]] until the canopy is no longer in the path of the ejection seat. In most ejection seat equipped aircraft, the canopy is blown upwards and rearwards by [[explosive]] charges. The [[relative wind]] then blows the canopy away from the ejection path. However, on some aircraft, such as the [[McDonnell Douglas AV-8B Harrier II]], the pilot may be forced to eject when in a hover, or when going too slow for the relative wind to move the canopy out of the path of the ejection seat. In that situation, the pilot could possibly impact the canopy when ejecting. To overcome that possibility, some aircraft have a thin cord of [[plastic explosive]] zig-zagging across the canopy over the pilot's head. In the event of an ejection, the explosive cord is activated first, shattering the canopy. Then the ejection seat and pilot is launched through the shattered canopy.
On many high-performance [[military aircraft]], the canopy is an integral part of the [[ejection seat]] system. The pilot cannot be ejected from the [[aircraft]] until the canopy is no longer in the path of the ejection seat. In most ejection seat equipped aircraft, the canopy is blown upwards and rearwards by [[explosive]] charges. The [[relative wind]] then blows the canopy away from the ejection path. However, on some aircraft, such as the [[McDonnell Douglas AV-8B Harrier II]], the pilot may be forced to eject when in a hover, or when going too slow for the relative wind to move the canopy out of the path of the ejection seat. In that situation, the pilot could possibly impact the canopy when ejecting. To overcome that possibility, some aircraft have a thin cord of [[plastic explosive]] zig-zagging across the canopy over the pilot's head. In the event of an ejection, the explosive cord is activated first, shattering the canopy. Then the ejection seat and pilot is launched through the shattered canopy.


==Construction==
==Construction==
[[File:Crew chief Staff Sgt. Jason Carlson waits for Capt. Grant Lewis to exit so he can put his F-15 Eagle to bed for the evening.JPG|thumb|[[F-15 Eagle]] canopy]]
[[File:Crew chief Staff Sgt. Jason Carlson waits for Capt. Grant Lewis to exit so he can put his F-15 Eagle to bed for the evening.JPG|thumb|[[F-15 Eagle]] canopy]]

Most modern acrylic canopies are [[vacuum forming|vacuum formed]]. A sheet of acrylic is secured to a female mould, then the entire assembly is heated in an oven until the acrylic is pliable. The air is then removed from the mould and the acrylic sheet is drawn into it, forming the shape of the canopy. The acrylic is then trimmed to the appropriate shape and attached to an aluminum or composite frame. Some one-off canopies are made in a similar fashion, but since a mould would be too time-consuming to make, the acrylic is heated and vacuum formed until it approximates the shape the builder is seeking. This type of construction is less precise, however, and each canopy is unique. If multiple canopies will be needed, a mould is almost always used.
Most modern acrylic canopies are [[vacuum forming|vacuum formed]]. A sheet of acrylic is secured to a female mould, then the entire assembly is heated in an oven until the acrylic is pliable. The air is then removed from the mould and the acrylic sheet is drawn into it, forming the shape of the canopy. The acrylic is then trimmed to the appropriate shape and attached to an aluminum or composite frame. Some one-off canopies are made in a similar fashion, but since a mould would be too time-consuming to make, the acrylic is heated and vacuum formed until it approximates the shape the builder is seeking. This type of construction is less precise, however, and each canopy is unique. If multiple canopies will be needed, a mould is almost always used.

==Openings==
Aircraft canopies have various opening methods:
===Sliding (forwards/rearwards)===
* [[Zenair CH 200]] (slide forwards)
* [[Vought F7U Cutlass]] (slide rearwards)
===Sideways===
* [[BAE Hawk]]
* [[EADS Mako/HEAT]]
* [[General Dynamics F-111 Aardvark]] (both L/R sides)
===Hinged forwards (flip-forward canopy)===
* [[Van's Aircraft RV-7]]
===Hinged rearwards (flip-rearward canopy)===
* [[Grumman F-14 Tomcat]]
* [[Boeing F-15 Eagle]]
* [[McDonnell Douglas F-4 Phantom II]]
* [[North American A-5 Vigilante]]


==Variations==
==Variations==
===Clamshell canopy===
===Clamshell canopy===
[[File:EGOV - BAe Systems Hawk T2 - Royal Air Force - ZK012 (29940229658).jpg|thumb|Side-opening clamshell on a BAE Hawk]]
A clamshell canopy uses a hinge on the rear of the cockpit, with some examples from the front or side.<ref>https://patents.google.com/patent/EP0123481A1/en</ref><ref>https://encyclopedia2.thefreedictionary.com/clamshell</ref> A more unusual example using two components requiring the pilot to enter the cockpit from the rear is found on the [[Payen PA-22]] and [[Avro Arrow]] that used this method.<ref>https://www.aircraftinformation.info/art_CF-105_Arrow.htm</ref>

A clamshell canopy uses a hinge on the rear of the cockpit, with some examples from the front or side.<ref>{{Cite web|url=https://patents.google.com/patent/EP0123481A1/en|title=Aircraft cockpit canopy|access-date=November 11, 2023}}</ref><ref>{{Cite web|url=https://encyclopedia2.thefreedictionary.com/clamshell|title=clamshell|access-date=November 11, 2023|via=The Free Dictionary}}</ref> A more unusual example with two components with left and right sections requiring the pilot to enter the cockpit from the rear is found on the [[Payen PA-22]] and [[Avro Arrow]] that used this method, the latter example for the use of ejection seats.<ref>{{Cite web|url=https://nrc-digital-repository.canada.ca/eng/view/object/?id=fd73e4f0-c027-4bb3-8a11-b27b27093550|title=CF-105. Proposed program of Sparrow and Canopy tests at Cornell and Sparrow jettisoning in Ottawa - NRC Digital Repository|first=Government of Canada National Research Council|last=Canada|date=November 11, 2023|website=nrc-digital-repository.canada.ca|access-date=November 11, 2023}}</ref><ref>{{Cite web|url=https://www.aircraftinformation.info/art_CF-105_Arrow.htm|title=Avro's Broken Arrow - Aircraft InFormation.info|website=www.aircraftinformation.info|access-date=November 11, 2023}}</ref>


===Stealth canopy===
===Stealth canopy===
Line 34: Line 54:
===Malcolm Hood===
===Malcolm Hood===
[[File:Kbely museum spitfire 310.jpg|thumb|left|This Spitfire is equipped with a Malcolm Hood.]]
[[File:Kbely museum spitfire 310.jpg|thumb|left|This Spitfire is equipped with a Malcolm Hood.]]

The Malcolm Hood is a type of aircraft canopy originally developed for the [[Supermarine Spitfire]]. Its concept proved valuable for other aircraft such as the North American Aviation-produced [[P-51 Mustang|P-51B & C Mustangs]] as retrofit items, and standard on later versions of the Vought [[F4U Corsair]], and somewhat emulated on the later models of the ''Luftwaffe's'' [[Focke-Wulf Fw 190]] fighter. The canopy was manufactured by the British company [[R Malcolm & Co]] which gave its name. Instead of taking a straight line between the canopy frames, the hood was bulged outward. This gave the pilot a better view to the rear.
The Malcolm Hood is a type of aircraft canopy originally developed for the [[Supermarine Spitfire]]. Its concept proved valuable for other aircraft such as the [[North American P-51 Mustang|North American Aviation P-51B & C Mustangs]] as retrofit items, and standard on later versions of the [[Vought F4U Corsair]], and somewhat emulated on the later models of the ''Luftwaffe's'' [[Focke-Wulf Fw 190]] fighter. The canopy was manufactured by the British company [[R Malcolm & Co]] which gave its name. Instead of taking a straight line between the canopy frames, the hood was bulged outward. This gave the pilot a better view to the rear.


A bulged hood replaced the Vought Corsair's "birdcage" framed canopy from the 689th production F4U-1 to provide better all-round field of view.<ref>{{cite web|url=http://www.vectorsite.net/avf4u.html#m2|title=The Vought F4U Corsair |first=Greg |last=Geobel|website=www.vectorsite.net|access-date=6 May 2018|url-status=usurped |date= 1 August 2009 |archive-url=https://web.archive.org/web/20090815091600/http://www.vectorsite.net/avf4u.html|archive-date=15 August 2009}}</ref>
A bulged hood replaced the Vought Corsair's "birdcage" framed canopy from the 689th production F4U-1 to provide better all-round field of view.<ref>{{cite web|url=http://www.vectorsite.net/avf4u.html#m2|title=The Vought F4U Corsair |first=Greg |last=Geobel|website=www.vectorsite.net|access-date=6 May 2018|url-status=usurped |date= 1 August 2009 |archive-url=https://web.archive.org/web/20090815091600/http://www.vectorsite.net/avf4u.html|archive-date=15 August 2009}}</ref>

===False canopy===
[[File:McDonnell Douglas CF-188 Hornet, Canada - Air Force JP7645832.jpg|thumb|[[McDonnell Douglas CF-18 Hornet|CF-18 Hornet]] of the [[Royal Canadian Air Force|RCAF]] displaying a false canopy]]

In the 1970s, US aviation artist [[Keith Ferris]] invented a ''false canopy'' to paint on the underside of military aircraft, directly underneath the front of the plane, the purpose of [[Military deception|deception]] which was to [[aircraft camouflage|camouflage]] the direction the aircraft is heading. This ruse was inspired by animals and fishes that have similar markings on the head and tail, so they can confuse other creatures. Pilots remain skeptical of this feature, asserting that if the enemy is close enough to see the marking, they are too close to be fooled by it.{{Citation needed|date=December 2008}}

Canada was the first operational user, painting CF-18s with a canopy on the bottom of the plane.

===Synthetic canopy===
A type of canopy used as part of a [[Synthetic vision system|synthetic cockpit]] where the pilot would not have direct sight of the outside world, but through an array of cameras. The [[British Aerospace P.125]] was to use the ''have not glass'' cockpit arrangement that would increase stealth characteristics and would block out the potential soviet threat of dazzling laser weapons.
{{Clear}}


==Gallery==
==Gallery==
<gallery mode=packed>
<gallery mode="packed">
Image:Hurricane.r4118.ground.arp.jpg|[[Hawker Hurricane]] with framed canopy slid to rear
File:Hurricane.r4118.ground.arp.jpg|[[Hawker Hurricane]] with framed canopy slid to rear
Image:RA-5C RVAH-9 on cat of USS Saratoga (CVA-60) 1970.jpg|[[North American A-5 Vigilante]] with embedded canopy
File:RA-5C RVAH-9 on cat of USS Saratoga (CVA-60) 1970.jpg|[[North American A-5 Vigilante]] with embedded canopy
Image:A10afghanistan.jpg|An [[A-10 Thunderbolt II]] with painted "false canopy" underneath the front of the plane
File:Hungarian Air Force Mikoyan-Gurevich MiG-29B (9-12A) Lofting-2.jpg|A [[Mikoyan MiG-29|MiG-29]] with painted "false canopy" underneath the front of the plane
File:A10afghanistan.jpg|Examples of "false canopy" in [[attack aircraft]]
Image:US Navy 031112-N-7732W-198 A naval aviator inspects an F-14D Tomcat.jpg|[[Grumman F-14 Tomcat]]
File:790th Fighter Order of Kutuzov 3rd class Aviation Regiment, Khotilovo airbase (356-15).jpg|Elongated double canopy is not limited to training aircraft
Image:canopy.extra.ea300.arp.jpg|The low drag canopy of an [[Extra 300]] aerobatic light aircraft.
File:Canopy.extra.ea300.arp.jpg|The low drag canopy of an [[Extra 300]] aerobatic light aircraft.
Image:Crash.arp.600pix.jpg|F-16 ejection showing the canopy blown away from the aircraft by explosive charges
File:Crash.arp.600pix.jpg|F-16 ejection [[United States Air Force Thunderbirds#Air shows|during an air show]] showing the canopy blown away from the aircraft by explosive charges
Image:typhoon f2 zj910 canard arp.jpg|The raised canopy of an [[RAF]] [[Eurofighter Typhoon|Typhoon]] F2
File:Sukhoi Su-25, MAKS 2003.JPG|The raised canopy of a [[Sukhoi Su-25|Su-25]]
Image:Sukhoi T-50 PAK FA canopy.jpg|Sukhoi [[Su-57]] prototype at MAKS 2011
Image:Sukhoi Su-35S 07 RED PAS 2013 08 Cockpit.jpg|Sukhoi [[Su-35]]
Image:General Dynamics F-16AM ‘672’ (49494630877).jpg|Elongated double canopy for a training aircraft
</gallery>
</gallery>


Latest revision as of 01:14, 28 August 2024

The bubble canopy of a Lockheed Martin F-22 Raptor
Canopy of an F-22 Raptor

An aircraft canopy is the transparent enclosure over the cockpit of some types of aircraft. An aircraft canopy provides a controlled and sometimes pressurized environment for the aircraft's occupants, and allows for a greater field of view over a traditional flight deck. A canopy's shape is a compromise designed to minimize aerodynamic drag, while maximizing visibility for pilots and other crewmembers.

History

[edit]
The raised flip-forward canopy of a Van's Aircraft RV-7
Cockpit of a Curtiss P-40 Warhawk, note the rearward visibility panels

Very early aircraft had no canopies. The pilots were exposed to the wind and weather, although most flying was done in good weather. Through World War I most aircraft had no canopy, although they often had a small windshield to deflect the prop wash and wind from hitting the pilot in the face. In the 1920s and 1930s, the increasing speed and altitude of airplanes necessitated a fully enclosed cockpit and canopies became more common.

Early canopies were made of numerous pieces of flat glass held in position by a frame and muntins. The muntins reduced visibility, which was especially awkward for military aircraft. Also, glass canopies were much heavier than acrylic canopies, which were first introduced shortly before the Second World War. Many aircraft used embedded canopies that restricted visibility for the pilot, some aircraft such as the Curtiss P-40 Warhawk and North American F-107 used rearward visibility panels, this not only intended for peripheral vision but provided ventilation and air circulation for the cockpit. The acrylic bubble canopy was used on aircraft such as the Supermarine Spitfire and Westland Whirlwind, which gave better all-round visibility and reduced weight and other advantages over the embedded canopy. It is still being used on most fighter aircraft.

Ejection seat system

[edit]
A cockpit view from a BAE Hawk showing the explosive cord in the canopy

On many high-performance military aircraft, the canopy is an integral part of the ejection seat system. The pilot cannot be ejected from the aircraft until the canopy is no longer in the path of the ejection seat. In most ejection seat equipped aircraft, the canopy is blown upwards and rearwards by explosive charges. The relative wind then blows the canopy away from the ejection path. However, on some aircraft, such as the McDonnell Douglas AV-8B Harrier II, the pilot may be forced to eject when in a hover, or when going too slow for the relative wind to move the canopy out of the path of the ejection seat. In that situation, the pilot could possibly impact the canopy when ejecting. To overcome that possibility, some aircraft have a thin cord of plastic explosive zig-zagging across the canopy over the pilot's head. In the event of an ejection, the explosive cord is activated first, shattering the canopy. Then the ejection seat and pilot is launched through the shattered canopy.

Construction

[edit]
F-15 Eagle canopy

Most modern acrylic canopies are vacuum formed. A sheet of acrylic is secured to a female mould, then the entire assembly is heated in an oven until the acrylic is pliable. The air is then removed from the mould and the acrylic sheet is drawn into it, forming the shape of the canopy. The acrylic is then trimmed to the appropriate shape and attached to an aluminum or composite frame. Some one-off canopies are made in a similar fashion, but since a mould would be too time-consuming to make, the acrylic is heated and vacuum formed until it approximates the shape the builder is seeking. This type of construction is less precise, however, and each canopy is unique. If multiple canopies will be needed, a mould is almost always used.

Openings

[edit]

Aircraft canopies have various opening methods:

Sliding (forwards/rearwards)

[edit]

Sideways

[edit]

Hinged forwards (flip-forward canopy)

[edit]

Hinged rearwards (flip-rearward canopy)

[edit]

Variations

[edit]

Clamshell canopy

[edit]
Side-opening clamshell on a BAE Hawk

A clamshell canopy uses a hinge on the rear of the cockpit, with some examples from the front or side.[1][2] A more unusual example with two components with left and right sections requiring the pilot to enter the cockpit from the rear is found on the Payen PA-22 and Avro Arrow that used this method, the latter example for the use of ejection seats.[3][4]

Stealth canopy

[edit]

Have Glass is the code name for a series of RCS reduction measures for the F-16 fighter. Its primary aspect is the addition of an indium-tin-oxide layer to the gold tinted cockpit canopy, which is reflective to radar frequencies. An ordinary canopy would let radar signals straight through where they would strike the many edges and corners inside and bounce back strongly to the radar source; the reflective layer dissipates these signals instead. Overall, Have Glass reduces an F-16's RCS (radar-cross section) by 15 percent. The gold tint also reduces glare from the sun to improve visibility for the pilot.[citation needed]

Malcolm Hood

[edit]
This Spitfire is equipped with a Malcolm Hood.

The Malcolm Hood is a type of aircraft canopy originally developed for the Supermarine Spitfire. Its concept proved valuable for other aircraft such as the North American Aviation P-51B & C Mustangs as retrofit items, and standard on later versions of the Vought F4U Corsair, and somewhat emulated on the later models of the Luftwaffe's Focke-Wulf Fw 190 fighter. The canopy was manufactured by the British company R Malcolm & Co which gave its name. Instead of taking a straight line between the canopy frames, the hood was bulged outward. This gave the pilot a better view to the rear.

A bulged hood replaced the Vought Corsair's "birdcage" framed canopy from the 689th production F4U-1 to provide better all-round field of view.[5]

False canopy

[edit]
CF-18 Hornet of the RCAF displaying a false canopy

In the 1970s, US aviation artist Keith Ferris invented a false canopy to paint on the underside of military aircraft, directly underneath the front of the plane, the purpose of deception which was to camouflage the direction the aircraft is heading. This ruse was inspired by animals and fishes that have similar markings on the head and tail, so they can confuse other creatures. Pilots remain skeptical of this feature, asserting that if the enemy is close enough to see the marking, they are too close to be fooled by it.[citation needed]

Canada was the first operational user, painting CF-18s with a canopy on the bottom of the plane.

Synthetic canopy

[edit]

A type of canopy used as part of a synthetic cockpit where the pilot would not have direct sight of the outside world, but through an array of cameras. The British Aerospace P.125 was to use the have not glass cockpit arrangement that would increase stealth characteristics and would block out the potential soviet threat of dazzling laser weapons.

[edit]

See also

[edit]

References

[edit]
  1. ^ "Aircraft cockpit canopy". Retrieved November 11, 2023.
  2. ^ "clamshell". Retrieved November 11, 2023 – via The Free Dictionary.
  3. ^ Canada, Government of Canada National Research Council (November 11, 2023). "CF-105. Proposed program of Sparrow and Canopy tests at Cornell and Sparrow jettisoning in Ottawa - NRC Digital Repository". nrc-digital-repository.canada.ca. Retrieved November 11, 2023.
  4. ^ "Avro's Broken Arrow - Aircraft InFormation.info". www.aircraftinformation.info. Retrieved November 11, 2023.
  5. ^ Geobel, Greg (August 1, 2009). "The Vought F4U Corsair". www.vectorsite.net. Archived from the original on August 15, 2009. Retrieved May 6, 2018.{{cite web}}: CS1 maint: unfit URL (link)
[edit]
Wikimedia Commons has media related to Aircraft canopies.
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