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{{Use dmy dates|date=February 2018}}
{|{{Infobox Aircraft Begin
{{Use British English|date=February 2018}}
|name = Gloster IV<!--please avoid stating manufacturer in this field; it's stated two lines below -->
{|{{Infobox aircraft begin
|image = <!--in the ''image:filename'' format, no image tags-->
|name = Gloster IV
|caption = <!--image caption; if it isn't descriptive it should be left blank-->
|image = Gloster IV.jpg
}}{{Infobox Aircraft Type
|caption =
}}{{Infobox aircraft type
|type = Racing seaplane
|type = Racing seaplane
|manufacturer = [[Gloster Aircraft Company]]
|manufacturer = [[Gloster Aircraft Company]]
|national origin=[[United Kingdom]]
|national origin= [[United Kingdom]]
|designer = [[Henry Folland]]<!--only appropriate for individuals, not for project leaders or a company or corporation-->
|designer = [[Henry Folland]]
|first flight = 1927<!--if it hasn't happened, leave it out!-->
|first flight = 1927
|introduced =
|introduced = <!--date the aircraft entered or will enter military or revenue service-->
|introduction=
|introduction= <!--date the aircraft will enter military or revenue service, if the aircraft is still in development -->
|retired =
|retired = <!--date the aircraft left military or revenue service. If vague or multiples, it probably should be skipped-->
|status =
|status = <!--in most cases, this field is redundant; use it sparingly-->
|primary user = [[Royal Air Force]]<!--please list only one, and don't use those tiny flags as they limit horizontal space-->
|primary user = [[Royal Air Force]]
|more users =
|more users = <!--limited to three "more users" total. please separate with <br/>-->
|produced =
|produced = <!--years in production, e.g. 1970-1999, if still in active use but no longer built-->
|number built = 3
|number built = 3
|unit cost =
|unit cost =
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|}
The '''Gloster IV''' was a single-engined [[biplane]] racing [[floatplane]] designed and produced by the British aviation manufacturer [[Gloster Aircraft Company]].<ref name="Flight, Gloster IV, 1927" />
The '''Gloster IV''' was a [[United Kingdom|British]] racing [[floatplane]] of the 1920s. A single-engined [[biplane]], the Gloster IV was a development of the earlier [[Gloster III]] intended to compete in the 1927 [[Schneider Trophy]] race. One aircraft competed in the race, but retired part way through. The three aircraft built continued in use as trainers for several years.

In response to an order from the British [[Air Ministry]] for a high speed floatplane for the 1927 race, Gloster designed the ''Gloster IV''; it was a development of the [[Gloster III]] which had finished second in the 1925 race. [[Henry Folland]], Gloster's chief designer, redesigned the aircraft to minimise its [[Drag (physics)#Aerodynamics|drag]]. Akin to its predecessors, the Gloster IV was of wooden construction, featuring a [[monocoque]] [[fuselage]] and single bay wings. Both the upper and lower wings were [[Gull wing|gulled]] to allow the drag of the wing/fuselage junction to be minimised, while [[Radiator (engine cooling)|radiator]]s were built into the surfaces of the wings and [[Float (nautical)|floats]].<ref name="James p150-2">James 1971, pp. 150–152.</ref><ref name="Flight, Gloster IV, 1928" />

In total, three aircraft were built, differing in the surface area of the wings and the arrangement of the tail. All three aircraft made their first flights during the summer of 1927. A single aircraft, the Gloster IVB, competed in the Schneider Trophy 1927 race, however, it was forced to retired part way through due to the imminent failure of the propeller shaft. The three aircraft built continued to be flown as trainers by the [[High Speed Flight RAF|High Speed Flight]] for several years.


==Design and development==
==Design and development==
To compete for the 1927 [[Schneider Trophy]], Britain's [[Air Ministry]] was determined to improve Britain's performance for the last few competitions, with British entries being soundly beaten by American [[Curtiss]] floatplanes in 1923 and 1925, and failing to even enter the 1926 competition which was won by the Italian [[Macchi M.39]]. To improve on this disappointing state of affairs, the Air Ministry placed orders for designs of high speed floatplanes from [[Gloster Aircraft Company|Gloster]], [[Supermarine]] (the [[Supermarine S.5|S.5]]) and [[Short Brothers|Shorts]] (the [[Short Crusader|Crusader]]).<ref name="Mondey p43"> Mondey 1981, p.43.</ref>
During the [[interwar period]], numerous nations sought to compete for the prestigious [[Schneider Trophy]]. Seeking a competitive entry for the 1927 race, Britain's [[Air Ministry]] was determined to put forward aircraft with greater performance that those of the last few competitions, during which the British entries were soundly bested by American [[Curtiss Aeroplane and Motor Company|Curtiss]] floatplanes in 1923 and 1925, while no British aircraft even entered the 1926 competition, which was won by the Italian [[Macchi M.39]]. To this end, the Air Ministry placed orders for the design and limited production of high speed floatplanes with numerous British aircraft manufacturers, including [[Gloster Aircraft Company|Gloster]], [[Supermarine]] (who would produce the [[Supermarine S.5|S.5]]) and [[Short Brothers|Shorts]] (who developed the [[Short Crusader|Crusader]]).<ref name="Mondey p43" >Mondey 1981, p. 43.</ref>

At the time, there was significant divergence of opinion on if the optimal racing aircraft ought to be a [[biplane]] or a [[monoplane]]; while the high speed aircraft developed in Germany were almost entirely monoplanes by 1927, France and Britain both opted to pursue development of both biplane and monoplane configurations for their racing aircraft.<ref name = "naca 1">NACA 1928, p. 1.</ref> Gloster's chief designer, [[Henry Folland]], decided to persist with the biplane configuration following an extensive study of the matter, centred around three key areas: speed, wing rigidity, and application to service requirements. Certainly, [[Torsion (mechanics)|torsion]]al rigidity, and thus resistance to undesirable wing [[Aeroelasticity#Flutter|flutter]], was considerably more easily achieved with a biplane configuration than with a monoplane.<ref name = "naca 23">NACA 1928, pp. 2-3.</ref> Gloater also had a long established reputation for building high speed biplanes.<ref name = "naca 3"/>

One key performance aspect that was consistently appreciated irrespective of the basic configuration was the need to minimise [[Drag (physics)#Aerodynamics|drag]].<ref name = "naca 12">NACA 1928, pp. 1-2.</ref> It was recognised that the majority of the aircraft's head resistance would typically be attributable to two aspects of the aircraft: the fuselage and the floats. Efforts were made to minimise these areas and revise their lines to sharpen their form; this work reportedly yielded a 45 percent reduction in comparison to that of the [[Gloster III]] that had participated in the 1925 race.<ref name = "naca 4">NACA 1928, p. 4.</ref> Furthermore, the wings and fuselage were smoothly blended together, not only reducing drag but also boosting lift by 15 percent. These reductions, in combination with other improvements such as increased engine power and propeller efficiency, allegedly boosted the aircraft's maximum speed potential by 70 MPH.<ref name = "naca 45">NACA 1928, pp. 4-5.</ref>

The optimal fuselage section from an aerodynamic did not lend itself to conventional construction approaches, thus a tradeoff was made between aerodynamic shaping and ease of manufacture.<ref name = "naca 5"/> The construction technique used was known as the "double-diagonal' system amongst boatbuilders, comprising fairly narrow [[spruce]] planks at roughly 45 degree angles from the centre line while the plants of the twin skins crossed over one another at right angles. While most of the fuselage had two skins, areas that were expected to bare high loads had more [[lamination|layers applied]].<ref name = "naca 5"/> The [[fin]]s, which were covered in laminated spruce, were integral to the fuselage. The tail plane was composed of wood and was adjustable (on the ground) to any desired incident; it was largely integral with the fuselage.<ref name = "naca 5">NACA 1928, p. 5.</ref>

The wing design of the Gloster IV was somewhat unorthodox, the external covering being a part of the stress-bearing structure.<ref name = "naca 6"/> The airfoil sections were constructed using similar lamination practices to that of the fuselage. Specifically, the skin being built up upon the formers and secured to the framework of multiple [[spar (aeronautics)|spar]]s, the [[leading edge|leading]] and [[trailing edge]]s, and intermediate contour pieces, the latter being used in place of traditional [[rib]]s.<ref name = "naca 67">NACA 1928, pp. 6-7.</ref> The wings proved to be particularly strong, being capable of supporting a load equivalent to 13 times the weight of the seaplane before indicators of failure would present; this was considered particularly conducive for undertaking high rates of acceleration.<ref name = "naca 7">NACA 1928, p. 7.</ref>

The aircraft was furnished with a relatively thin-section lower wing that also had a small [[Chord (aeronautics)|chord]]. The [[wing root]]s were curved in such a manner that it could be fitted into the fuselage with a minimum of interference.<ref name = "naca 3"/> A further interference reduction measure was the positioning if all [[Bracing (aeronautics)|bracing]] wires that left the wing surfaces at large angles.<ref name = "naca 3"/> Furthermore, these lift wires imposed relatively little compression load upon the upper wing spars. A novel [[shock absorber|shock absorbing]] feature, comprising strategically placed [[rubber]] discs, was incorporated so that the landing wires would not go slack or vibrate at moments of low loading.<ref name = "naca 7"/>

The wings bore large surface-type [[Radiator (engine cooling)|radiator]]s upon them; specially developed by Gloster, these radiators, consisting of thin corrugated copper sheets, were particularly effective at preventing engine overheating.<ref name = "naca 78">NACA 1928, pp. 7-8.</ref> By positioning them on both wings, a larger proportion of the radiators was kept in the [[slip stream]] generated by the propeller.<ref name = "naca 3">NACA 1928, p. 3.</ref> The top wing was faired into the cylinder blocks of the engine.<ref name = "naca 3"/> The propeller, which was manufactured by Gloster, was composed of forged duralumin in a manner that achieved minimal blade distortion under load.<ref name = "naca 9">NACA 1928, p. 9.</ref>


The engine mounting was particularly rigid, comprising a pair of box-section engine bearers composed of [[duralumin]] and supported by a series of [[steel]] tubes.<ref name = "naca 56">NACA 1928, pp. 5-6.</ref> No [[welding]] was performed during the fabrication, the main joints relying on [[stainless steel]] [[Bolt (fastener)|bolt]]s. Directly beneath the engine bearers was the oil tank and its integral corrugated primary cooler (auxiliary coolers were present on the sides of the fuselage); its shape conformed with the contours of the surrounding fuselage.<ref name = "naca 6">NACA 1928, p. 6.</ref> All seven of the aircraft's fuel tanks were held within the fuselage; their size was restricted so that they could be readily lifted in and out of the aircraft via small openings during maintenance.<ref name = "naca 6"/>
Gloster's design, the '''Gloster IV''' was a development of the [[Gloster III]] which had finished second in the 1925 race. [[Henry Folland]], the Chief designer of Gloster, redesigned the aircraft to reduce drag. Like its predecessors, the Gloster IV was of wooden construction, with a [[monocoque]] [[fuselage]] and single bay wings. Both the upper and lower wings were [[Gull wing|gulled]] to allow the drag of the wing/fuselage junction to be minimised, while radiators were built into the surfaces of the wings and floats.<ref name="James p150-2"> James 1971, pp.150—152.</ref><ref name="Flight GIV"> ''Flight'' 1 March 1928, pp.129—134.</ref>


The aircraft was equipped with duralumin floats that incorporated a single-step curved desk design.<ref name = "naca 8">NACA 1928, p. 8.</ref> They were relatively slender and tapered to minimise drag, being supported on two pairs of [[strut]]s that met on the fuselage's centreline. The two floats were connected to one another via a series of horizontal wires instead of struts.<ref name = "naca 8"/> The inter-wing struts were designed to minimise their frontal area, being composed of forged duralumin that was lightened out.<ref name = "naca 8"/> All control elements were ran internally; the [[aileron]]s being actuated via [[torque]] tubes that ran inside the top wing while the [[elevator (aeronautics)|elevator]] and [[rudder]]'s controls ran within the fuselage. A custom variable-gearing mechanism was provisioned that permitted the ratios between the control column and the final control surface movement to be adjusted by the pilot, permitted the flight controls to be well suited to both high speed and low speed flight.<ref name = "naca 89">NACA 1928, pp. 8-9.</ref>
Three aircraft were built, differing in the surface area of the wings and the arrangement of the tail.


==Operational history==
==Operational history==
The three Gloster IVs were first flown in July-August 1927, with the two short span aircraft (the Gloster IVA and IVB) being shipped to [[Venice]] in August 1927. The Gloster IVB was finally chosen to compete with the two S.5s in the race, the Crusader having crashed due to having its control cables crossed on re-assembly.<ref name="James 153"> James 1971, p.153.</ref><ref name="Mondey p44"> Mondey 1981, p.40.</ref>
The three Gloster IVs were first flown in July–August 1927, with the two short-span aircraft (the Gloster IVA and IVB) being shipped to [[Venice]] in August 1927. The Gloster IVB was finally chosen to compete with the two S.5s in the race, the Crusader having crashed due to having its control cables crossed on re-assembly.<ref name="James 153" >James 1971, p. 153.</ref><ref name="Mondey p44">Mondey 1981, p. 40.</ref>


On the day of the race, 26 September 1927, the Gloster IVB, piloted by [[Flight Lieutenant]] [[Samuel Kinkead]] was the first aircraft to take off, competing five laps before retiring, with the race being won by Flight Lieutenant [[Sidney Webster]] flying the S.5.<ref name="Flight race p699">''Flight'' 6 October 1927, p.699.</ref> On inspection, it was found that the Gloster's propeller shaft was seriously cracked and would probably have failed if Kinkead had not retired.<ref name="James p154"> James 1971, p.154.</ref>
On 26 September 1927, the day of the race, the Gloster IVB, piloted by [[Flight Lieutenant]] [[Samuel Kinkead]] was the first aircraft to take off, completing five laps before retiring, with the race being won by Flight Lieutenant [[Sidney Webster]] flying the S.5.{{sfnp|Flight|1927|page= 699 }} On inspection, it was found that the Gloster's propeller shaft was seriously cracked and would probably have failed if Kinkead had not retired.<ref name="James p154">James 1971, p. 154.</ref> Prior to its withdrawal, the Gloster IV had demonstrated promising performance, having achieved faster lap speeds than the directly driven [[Supermarine S.5]], although not the geared model of the same aircraft.<ref name = "naca 2">NACA 1928, p. 2.</ref>


Following the race, the Gloster IVA and IVB were returned to the United Kingdom, were they were modified to improve the pilot's view by raising the upper wing and used as high speed trainers. They were both used to train pilots for the 1929 race, with the IVB crashing during a landing accident in December 1930 and the IVA used again as a trainer for the 1931 race. The original Gloster IV was meanwhile sold with the intention of being converted to a landplane and used in attempt on the [[Flight airspeed record|world air speed record]], but these plans came to nothing.
Following the race, the Gloster IVA and IVB were returned to the United Kingdom, where they were modified to improve the pilot's view by raising the upper wing and used as high speed trainers. They were used to train pilots for the 1929 race, with the IVB crashing during a landing accident in December 1930 and the IVA used again as a trainer for the 1931 race. The original Gloster IV was meanwhile sold with the intention of being converted to a landplane and used in attempt on the [[Flight airspeed record|world air speed record]], but these plans came to nothing.{{citation needed|date=July 2024}}


==Variants==
==Variants==
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==Operators==
==Operators==
;{{UK}}
;{{UK}}
*[[Royal Air Force]]
* [[Royal Air Force]]
**[[High Speed Flight RAF|High Speed Flight]]
** [[High Speed Flight RAF|High Speed Flight]]


==Specifications (Gloster IVB) ==
==Specifications (Gloster IVB)==
[[File:Gloster_IV_3-view_NACA_Aircraft_Circular_No.69.jpg|thumb|Gloster IV 3-view drawing from NACA Aircraft Circular No.69]]
{{aircraft specifications
{{Aircraft specs
<!-- if you do not understand how to use this template, please ask at [[Wikipedia talk:WikiProject Aircraft]] -->
|ref= ''Gloster Aircraft since 1917'',<ref name="James p156">James 1971, p. 156.</ref> ''[[National Advisory Committee for Aeronautics]]''<ref name = "naca 912">NACA 1928, pp. 9-12.</ref>
<!-- please answer the following questions -->
|prime units?= imp
|plane or copter?=plane<!-- options: plane/copter -->
<!--
|jet or prop?=prop<!-- options: jet/prop/both/neither -->
General characteristics

-->
|ref=Gloster Aircraft since 1917 <ref name="James p156"> James 1971, p.156.</ref>
|crew= One

|length ft= 26
<!-- Now, fill out the specs. Please include units where appropriate (main comes first, alt in parentheses). If an item doesn't apply, like capacity, leave it blank. For instructions on using |more general=, |more performance=, |power original=, and |thrust original= see [[Template talk:Aircraft specifications]]. To add a new line, end the old one with a right parenthesis ")", and start a new fully formatted line beginning with * -->
|length in= 4
|crew=One
|length note=
|capacity=
|span ft= 22
|length main= 26 ft 4 in
|length alt= 8.02 m
|span in= 7.5
|span main= 22 ft 7½ in
|span note=
|span alt= 6.90 m
|height ft= 9
|height main= 9 ft 2 in
|height in= 2
|height alt= 2.79 m
|height note=
|area main= 139 ft²
|wing area sqft= 139
|area alt= 12.9 m²
|wing area note=
|aspect ratio=<!-- sailplanes -->
|airfoil=
|airfoil= [[RAF25]]<ref name="Selig">{{cite web |last1=Lednicer |first1=David |title=The Incomplete Guide to Airfoil Usage |url=https://m-selig.ae.illinois.edu/ads/aircraft.html |website=m-selig.ae.illinois.edu |access-date=16 April 2019}}</ref>
|empty weight main= 2,613 lb
|empty weight alt= 1,185 kg
|empty weight lb= 2,613
|loaded weight main= 3.305 lb
|empty weight note=
|loaded weight alt= 1,499 kg
|gross weight lb= 3,305
|gross weight note=
|useful load main=<!-- lb -->
|max takeoff weight lb=
|useful load alt=<!-- kg -->
|max takeoff weight main=<!-- lb -->
|max takeoff weight note=
|fuel capacity=
|max takeoff weight alt=<!-- kg -->
|more general=
|more general=
<!--
Powerplant
-->
|eng1 number= 1
|eng1 name= [[Napier Lion VIIB]]
|eng1 type= W-12 liquid-cooled piston engine
|eng1 hp= 885
|eng1 note=


|prop blade number= 2
|engine (prop)=[[Napier Lion]] VIIB
|prop name= fixed-pitch propeller
|type of prop=12-cylinder water-cooled [[W engine|W block]] engine
|prop dia ft=<!-- propeller aircraft -->
|number of props=1
|prop dia in=<!-- propeller aircraft -->
|power main= 885 hp
|prop dia note=
|power alt= 660 kW
<!--
|power original=
Performance
-->
|max speed main= 295 mph
|max speed alt=257 knots, 475 km/h
|max speed mph= 295
|cruise speed main= <!--knots -->
|max speed note=
|cruise speed alt=<!-- mph, km/h -->
|cruise speed mph=
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|never exceed speed alt= <!--mph, km/h -->
|stall speed mph= 97
|stall speed main= 97 mph
|stall speed note=
|stall speed alt= 84 knots, 156 km/h
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|never exceed speed note=
|range main= <!--nm
|range alt=<!-- mi, km
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|range note=
|ceiling main= <!--ft -->
|ferry range miles=
|ceiling alt= <!--m -->
|ferry range note=
|climb rate main= <!--ft/min -->
|endurance= One hour and six minutes
|climb rate alt= <!--m/s -->
|ceiling ft=
|loading main= lb/ft²
|ceiling note=
|loading alt= kg/m²
|climb rate ftmin=
|thrust/weight=<!-- a unitless ratio -->
|climb rate note=
|power/mass main= hp/lb
|time to altitude=
|power/mass alt= W/kg
|lift to drag=
|more performance=*'''Endurance:''' 1.1 hr
|wing loading lb/sqft=

|wing loading note=
|armament=
|fuel consumption lb/mi=
|power/mass=
|more performance=
}}


|avionics=

}}
==See also==
==See also==
* [[Gloster II]]
{{aircontent
* [[Gloster III]]
<!-- include as many lines are appropriate. additional lines/entries with carriage return. -->
* [[Gloster VI]]
* [[Supermarine S.5]]
* [[Macchi M.52]]


==References==
|related=*[[Gloster II]]
===Citations===
*[[Gloster III]]
{{Reflist|colwidth=35em|refs=

<ref name="Flight, Gloster IV, 1927" >{{Cite journal |title=Homecoming of the Schneider Team |journal=[[Flight (magazine)|Flight]] |date=October 1927 |pages=693–701 |url=https://www.flightglobal.com/pdfarchive/view/1927/1927%20-%200771.html |ref={{harvid|Flight|1927}}}}</ref>
|similar aircraft=*[[Supermarine S.5]]
*[[Macchi M.52]]<!-- similar or comparable aircraft -->

|sequence=<!-- designation sequence, if appropriate -->


<ref name="Flight, Gloster IV, 1928" >{{Cite journal |title=The "Gloster IV" |journal=[[Flight (magazine)|Flight]] |date=1 March 1928 |pages=129–134 |url=https://www.flightglobal.com/pdfarchive/view/1928/1928%20-%200149.html |ref={{harvid|Flight|1928}}}}</ref>
|lists=<!-- related lists -->

|see also=<!-- other relevant information -->


}}
}}


==References==
===Bibliography===
{{Reflist}}

{{refbegin}}
{{refbegin}}
* James, Derek J. ''Gloster Aircraft since 1917''. London:Putnam, 1971. {{ISBN|0-370-00084-6}}.
*"[http://www.flightglobal.com/pdfarchive/view/1927/1927%20-%200773.html The Schneider Trophy Race]". ''Flight'', 6 October 1927. pp. 695—699.
* Mondey, David. "Britain Captures Schneider Trophy". ''[[Air Enthusiast]]'', Seventeen, December 1981 – March 1982. Bromley, Kent, UK:Pilot Press. pp.&nbsp;36–50.
*"The “Gloster IV”". ''[[Flight International|Flight]]'', 1 March 1928. pp. 129—134.
* [https://ntrs.nasa.gov/citations/19930090652 "The "Gloster IV" Seaplane (British)"] ''[[National Advisory Committee for Aeronautics]]'', 1 March 1928. NACA-AC-69, 93R19942.
*James, Derek J. ''Gloster Aircraft since 1917''. London:Putnam, 1971. ISBN 0 370 00084 6.
*Mondey, David. "Britain Captures Schneider Trophy". ''[[Air Enthusiast]]'', Seventeen, December 1981 - March 1982. Bromley, Kent, UK:Pilot Press. pp.36—50.
{{refend}}
{{refend}}


==External links==
==External links==
{{commons category|Gloster IV}}
*[http://www.livinggloucester.co.uk/search/collection/results/?id=LG00135c.jpg Painting of Gloster IV]
* [https://web.archive.org/web/20080521070904/http://www.livinggloucester.co.uk/search/collection/results/?id=LG00135c.jpg Painting of Gloster IV]


{{Gloster aircraft}}
{{Gloster aircraft}}
{{aviation lists}}


[[Category:British sport aircraft 1920–1929]]
[[Category:1920s British sport aircraft]]
[[Category:Gull-wing aircraft]]
[[Category:Gull-wing aircraft]]
[[Category:Schneider Trophy]]
[[Category:Schneider Trophy]]
[[Category:Seaplanes and flying boats]]
[[Category:Floatplanes]]
[[Category:Gloster aircraft|IV]]
[[Category:Gloster aircraft|IV]]
[[Category:Single-engined tractor aircraft]]
[[Category:Biplanes]]
[[Category:Aircraft first flown in 1927]]
[[Category:Sesquiplanes]]

Latest revision as of 10:16, 18 July 2024

Gloster IV
Role Racing seaplane
National origin United Kingdom
Manufacturer Gloster Aircraft Company
Designer Henry Folland
First flight 1927
Primary user Royal Air Force
Number built 3

The Gloster IV was a single-engined biplane racing floatplane designed and produced by the British aviation manufacturer Gloster Aircraft Company.[1]

In response to an order from the British Air Ministry for a high speed floatplane for the 1927 race, Gloster designed the Gloster IV; it was a development of the Gloster III which had finished second in the 1925 race. Henry Folland, Gloster's chief designer, redesigned the aircraft to minimise its drag. Akin to its predecessors, the Gloster IV was of wooden construction, featuring a monocoque fuselage and single bay wings. Both the upper and lower wings were gulled to allow the drag of the wing/fuselage junction to be minimised, while radiators were built into the surfaces of the wings and floats.[2][3]

In total, three aircraft were built, differing in the surface area of the wings and the arrangement of the tail. All three aircraft made their first flights during the summer of 1927. A single aircraft, the Gloster IVB, competed in the Schneider Trophy 1927 race, however, it was forced to retired part way through due to the imminent failure of the propeller shaft. The three aircraft built continued to be flown as trainers by the High Speed Flight for several years.

Design and development

[edit]

During the interwar period, numerous nations sought to compete for the prestigious Schneider Trophy. Seeking a competitive entry for the 1927 race, Britain's Air Ministry was determined to put forward aircraft with greater performance that those of the last few competitions, during which the British entries were soundly bested by American Curtiss floatplanes in 1923 and 1925, while no British aircraft even entered the 1926 competition, which was won by the Italian Macchi M.39. To this end, the Air Ministry placed orders for the design and limited production of high speed floatplanes with numerous British aircraft manufacturers, including Gloster, Supermarine (who would produce the S.5) and Shorts (who developed the Crusader).[4]

At the time, there was significant divergence of opinion on if the optimal racing aircraft ought to be a biplane or a monoplane; while the high speed aircraft developed in Germany were almost entirely monoplanes by 1927, France and Britain both opted to pursue development of both biplane and monoplane configurations for their racing aircraft.[5] Gloster's chief designer, Henry Folland, decided to persist with the biplane configuration following an extensive study of the matter, centred around three key areas: speed, wing rigidity, and application to service requirements. Certainly, torsional rigidity, and thus resistance to undesirable wing flutter, was considerably more easily achieved with a biplane configuration than with a monoplane.[6] Gloater also had a long established reputation for building high speed biplanes.[7]

One key performance aspect that was consistently appreciated irrespective of the basic configuration was the need to minimise drag.[8] It was recognised that the majority of the aircraft's head resistance would typically be attributable to two aspects of the aircraft: the fuselage and the floats. Efforts were made to minimise these areas and revise their lines to sharpen their form; this work reportedly yielded a 45 percent reduction in comparison to that of the Gloster III that had participated in the 1925 race.[9] Furthermore, the wings and fuselage were smoothly blended together, not only reducing drag but also boosting lift by 15 percent. These reductions, in combination with other improvements such as increased engine power and propeller efficiency, allegedly boosted the aircraft's maximum speed potential by 70 MPH.[10]

The optimal fuselage section from an aerodynamic did not lend itself to conventional construction approaches, thus a tradeoff was made between aerodynamic shaping and ease of manufacture.[11] The construction technique used was known as the "double-diagonal' system amongst boatbuilders, comprising fairly narrow spruce planks at roughly 45 degree angles from the centre line while the plants of the twin skins crossed over one another at right angles. While most of the fuselage had two skins, areas that were expected to bare high loads had more layers applied.[11] The fins, which were covered in laminated spruce, were integral to the fuselage. The tail plane was composed of wood and was adjustable (on the ground) to any desired incident; it was largely integral with the fuselage.[11]

The wing design of the Gloster IV was somewhat unorthodox, the external covering being a part of the stress-bearing structure.[12] The airfoil sections were constructed using similar lamination practices to that of the fuselage. Specifically, the skin being built up upon the formers and secured to the framework of multiple spars, the leading and trailing edges, and intermediate contour pieces, the latter being used in place of traditional ribs.[13] The wings proved to be particularly strong, being capable of supporting a load equivalent to 13 times the weight of the seaplane before indicators of failure would present; this was considered particularly conducive for undertaking high rates of acceleration.[14]

The aircraft was furnished with a relatively thin-section lower wing that also had a small chord. The wing roots were curved in such a manner that it could be fitted into the fuselage with a minimum of interference.[7] A further interference reduction measure was the positioning if all bracing wires that left the wing surfaces at large angles.[7] Furthermore, these lift wires imposed relatively little compression load upon the upper wing spars. A novel shock absorbing feature, comprising strategically placed rubber discs, was incorporated so that the landing wires would not go slack or vibrate at moments of low loading.[14]

The wings bore large surface-type radiators upon them; specially developed by Gloster, these radiators, consisting of thin corrugated copper sheets, were particularly effective at preventing engine overheating.[15] By positioning them on both wings, a larger proportion of the radiators was kept in the slip stream generated by the propeller.[7] The top wing was faired into the cylinder blocks of the engine.[7] The propeller, which was manufactured by Gloster, was composed of forged duralumin in a manner that achieved minimal blade distortion under load.[16]

The engine mounting was particularly rigid, comprising a pair of box-section engine bearers composed of duralumin and supported by a series of steel tubes.[17] No welding was performed during the fabrication, the main joints relying on stainless steel bolts. Directly beneath the engine bearers was the oil tank and its integral corrugated primary cooler (auxiliary coolers were present on the sides of the fuselage); its shape conformed with the contours of the surrounding fuselage.[12] All seven of the aircraft's fuel tanks were held within the fuselage; their size was restricted so that they could be readily lifted in and out of the aircraft via small openings during maintenance.[12]

The aircraft was equipped with duralumin floats that incorporated a single-step curved desk design.[18] They were relatively slender and tapered to minimise drag, being supported on two pairs of struts that met on the fuselage's centreline. The two floats were connected to one another via a series of horizontal wires instead of struts.[18] The inter-wing struts were designed to minimise their frontal area, being composed of forged duralumin that was lightened out.[18] All control elements were ran internally; the ailerons being actuated via torque tubes that ran inside the top wing while the elevator and rudder's controls ran within the fuselage. A custom variable-gearing mechanism was provisioned that permitted the ratios between the control column and the final control surface movement to be adjusted by the pilot, permitted the flight controls to be well suited to both high speed and low speed flight.[19]

Operational history

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The three Gloster IVs were first flown in July–August 1927, with the two short-span aircraft (the Gloster IVA and IVB) being shipped to Venice in August 1927. The Gloster IVB was finally chosen to compete with the two S.5s in the race, the Crusader having crashed due to having its control cables crossed on re-assembly.[20][21]

On 26 September 1927, the day of the race, the Gloster IVB, piloted by Flight Lieutenant Samuel Kinkead was the first aircraft to take off, completing five laps before retiring, with the race being won by Flight Lieutenant Sidney Webster flying the S.5.[22] On inspection, it was found that the Gloster's propeller shaft was seriously cracked and would probably have failed if Kinkead had not retired.[23] Prior to its withdrawal, the Gloster IV had demonstrated promising performance, having achieved faster lap speeds than the directly driven Supermarine S.5, although not the geared model of the same aircraft.[24]

Following the race, the Gloster IVA and IVB were returned to the United Kingdom, where they were modified to improve the pilot's view by raising the upper wing and used as high speed trainers. They were used to train pilots for the 1929 race, with the IVB crashing during a landing accident in December 1930 and the IVA used again as a trainer for the 1931 race. The original Gloster IV was meanwhile sold with the intention of being converted to a landplane and used in attempt on the world air speed record, but these plans came to nothing.[citation needed]

Variants

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Gloster IV
Serial number N224. Original larger wings. Powered by 900 hp (671 kW) direct-drive Napier Lion VIIA.
Gloster IVA
Serial number N222. Reduced span wings and modified tail. Powered by direct-drive Lion VIIA
Gloster IVB
Serial number N223. Reduced span wings and powered by geared Napier Lion VIIB engine.

Operators

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 United Kingdom

Specifications (Gloster IVB)

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Gloster IV 3-view drawing from NACA Aircraft Circular No.69

Data from Gloster Aircraft since 1917,[25] National Advisory Committee for Aeronautics[26]

General characteristics

  • Crew: One
  • Length: 26 ft 4 in (8.03 m)
  • Wingspan: 22 ft 7.5 in (6.896 m)
  • Height: 9 ft 2 in (2.79 m)
  • Wing area: 139 sq ft (12.9 m2)
  • Airfoil: RAF25[27]
  • Empty weight: 2,613 lb (1,185 kg)
  • Gross weight: 3,305 lb (1,499 kg)
  • Powerplant: 1 × Napier Lion VIIB W-12 liquid-cooled piston engine, 885 hp (660 kW)
  • Propellers: 2-bladed fixed-pitch propeller

Performance

  • Maximum speed: 295 mph (475 km/h, 256 kn)
  • Stall speed: 97 mph (156 km/h, 84 kn)
  • Endurance: One hour and six minutes

See also

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References

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Citations

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  1. ^ "Homecoming of the Schneider Team". Flight: 693–701. October 1927.
  2. ^ James 1971, pp. 150–152.
  3. ^ "The "Gloster IV"". Flight: 129–134. 1 March 1928.
  4. ^ Mondey 1981, p. 43.
  5. ^ NACA 1928, p. 1.
  6. ^ NACA 1928, pp. 2-3.
  7. ^ a b c d e NACA 1928, p. 3.
  8. ^ NACA 1928, pp. 1-2.
  9. ^ NACA 1928, p. 4.
  10. ^ NACA 1928, pp. 4-5.
  11. ^ a b c NACA 1928, p. 5.
  12. ^ a b c NACA 1928, p. 6.
  13. ^ NACA 1928, pp. 6-7.
  14. ^ a b NACA 1928, p. 7.
  15. ^ NACA 1928, pp. 7-8.
  16. ^ NACA 1928, p. 9.
  17. ^ NACA 1928, pp. 5-6.
  18. ^ a b c NACA 1928, p. 8.
  19. ^ NACA 1928, pp. 8-9.
  20. ^ James 1971, p. 153.
  21. ^ Mondey 1981, p. 40.
  22. ^ Flight (1927), p. 699.
  23. ^ James 1971, p. 154.
  24. ^ NACA 1928, p. 2.
  25. ^ James 1971, p. 156.
  26. ^ NACA 1928, pp. 9-12.
  27. ^ Lednicer, David. "The Incomplete Guide to Airfoil Usage". m-selig.ae.illinois.edu. Retrieved 16 April 2019.

Bibliography

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