martedì 29 ottobre 2019

L'Hawker Thypoon fu un aereo monomotore, monoplano ad ala bassa progettato dall'azienda britannica Hawker Aircraft


L'Hawker Thypoon fu un aereo monomotore, monoplano ad ala bassa progettato dall'azienda britannica Hawker Aircraft sul finire degli anni trenta come aereo da caccia con il quale sostituire il precedente Hurricane, da poco entrato in servizio.
Alcuni problemi nello sviluppo ritardarono la sua messa in opera ma, una volta risolti, diventò il principale cacciabombardiere della Royal Air Force durante il secondo conflitto mondiale. Rimase in servizio fino al 1945, quando fu rimpiazzato dall'Hawker Tempest.




Storia del progetto

Il progetto del Typhoon nacque nella primavera del 1937 quando i progettisti dell'Hawker Aircraft di Kingston, guidati dall'ingegnere Sydney Camm, iniziarono a lavorare al successore del caccia Hurricane appena entrato in servizio nella Royal Air Force: su iniziativa dell'azienda, fu portato a termine il progetto (denominato "Tipo N") di un velivolo con motore Napier Sabre, un 24 cilindri ad H allora in fase di sviluppo; il progetto fu sottoposto all'Air Ministry a luglio: la risposta, arrivata il mese dopo, invitava la Hawker ad attendere una specifica richiesta in materia, di imminente emanazione.
Sydney Camm ed il suo staff si concentrarono quindi su un secondo analogo progetto ("Tipo R"), che si distingueva prevalentemente per l'impiego del motore a 24 cilindri a X Rolls-Royce Vulture; questa seconda ipotesi era cautelativa, nell'eventualità che il progetto del motore Sabre non fosse giunto a compimento.
Nel gennaio 1938 l'Air Ministry rese pubblica una prima stesura della specifica "F.18/37" che fissava i requisiti relativi ad un nuovo velivolo da caccia, che avrebbe dovuto impiegare un motore da circa 2 000 hp (valori di potenza previsti in sede progettuale sia per il Sabre che per il Vulture) ed armamento costituito da dodici mitragliatrici Browning calibro .303 in; secondo almeno una fonte, fu presa in considerazione la possibilità di impiegare quattro cannoni calibro 20 mm (anche in questo caso l'Air Ministry faceva affidamento su un progetto in via di definizione, che poi portò al cannone automatico Hispano-Suiza HS.404).
La stesura definitiva della specifica ministeriale fu emessa nei primi giorni di aprile del 1938 e l'ultimo giorno di quello stesso mese la Hawker presentò le proprie proposte, all'epoca ancora tra loro alternative, dichiarandosi disponibile a realizzare due prototipi per ogni tipo; i progetti furono valutati con favore e quattro mesi dopo l'Hawker ricevette il benestare per la realizzazione delle due coppie di aerei.
I due velivoli erano tra loro molto somiglianti, distinguendosi prevalentemente per la disposizione del radiatore del liquido di raffreddamento: nel "Tipo R", cui venne assegnato il nome "Tornado", era disposto nel ventre della fusoliera (soluzione che tradiva la parentela del nuovo aereo con l'Hurricane) mentre nel "Tipo N", battezzato "Typhoon" era sistemato all'estremità anteriore, sotto il motore, a formare il caratteristico mento. Peculiarità condivisa dai due modelli era l'accesso alla cabina di pilotaggio, che avveniva tramite sportelli simili a quelli delle auto (soluzione analoga a quella del caccia statunitense P-39).
Nell'autunno del 1939 la costruzione del "Tipo R" aveva raggiunto uno stadio più avanzato, poiché le consegne del motore Sabre erano in ritardo: l'esemplare con numero di serie P5219 andò in volo per la prima volta a Langley (nel Buckinghamshire) il 6 ottobre 1939 ai comandi del collaudatore della Hawker, Philip Gadesden Lucas.
Prima della fine del 1939, poche settimane dopo il primo volo del prototipo, alla luce degli ottimi risultati ottenuti nelle prove l'Hawker Aircraft ricevette un ordine per 1 000 esemplari dei due nuovi velivoli. Di questi 500 sarebbero stati Tornado Mk.I e 250 Typhoon Mk.I, mentre i rimanenti 250 esemplari sarebbero stati ordinati sulla base di un confronto tra i due velivoli, volto a determinare quale dei due motori era il migliore; all'epoca, il prototipo del Typhoon era ancora a terra (avrebbe volato solo il 24 febbraio del 1940), ma con lo scoppio della guerra il Regno Unito aveva assoluta necessità di aerei da combattimento ed i due progetti non erano più alternativi fra di loro.
La primavera del 1940, con gli inglesi in difficoltà nel corso della campagna di Francia, portò alla revoca di qualsiasi priorità del Tornado per consentire alla Hawker di concentrarsi sugli Hurricane. Il prototipo del Typhoon (matricola P5212) aveva evidenziato carente stabilità direzionale per cui fu riportato a Kingston per modifiche all'impennaggio; durante questa sua permanenza in officina il Typhoon fu seriamente danneggiato da un bombardamento tedesco.
Poco dopo la ripresa dei voli di prova il Typhoon ebbe un cedimento strutturale nella zona immediatamente posteriore all'abitacolo e solo grazie all'abilità del collaudatore (ancora Philip Lucas che, per la maestria ed il coraggio dimostrati nell'occasione, fu insignito della George Medal) l'aereo fu ricondotto al suolo; il cedimento fu attribuito alle modifiche apportate ai piani di coda e si rimediò al volo.
Oltre alle frequenti interruzioni dovute alla necessità di revisionare con cadenza ravvicinata il fragile motore Sabre, il programma di prove, durato circa sei mesi, fu completato quasi interamente dal primo prototipo; il secondo velivolo (matricola P5216) volò per la prima volta il 3 maggio 1941, incorporando anche le prime modifiche ai portelli del carrello d'atterraggio. Durante queste prove alla base RAF Boscombe Down, i piloti collaudatori espressero perplessità sulle potenzialità del Typhoon come aereo da caccia ed i loro dubbi raggiunsero l'Air Ministry che s'interrogò sull'opportunità della produzione in serie dell'aereo.
Nel frattempo sul secondo prototipo erano stati installati i quattro cannoni calibro 20 mm al posto delle dodici mitragliatrici; la comparsa di problemi al sistema di alimentazione dei proiettili contribuì a incrementare i timori sulla sorte del progetto ai vertici della Hawker. L'Air Ministry nutriva poi il timore che il nemico potesse avere la meglio nei cieli grazie alle prestazioni del Focke-Wulf Fw 190 appena entrato in servizio; decise perciò di accelerare lo sviluppo del Typhoon acconsentendo definitivamente alla sua produzione in serie; il primo esemplare uscì dalle officine della Gloster Aircraft Company (società controllata dalla Hawker) il 27 maggio del 1941.
La produzione si articolò su due varianti, differenti per armamento: gli esemplari con mitragliatrici furono denominati Mk.IAe quelli con cannoni calibro 20 mm Mk.IB; per quanto riguarda il motore, nel corso della produzione del primo lotto di 250 aerei l'inaffidabile versione "I" del Sabre fu sostituita dalla recente variante "II", con un guadagno di circa 80 hp di potenza.
Le prime esperienze operative furono funestate da una serie di incidenti che per qualche tempo, anche per l'assenza di testimoni oculari, rimasero inspiegabili; in seguito, nel corso di un combattimento, si scoprì che la causa era strutturale: al termine di una manovra di picchiata compiuta per attaccare velivoli nemici si poteva staccare il tronco di coda della fusoliera. I tecnici dell'Hawker ricordarono il primo incidente al prototipo e si resero conto che a causa dei ristretti tempi di sviluppo richiesti, la fragilità della struttura era un dato di fatto. La soluzione fu relativamente semplice e si ricorse ad una serie di piastre di rinforzo rivettate nella parte della struttura soggetta a cedimenti.
Nel corso degli anni successivi il Typhoon fu soggetto a progressivi affinamenti: furono risolti i problemi all'alimentazione dei cannoni, sostituiti gli sportelli d'accesso con un cupolino a goccia scorrevole e installati motori "Sabre II" nelle varianti B e C azionanti eliche quadripala. L'unico problema non completamente risolto era rimasto il ritorno di fiamma al motore nella fase di avviamento, che non di rado si concludeva con la distruzione dell'aereo (tra il 1944 ed il 1945 ventotto aerei andarono persi così).




Tecnica

Cellula

L'Hawker Typhoon era un monoplano ad ala bassa dalla struttura metallica; la parte anteriore della fusoliera era costituita da un traliccio di tubi d'acciaio, che all'estremità anteriore si collegava, per mezzo di bulloni e rivetti, al castello motore realizzato in modo analogo. Anche la radice delle ali era in traliccio di tubi, in questo caso realizzati in lega leggera. La parte posteriore della fusoliera aveva invece struttura a semiguscio con rivestimento lavorante, tecnica impiegata anche per la parte esterna delle ali.
La cabina di pilotaggio, disposta in posizione leggermente avanzata rispetto al centro del velivolo, era accessibile mediante aperture automobilistiche su entrambi i lati ed era sovrastata da una vetratura sostenuta da intelaiatura metallica che, nella versione Mk.IA, terminava immediatamente alle spalle del pilota per lasciare spazio ad una carenatura metallica che la raccordava alla fusoliera; nella versione Mk.IB la vetratura venne estesa anche alla carenatura di raccordo. Nel corso della produzione del terzo lotto di velivoli fu introdotto il tettuccio "a bolla", scorrevole verso la coda; il nuovo tettuccio fu progressivamente installato anche su gran parte gli esemplari di precedente produzione.
Le ali avevano il bordo d'entrata rettilineo e quello d'uscita rastremato verso le estremità e presentavano andamento ad ala di gabbiano invertito: la sezione interna presentava un leggero diedro negativo e la parte più esterna formava un leggero angolo positivo.
L'impennaggio era di tipo classico, ma l'equilibratore, disposto alla base della deriva, terminava anteriormente al timone e pertanto non richiedeva le caratteristiche smussature diagonali per permetterne il movimento; la forma dei piani verticali era semi-ovale, troncata verticalmente nella parte posteriore.
Il carrello d'atterraggio di tipo classico era interamente retrattile; le gambe anteriori, monoruota, erano imperniate nelle semiali circa alla metà della loro lunghezza e si ritraevano con movimento laterale verso l'interno dell'ala con meccanismo comandato idraulicamente.




Motore

Il Typhoon nacque e si sviluppò unicamente intorno al Napier Sabre a 24 cilindri ad H raffreddati a liquido, realizzato dalla Napier Aero Engines che impiegava il sistema delle valvole a fodero.
Il Sabre sviluppava (almeno nominalmente) potenze elevate ma fu afflitto a lungo da scarsa affidabilità: il primo dei prototipi fu costretto a frequenti sospensioni delle prove, poiché il motore doveva essere revisionato ogni dieci ore di utilizzo, intervallo salito a 25 ore al momento dell'entrata in servizio nei reparti della RAF.
Il Sabre utilizzava il sistema di accensione "Coffman" che poteva causare ritorni di fiamma a volte disastrosi.
La Napier riuscì a risolvere i problemi e le versioni "IIB" e "IIC" raggiungevano e superavano i 2.200 hp di potenza (pari a 1 640 kW); accoppiate a queste versioni del motore comparvero sul Typhoon eliche quadripala della de Havilland o dalla Rotol.




Armamento

Secondo quanto stabilito dalla specifica originaria, il Typhoon fu progettato con dodici mitragliatrici Browning calibro .303 in, ma già il secondo prototipo fu dotato di quattro cannoni Hispano-Suiza HS.404 calibro 20 mm. Tra gli esemplari di serie, quelli appartenenti alla variante denominata Mk.IA (circa cento) furono gli unici equipaggiati con mitragliatrici. Gli esemplari dotati dei cannoni erano identificabili dalle canna dei cannoni, considerevolmente sporgenti dal bordo d'entrata dell'ala.
Dai primi mesi del 1942 il Typhoon fu sottoposto ad un intenso ciclo di prove destinate a valutare l'impiego di carichi esterni: dapprima fu approvato l'uso di serbatoi supplementari sganciabili poi fu la volta di bombe (fino a due da 500 lb ciascuna, poco meno di 227 kg l'una), bombe fumogene, mine e infine proiettili razzo da 3 in, alloggiati su apposite rotaie agganciate nell'intradosso alare, esternamente alle gambe del carrello d'atterraggio (quattro per ogni semiala).
In seguito al buon esito in battaglia dei cannoni, la Hawker produsse un certo numero di ali equipaggiate con sei cannoni HS.404, mai utilizzate.




Impiego operativo

La decisione di introdurre il Typhoon nella RAF fu presa nell'estate del 1941 e fu condizionata dalle notizie sul prossimo schieramento del Focke-Wulf Fw 190 della Luftwaffe; in effetti la comparsa dei due velivoli sul fronte occidentale fu contemporanea: i nuovi caccia tedeschi furono schierati a Moorseele, in Belgio, nelle file del II Gruppo dello Jagdgeschwader 26 (26º Stormo Caccia), i Typhoon furono assegnati al No. 56 Squadron della RAF, alla base aerea di Duxford, presso Cambridge.
Sulla scelta del reparto incise il fatto che la pista dell'aerodromo di Duxford fosse in erba, che avrebbe contribuito a rallentare gli aerei nella fase di atterraggio, elemento utile nel caso del Typhoon afflitto inizialmente da un impianto frenante non particolarmente efficace.
Le prime operazioni con il Typhoon (ribattezzato affettuosamente Tiffy o Tiffie dal personale della RAF) portarono alla luce i problemi rilevati durante i collaudi: difficoltà in accensione e principi d'incendio al motore, infiltrazione nell'abitacolo di monossido di carbonio proveniente dai gas di scarico (causata dalla cattiva tenuta delle guarnizioni delle paratie), scarsa visibilità al posteriore oltre ai già citati cedimenti strutturali. Nei registri di volo restano tracce di incidenti considerevoli occorsi a 135 dei primi 142 Typhoon per cause non dipendenti dal nemico.
Progressivamente però, grazie all'esperienza maturata ed alla risoluzione dei problemi, il Typhoon cominciò a farsi apprezzare: la sua robustezza fu tra i fattori che contribuirono alla perdita di due soli piloti tra l'autunno del 1941 e l'agosto del 1942. I piloti si resero conto che era rischioso affrontare gli aerei nemici con duelli acrobatici alle alte quote mentre l'aereo si rivelò particolarmente adatto a contrastare gli attacchi a bassa quota dai cacciabombardieri tedeschi, anche se il primo abbattimento di un FW 190 ad opera di un Typhoon arrivò solo il 17 ottobre 1942.
Tra i vari pericoli per i piloti dei primi Typhoon vi fu la pericolosa somiglianza, in caso di particolari angoli di visuale, con il FW 190: furono almeno quattro gli abbattimenti registrati ad opera di caccia Spitfire amici, prima che (alla fine del 1942) fossero applicate strisce bianche e nere alle superfici inferiori delle ali.
Condizionati dalle ridotte prestazioni alle quote più elevate e dal potenziale pericolo di perdere la coda al termine di una picchiata, i Typhoon furono presto destinati alle operazioni a quote relativamente basse, in particolare al contrasto dei cacciabombardieri tedeschi nelle loro scorrerie definite "hit-and-run": si trattava di missioni compiute da coppie o singoli velivoli (in genere i nuovi FW 190) a quote estremamente basse, per cui il pattugliamento dei Typhoon avveniva a 200 ft (all'incirca 60 m). La frequente inoperosità in queste missioni condusse i comandanti delle squadriglie a chiedere di compiere azioni offensive e portò a sperimentare la possibilità di dotare gli aerei di carichi di caduta.
Con il passare dei mesi l'impiego del Typhoon divenne sempre più diffuso e lo stormo basato a Duxford (Squadron 56, 266 e 609) nel mese di agosto fu compreso nelle forze schierate in occasione del raid su Dieppe. Prima della fine dell'anno gli Squadron dotati del nuovo caccia furono tredici, cui se ne aggiunsero altri sei entro l'aprile del 1943.
Dall'autunno 1942 fu autorizzato l'impiego di bombe subalari ed il Typhoon cominciò ad affermarsi prevalentemente come cacciabombardiere; poiché le sue prestazioni erano marginalmente condizionate dalla presenza delle bombe, ben presto iniziarono le prove per raddoppiarle, completate ai primi del 1944. I Bombphoons, come in alcuni casi furono soprannominati, operavano sia di giorno che di notte puntando con sempre maggiore frequenza ai convogli ferroviari tedeschi in territorio francese; per altro le missioni come caccia non cessarono completamente: tra queste le operazioni di scorta ai Whirlwind ed ai Beaufighter nelle missioni di attacco alle navi nel canale della Manica.
Il 1943 registrò un ulteriore incremento nel numero dei reparti equipaggiati con i Typhoon, mentre la macchina veniva affinata e resa più efficace: l'impiego di serbatoi aggiuntivi (subalari) consentì di raggiungere le frontiere tedesche e attaccare con sempre maggiore costanza le linee di rifornimento nemiche. Crebbe anche il numero degli aerei abbattuti: nel corso dell'anno furono 380 gli aerei perduti (indipendentemente dalla causa). Tuttavia, grazie alla robustezza della struttura molti aerei riuscirono a rientrare alle basi, e nello stesso periodo i Typhoon riuscirono ad abbattere in combattimento 103 aerei, tra i quali 52 FW 190.
La modifica di maggior riguardo portò all'adozione di rotaie destinate al lancio di proiettili-razzo sotto le ali: prodotti su larga scala e già installati sui Mosquito, Beaufighter, Hurricane e Swordfish, il loro impiego ebbe inizio nell'autunno del 1943 facendo del Typhoon una delle armi più potenti a disposizione della RAF. Un Typhoon montava in genere otto rotaie subalari ma nel tempo furono realizzate varianti del sistema di aggancio che consentivano di trasportare fino ad otto razzi per ala.
Nel novembre del 1943 la Royal Air Force creò la 2nd Tactical Air Force, cui sarebbe stato affidato il supporto aereo dell'imminente invasione del continente europeo (l'operazione Overlord): la riorganizzazione dei reparti di volo avvenuta nei mesi successivi portò all'interno di questa struttura i reparti equipaggiati con Typhoon, tranne due che rimasero alle dipendenze del Fighter Command.
Nella primavera del 1944 i Typhoon furono anche impiegati per sperimentare un sistema di rilevazione dei segnali emessi dai radar di identificazione tedeschi; il sistema, noto con il nome di "Abdullah", richiedeva la preventiva conoscenza della frequenza di lavoro del radar e non si rivelò più efficiente delle informazioni sui siti ottenute con operazioni di intelligence o della ricognizione fotografica e pertanto fu abbandonato.
Il giorno dello sbarco, il 6 giugno, i Typhoon protessero i settori destinati alle forze britanniche e canadesi; in particolare il loro obiettivo principale erano i mezzi corazzati tedeschi, generalmente vittoriosi sugli attaccanti. Per consentire un rapido intervento dell'aviazione in appoggio alle truppe di terra, già dal secondo giorno di operazioni fu data la priorità alla costruzione di piste di volo ed i Typhoon furono tra i primi aerei a posarvisi; la reazione tedesca costrinse le forze aeree ad un repentino rischieramento sulle basi inglesi, il che consentì l'installazione di nuovi filtri dell'aria sui Typhoon, che soffrivano particolarmente la fine polvere che si sollevava dai campi della Normandia.
La costante presenza dei Typhoon e l'impiego di nuovi ed efficaci sistemi di coordinamento degli interventi (guidati direttamente da terra, tramite ufficiali operanti nei pressi delle avanguardie) garantirono la possibilità di attacchi "a richiesta", come nei combattimenti nella sacca di Falaise, conclusi il 21 agosto. Alla metà del mese successivo Squadrons equipaggiati con Typhoon furono trasferiti nelle basi in Belgio e prima della fine del mese fu la volta di quelle olandesi, dalle quali era possibile operare direttamente in territorio tedesco.
In dicembre, nel corso della offensiva delle Ardenne, la Luftwaffe pose in atto l'operazione Bodenplatte nel corso della quale due stormi operanti dalla base di Eindhoven subirono la perdita di diciannove Typhoon e altri quattordici danneggiati; in febbraio del 1945 i Typhoon erano di nuovo all'attacco nel corso dell'operazione Veritable e le loro operazioni si protrassero fino agli ultimi giorni di guerra: nel solo mese di aprile furono almeno trentotto i cacciabombardieri abbattuti ad opera della FlaK. I Typhoon ebbero modo di confrontarsi anche con gli aerei a getto tedeschi: le fonti riportano l'abbattimento di tre Messerschmitt Me 262 (due il 14 febbraio ed uno il 23 aprile). L'ultimo velivolo tedesco a cadere sotto i colpi del Typhoon fu un Blohm & Voss BV 138 che tentava di sfuggire ad un attacco alla propria base, il 3 maggio del 1945.
Il Typhoon non sopravvisse alla fine della guerra: solo alcuni esemplari furono impiegati per il traino di bersagli, ma la maggior parte fu radiata dai reparti di volo.




Versioni
  • F.18/37 Type N: denominazione progettuale; furono realizzati due prototipi, equipaggiati con motore Napier Sabre I da 2 020 hp (1 506 kW) e capaci di raggiungere velocità intorno ai 660 km/h;
  • Typhoon IA: serie iniziale di circa 100 esemplari i primi dei quali montavano ancora il motore Sabre IA (2 100 hp, pari a 1 566 kW), in seguito sostituito dal Sabre IIA da 2 180 hp (1 626 kW). Armamento costituito da 12 mitragliatrici Browning calibro 7,7 mm.
  • Typhoon IB: variante di maggior produzione (oltre 3 200 esemplari), equipaggiata con motore Sabre IIB (2 200 hp, pari a 1 641 kW) o Sabre IIC da 2 260 hp (1 685 kW). Armamento iniziale costituito da 4 cannoni calibro 20 mm cui si aggiunsero col tempo carichi di caduta e proiettili a razzo.
  • Typhoon FR.IB: variante da ricognizione tattica, realizzata in circa 60 esemplari mediante la conversione di velivoli di precedente costruzione; armati di soli due cannoni (quelli esterni di ogni semiala), erano equipaggiati con una macchina fotografica rivolta nella direzione di volo al posto del cannone interno nell'ala destra, una rivolta obliquamente verso il basso al posto del cannone nell'ala sinistra ed una disposta verticalmente in fusoliera.
  • Varianti sperimentali: nel corso dello sviluppo del progetto venne valutata la possibilità di utilizzare ali con apertura (sia maggiore che minore) e disegno diversi rispetto alla prima stesura, così come si pensò di dotare il motore di uno o due turbocompressori, idee che non furono tuttavia messe in pratica. Venne, al contrario, sperimentato in volo un esemplare (numero di serie R7881) di Typhoon equipaggiato con radar d'intercettazione di tipo AI Mk.IV oppure AI Mk.VA. Le prove, condotte in aprile del 1943, riscontrarono il buon funzionamento dell'apparato ma l'ipotizzata versione da "caccia notturna" (NF.IB) non venne considerata soddisfacente e pertanto non avviata alla produzione.

Utilizzatori
  • Canada
  • Royal Canadian Air Force
  • Nuova Zelanda
  • Royal New Zealand Air Force
  • Regno Unito
  • Royal Air Force.


ENGLISH

The Hawker Typhoon (Tiffy in RAF slang) is a British single-seat fighter-bomber, produced by Hawker Aircraft. It was intended to be a medium–high altitude interceptor, as a replacement for the Hawker Hurricane but several design problems were encountered and it never completely satisfied this requirement.
The Typhoon was originally designed to mount twelve .303 inch (7.7 mm) Browning machine guns and be powered by the latest 2,000 hp engines. Its service introduction in mid-1941 was plagued with problems and for several months the aircraft faced a doubtful future. When the Luftwaffe brought the formidable Focke-Wulf Fw 190 into service in 1941, the Typhoon was the only RAF fighter capable of catching it at low altitudes; as a result it secured a new role as a low-altitude interceptor.
The Typhoon became established in roles such as night-time intruder and long-range fighter. From late 1942 the Typhoon was equipped with bombs and from late 1943 RP-3 rockets were added to its armoury. With those weapons and its four 20mm Hispano autocannons, the Typhoon became one of the Second World War's most successful ground-attack aircraft.

Design and development

Origins

The unarmed first prototype Typhoon P5212 taken just before its first flight. The prototype had a small tail unit and a solid fairing behind the cockpit, which was fitted with "car door" style access hatches; no inner wheel doors were fitted and the Sabre engine used three exhaust stubs either side of the cowling.
Even before Hurricane production began in March 1937, Sydney Camm had embarked on designing its successor. Two preliminary designs were similar and were larger than the Hurricane. These later became known as the "N" and "R" (from the initial of the engine manufacturers), because they were designed for the newly developed Napier Sabre and Rolls-Royce Vulture engines respectively. Both engines used 24 cylinders and were designed for over 2,000 hp (1,500 kW); the difference between the two was primarily in the arrangement of the cylinders – an H-block in the Sabre and an X-block in the Vulture. Hawker submitted these preliminary designs in July 1937 but were advised to wait until a formal specification for a new fighter was issued.
In March 1938, Hawker received from the Air Ministry, Specification F.18/37 for a fighter which would be able to achieve at least 400 mph (640 km/h) at 15,000 feet (4,600 m) and specified a British engine with a two-speed supercharger. The armament fitted was to be twelve .303 inch Browning machine guns with 500 rounds per gun, with a provision for alternative combinations of weaponry. Camm and his design team started formal development of the designs and construction of prototypes.
The basic design of the Typhoon was a combination of traditional Hawker construction (such as used in the earlier Hawker Hurricane) and more modern construction techniques; the front fuselage structure, from the engine mountings to the rear of the cockpit, was made up of bolted and welded duralumin or steel tubes covered with skin panels, while the rear fuselage was a flush-riveted, semi-monocoque structure. The forward fuselage and cockpit skinning was made up of large, removable duralumin panels, allowing easy external access to the engine and engine accessories and most of the important hydraulic and electrical equipment.
The wing had a span of 41 feet 7 inches (12.67 m), with a wing area of 279 sq ft (29.6 sq m). It was designed with a small amount of inverted gull wing bend; the inner sections had a 1° anhedral, while the outer sections, attached just outboard of the undercarriage legs, had a dihedral of 5½°. The airfoil was a NACA 22 wing section, with a thickness-to-chord ratio of 19.5% at the root tapering to 12% at the tip.
The wing possessed great structural strength, provided plenty of room for fuel tanks and a heavy armament, while allowing the aircraft to be a steady gun platform. Each of the inner wings incorporated two fuel tanks; the "main" tanks, housed in a bay outboard and to the rear of the main undercarriage bays, had a capacity of 40 gallons; while the "nose" tanks, built into the wing leading edges, forward of the main spar, had a capacity of 37 gallons each. Also incorporated into the inner wings were inward-retracting landing gear with a wide track of 13 ft 6¾ in.
By contemporary standards, the new design's wing was very "thick", similar to the Hurricane before it. Although the Typhoon was expected to achieve over 400 mph (640 km/h) in level flight at 20,000 ft, the thick wings created a large drag rise and prevented higher speeds than the 410 mph at 20,000 feet (6,100 m) achieved in tests. The climb rate and performance above that level was also considered disappointing. When the Typhoon was dived at speeds of over 500 mph (800 km/h), the drag rise caused buffeting and trim changes. These compressibility problems led to Camm designing the Typhoon II, later known as the Tempest, which used much thinner wings with a laminar flow airfoil.

Prototypes

The first flight of the first Typhoon prototype, P5212, made by Hawker's Chief test Pilot Philip Lucas from Langley, was delayed until 24 February 1940 because of the problems with the development of the Sabre engine. Although unarmed for its first flights, P5212 later carried 12 .303 in (7.7 mm) Brownings, set in groups of six in each outer wing panel; this was the armament fitted to the first 110 Typhoons, known as the Typhoon IA. P5212 also had a small tail-fin, triple exhaust stubs and no wheel doors fitted to the centre-section. On 9 May 1940 the prototype had a mid-air structural failure, at the join between the forward fuselage and rear fuselage, just behind the pilot's seat. Philip Lucas could see daylight through the split but instead of bailing out, landed the Typhoon and was later awarded the George Medal.
On 15 May, the Minister of Aircraft Production, Lord Beaverbrook, ordered that resources should be concentrated on the production of five main aircraft types (the Spitfire and Hurricane fighters and the Whitley, Wellington and Blenheim bombers). As a result, development of the Typhoon was slowed, production plans were postponed and test flying continued at a reduced rate.
As a result of the delays the second prototype, P5216, first flew on 3 May 1941: P5216 carried an armament of four belt-fed 20 mm (0.79 in) Hispano Mk II cannon, with 140 rounds per gun and was the prototype of the Typhoon IB series. In the interim between construction of the first and second prototypes, the Air Ministry had given Hawker an instruction to proceed with the construction of 1,000 of the new fighters. It was felt that the Vulture engine was more promising, so the order covered 500 Tornadoes and 250 Typhoons, with the balance to be decided once the two had been compared. It was also decided that because Hawker was concentrating on Hurricane production, the Tornado would be built by Avro and Gloster would build the Typhoons at Hucclecote. Avro and Gloster were aircraft companies within the Hawker Siddeley group. As a result of good progress by Gloster, the first production Typhoon R7576 was first flown on 27 May 1941 by Michael Daunt, just over three weeks after the second prototype.

Operational service

Low-level interceptor

In 1941, the Spitfire Vs, which equipped the bulk of Fighter Command squadrons, were outclassed by the new Focke-Wulf Fw 190 and suffered many losses. The Typhoon was rushed into service with Nos. 56 and 609 Squadrons in late 1941, to counter the Fw 190. This decision proved to be a disaster and several Typhoons were lost due to unknown causes and the Air Ministry began to consider halting production of the type.
In August 1942, Hawker's second test pilot, Ken Seth-Smith, while deputising for Chief Test Pilot Philip Lucas, carried out a straight and level speed test from Hawker's test centre at Langley, and the aircraft broke up over Thorpe, killing the pilot. Sydney Camm and the design team immediately ruled out pilot error, which had been suspected in earlier crashes. Investigation revealed that the elevator mass-balance had torn away from the fuselage structure. Intense flutter developed, the structure failed and the tail broke away. Modification 286 to the structure and the control runs partially solved the structural problem. (The 1940 Philip Lucas test flight incident had been due to an unrelated failing.) Mod 286, which involved fastening external fishplates, or reinforcing plates, around the tail of the aircraft, and eventually internal strengthening, was only a partial remedy, and there were still failures right up to the end of the Typhoon's service life. The Sabre engine was also a constant source of problems, notably in colder weather, when it was very difficult to start, and it suffered problems with wear of its sleeve valves, with consequently high oil consumption. The 24-cylinder engine also produced a very high-pitched engine note, which pilots found very fatiguing.
The Typhoon did not begin to mature as a reliable aircraft until the end of 1942, when its excellent qualities — seen from the start by S/L Roland Beamont of 609 Squadron — became apparent. Beamont had worked as a Hawker production test pilot while resting from operations, and had stayed with Seth-Smith, having his first flight in the aircraft at that time. During late 1942 and early 1943, the Typhoon squadrons were based on airfields near the south and south-east coasts of England and, alongside two Spitfire XII squadrons, countered the Luftwaffe's "tip and run" low-level nuisance raids, shooting down a score or more bomb-carrying Fw 190s. Typhoon squadrons kept at least one pair of aircraft on standing patrols over the south coast, with another pair kept at "readiness" (ready to take off within two minutes) throughout daylight hours. These sections of Typhoons flew at 500 feet (150 m) or lower, with enough height to spot and then intercept the incoming enemy fighter-bombers. The Typhoon finally proved itself in this role; for example, while flying patrols against these low-level raids, 486(NZ) Squadron claimed 20 fighter-bombers, plus three bombers shot down, between mid-October 1942 and mid-July 1943.
The first two Messerschmitt Me 210 fighter-bombers to be destroyed over the British Isles fell to the guns of Typhoons in August 1942. During a daylight raid by the Luftwaffe on London on 20 January 1943, four Bf 109G-4s and one Fw 190A-4 of JG 26 were destroyed by Typhoons. As soon as the aircraft entered service, it was apparent the profile of the Typhoon resembled a Fw 190 from some angles, which caused more than one friendly fire incident involving Allied anti-aircraft units and other fighters. This led to Typhoons first being marked up with all-white noses, and later with high visibility black and white stripes under the wings, a precursor of the markings applied to all Allied aircraft on 

D-Day.

Switch to ground attack

By 1943, the RAF needed a ground attack fighter more than a "pure" fighter and the Typhoon was suited to the role (and less-suited to the pure fighter role than competing aircraft such as the Spitfire Mk IX). The powerful engine allowed the aircraft to carry a load of up to two 1,000 pounds (450 kg) bombs, equal to the light bombers of only a few years earlier. The bomb-equipped aircraft were nicknamed "Bombphoons" and entered service with No. 181 Squadron, formed in September 1942.
From September 1943, Typhoons were also armed with four "60 lb" RP-3 rockets under each wing. In October 1943, No. 181 Squadron made the first Typhoon rocket attacks. Although the rocket projectiles were inaccurate and took considerable skill to aim and allow for ballistic drop after firing, "the sheer firepower of just one Typhoon was equivalent to a destroyer's broadside." By the end of 1943, eighteen rocket-equipped Typhoon squadrons formed the basis of the RAF Second Tactical Air Force (2nd TAF) ground attack arm in Europe. In theory, the rocket rails and bomb-racks were interchangeable; in practice, to simplify supply, some 2nd TAF Typhoon squadrons (such as 198 Squadron) used the rockets only, while other squadrons were armed exclusively with bombs (this also allowed individual units to more finely hone their skills with their assigned weapons).
By the Normandy landings in June 1944, 2 TAF had eighteen operational squadrons of Typhoon IBs, while RAF Fighter Command had a further nine. The aircraft proved itself to be the most effective RAF tactical strike aircraft, on interdiction raids against communications and transport targets deep in North Western Europe prior to the invasion and in direct support of the Allied ground forces after D-Day. A system of close liaison with the ground troops was set up by the RAF and army: RAF radio operators in vehicles equipped with VHF R/T travelled with the troops close to the front line and called up Typhoons operating in a "Cab Rank", which attacked the targets, marked for them by smoke shells fired by mortar or artillery, until they were destroyed.
Against some of the Wehrmacht's heavier tanks, the rockets needed to hit the thin-walled engine compartment or the tracks to have any chance of destroying or disabling the tank. Analysis of destroyed tanks after the Normandy battle showed a "hit-rate" for the air-fired rockets of only 4%. In Operation Goodwood (18 to 21 July), the 2nd Tactical Air Force claimed 257 tanks destroyed. A total of 222 were claimed by Typhoon pilots using rocket projectiles. Once the area was secured, the British "Operational Research Section 2" analysts could confirm only ten out of the 456 knocked out German AFVs found in the area were attributable to Typhoons using rocket projectiles.
At Mortain, in the Falaise pocket, a German counter-attack that started on 7 August threatened Patton's break-out from the beachhead; this counter-attack was repulsed by 2nd Tactical Air Force Typhoons and the 9th USAAF. During the course of the battle, pilots of the 2nd Tactical Air Force and 9th USAAF claimed to have destroyed a combined total of 252 tanks. Only 177 German tanks and assault guns participated in the battle and only 46 were lost – of which nine were verified as destroyed by Typhoons, four percent of the total claimed.
However, after-action studies at the time were based on random sampling of wrecks rather than exhaustive surveys, and the degree of overclaim attributed to Typhoon pilots as a result was statistically improbable in view of the far lower known level of overclaim by Allied pilots in air-to-air combat, where claims were if anything more likely to be mistaken. Allied and German witness accounts of Typhoon attacks on German armour indicate that RPs did kill tanks with fair probability. Horst Weber, an SS panzergrenadier serving with Kampfgruppe Knaust south of Arnhem in the later stages of Operation Market Garden, recalled that, during a battle with British 43rd Wessex Division on 23 September 1944, 'We had four Tiger tanks and three Panther tanks... We were convinced that we would gain another victory here, that we would smash the enemy forces. But then Typhoons dropped these rockets on our tanks and shot all seven to bits. And we cried... We would see two black dots in the sky and that always meant rockets. Then the rockets would hit the tanks which would burn. The soldiers would come out all burnt and screaming with pain.'
The effect on the morale of German troops caught up in a Typhoon RP and cannon attack was decisive, with many tanks and vehicles being abandoned, in spite of superficial damage, such that, at Mortain, a signal from the German Army's Chief of Staff stated that the attack had been brought to a standstill by 13:00 '...due to the employment of fighter-bombers by the enemy, and the absence of our own air-support.' The 20 mm cannon also destroyed a large number of (unarmoured) support vehicles, laden with fuel and ammunition for the armoured vehicles. On 10 July at Mortain, flying in support of the US 30th Infantry Division, Typhoons flew 294 sorties in the afternoon that day, firing 2,088 rockets and dropping 80 short tons (73 t) of bombs. They engaged the German formations while the US 9th Air Force prevented German fighters from intervening. Dwight D. Eisenhower, the Supreme Allied Commander, said of the Typhoons; "The chief credit in smashing the enemy's spearhead, however, must go to the rocket-firing Typhoon aircraft of the Second Tactical Air Force... The result of the strafing was that the enemy attack was effectively brought to a halt, and a threat was turned into a great victory."
Another form of attack carried out by Typhoons was "Cloak and Dagger" operations, using intelligence sources to target German HQs. One of the most effective of these was carried out on 24 October 1944, when 146 Typhoon Wing attacked a building in Dordrecht, where senior members of the German 15th Army staff were meeting; 17 staff officers and 36 other officers were killed and the operations of the 15th Army were adversely affected for some time afterwards.
On 24 March 1945, over 400 Typhoons were sent on several sorties each, to suppress German anti-aircraft guns and Wehrmacht resistance to Operation Varsity, the Allied crossing of the Rhine that involved two full divisions of 16,600 troops and 1,770 gliders sent across the river. On 3 May 1945, the Cap Arcona, the Thielbek and the Deutschland, large passenger ships in peacetime now in military service, were sunk in four attacks by RAF Hawker Typhoon 1Bs of No. 83 Group RAF, 2nd Tactical Air Force: the first by 184 Squadron, second by 198 Squadron led by Wing Commander John Robert Baldwin, the third by 263 Squadron led by Squadron Leader Martin T. S. Rumbold and the fourth by 197 Squadron led by Squadron Leader K. J. Harding.
The top-scoring Typhoon ace was Group Captain J. R. Baldwin (609 Squadron and Commanding Officer 198 Squadron, 146 (Typhoon) Wing and 123 (Typhoon) Wing), who claimed 15 aircraft shot down from 1942 to 1944. Some 246 Axis aircraft were claimed by Typhoon pilots during the war.
3,317 Typhoons were built, almost all by Gloster. Hawker developed what was originally an improved Typhoon II, but the differences between it and the Mk I were so great that it was effectively a different aircraft, and was renamed the Hawker Tempest. Once the war in Europe was over Typhoons were quickly removed from front-line squadrons; by October 1945 the Typhoon was no longer in operational use, with many of the wartime Typhoon units such as 198 Squadron being either disbanded or renumbered.

Captured Typhoons

By 1943, with its change of role to ground attack, the Typhoon was constantly operating over enemy territory: inevitably some flyable examples fell into German hands. The first Typhoon to be flown by the Luftwaffe was EJ956 SA-I of 486 (NZ) Sqn. On 23 March 1943, two aircraft flown by F/O Smith and F/S Mawson were on a "Rhubarb" over France. Just as they were crossing the coast at low altitude, Mawson's Typhoon was hit by light flak. He managed to belly-land in a field near Cany-Barville but the aircraft was captured before he could destroy it. The Typhoon was repaired and test flown at Rechlin (a German equivalent to RAE Farnborough), and later served as T9+GK with "Zirkus Rosarius". EJ956 overturned and was written off during a forced landing near Meckelfeld, on 10 August 1944. On 14 February 1944, another Typhoon was captured and later flown in Zirkus Rosarius. JP548 of 174 Squadron force landed after engine failure near Blois, France; the pilot, F/O Proddow evaded capture. This Typhoon crashed at Reinsehlen on 29 July 1944, killing Feldwebel Gold.

Modifications 1941–1945

As was usual with many front line Second World War RAF aircraft, the Typhoon was modified and updated regularly, so that a 1945 production example looked quite different from one built in 1941. In the last months of the war, a number of older aircraft were taken out of storage and overhauled, sometimes seeing active service for the first time; for example, R7771 was from one of the first production batches, built in 1942 with the car-door canopy and other early production features. This Typhoon was delivered to, and served on the Fighter Interception Unit in 1942. In February 1945 R7771 was listed as being in front line service on 182 Sqn.; by then it was fitted with a clear-view "bubble" hood, rocket rails and other late series features.

Carbon monoxide seepage

The first problem encountered with the Typhoon after its entry into service was the seepage of carbon monoxide fumes into the cockpit. In an attempt to alleviate this, longer exhaust stubs were fitted in November 1941 ("Mod [modification] 239"), and at about the same time the port (left) cockpit doors were sealed. The Pilot's Notes for the Typhoon recommended that "Unless Mod. No. 239 has been embodied it is most important that oxygen be used at all times as a precaution against carbon monoxide poisoning." Despite the modifications, the problem was never entirely solved, and the standard procedure throughout the war was for Typhoon pilots to use oxygen from engine start-up to engine shut down. In addition to carbon monoxide seepage, pilots were experiencing unpleasantly high cockpit temperatures; eventually a ventilation tube helped alleviate, but did not solve the problem. In addition two small, rear opening vents were added below the port side radio hatch, just below the canopy.

Tail

A major problem, afflicting early production Typhoons in particular, was a series of structural failures leading to loss of the entire tail sections of some aircraft, mainly during high-speed dives. Eventually a combination of factors was identified, including harmonic vibration, which could quickly lead to metal fatigue, and a weak transport joint just forward of the horizontal tail unit. The loss of the tailplane of R7692 (having only 11 hours of flight recorded) on 11 August 1942, in the hands of an experienced test pilot (Seth-Smith), caused a major reassessment which concluded that the failure of the bracket holding the elevator mass balance bell crank linkage had allowed unrestrained flutter which led to structural failure of the fuselage at the transport joint.
Starting in September 1942, a steel strap was fitted internally across the rear fuselage transport joint, although this was soon superseded by Mod 286 (modification number 286), in which 20 alloy "fishplates" were riveted externally across the rear fuselage transport joint, while internally some of the rear fuselage frames were strengthened. This was a permanent measure designed to stop rear fuselage structural failures and was introduced on the production line from the 820th aircraft; between December 1942 and March 1943, all Typhoons without Mod 286 were taken out of service and modified. Modified balance weight assemblies were fitted from May 1943. Finally the entire unit was replaced with a redesigned assembly from August 1944.
Although these modifications reduced the numbers of Typhoons being lost due to tail assembly failure, towards the end of the Typhoon's life there were more tail failures, this time caused by a change to the undercarriage latch mechanism in late 1944; in high-speed flight the undercarriage fairings were pulled into the slipstream, creating an uneven airflow over the elevators and rudder resulting in tailplane and then rear fuselage structural failure. In total 25 aircraft were lost and 23 pilots killed due to tail failures.

Canopy

The Typhoon was first produced with forward-opening "car door" style cockpit doors (complete with wind-down windows), with a transparent "roof" hinged to open to the left. The first 162 Typhoons featured a built-up metal-skinned dorsal fairing behind the pilot's armoured headrest; the mast for the radio aerial protruded through the fairing. From mid- to late 1941 the solid metal aft dorsal fairing was replaced with a transparent structure (later nicknamed "The Coffin Hood"), the pilot's head armour plate was modified to a triangular shape and the side cut-outs were fitted with armoured glass; the first production Typhoon to be fitted with this new structure was R7803. All earlier aircraft were quickly withdrawn and modified. From early 1942 a rear-view mirror was mounted in a perspex blister moulded into the later "car-door" canopy roofs. This modification was not very successful, because the mirror was subject to vibration. Despite the new canopy structure, the pilot's visibility was still restricted by the heavy frames and the clutter of equipment under the rear canopy; from August 1943, as an interim measure, pending the introduction of the new "bubble" canopy and cut-down dorsal fairing, the aerial mast and its associated bracing was removed and replaced with a whip aerial further back on the rear fuselage.
Starting in January 1943, R8809 was used to test a new, clear, one piece sliding "bubble" canopy and its associated new windscreen structure which had slimmer frames which, together with the "cut-down" rear dorsal fairing, provided a far superior all-around field of view to the car-door type. From November 1943 all production aircraft, starting with JR333, were to be so fitted. However, the complex modifications required to the fuselage and a long lead time for new components to reach the production line meant that it took some time before the new canopy became standard. To have as many Typhoons of 2nd TAF fitted before "Operation Overlord" conversion kits were produced and Gloster, Hawker and Cunliffe-Owen modified older Typhoons still fitted with the car-door canopy.

Long-range fighter and fighter-bomber

From early 1943 the wings were plumbed and adapted to carry cylindrical 45 imp gal (200 l; 54 US gal) drop tanks, increasing the Typhoon's range from 690 miles (1,110 km) to up to 1,090 miles (1,750 km). This enabled Typhoons to range deep into France, the Netherlands and Belgium. Some units, such as 609 Squadron and 198 Squadron, were able to achieve notable success in air combat and ground attack operations using these long-range Typhoons.
As production continued, the Typhoon's role changed from a low-level interceptor fighter to a fighter bomber. Racks capable of carrying 500-pound (230 kg) bombs were fitted to the wings from October 1942 and were first used operationally by 181 Squadron. By mid-1943, all Typhoons off the production line were capable of carrying bombs. Bigger, solid rubber, grooved "anti-shimmy" tail wheel tyres were introduced in March 1943 on all Typhoons from the 1,001st production aircraft, EK238. The new tyres helped to make heavier, bomb-laden Typhoons more manageable during ground manoeuvres. With the introduction of the bomb racks, small extensions were added to the cannon shell case ejector slots. These allowed the casings to drop clear of bombs or drop tanks suspended from the wing racks. Because of the vulnerability of the Typhoon's liquid-cooled engine cooling system to ground fire, some 780 pounds (350 kg) of armour was added, lining the sides and bottom of the cockpit and engine compartments, as well as the radiator bath.
With the added weight of the bombs and armour, bigger brake discs were fitted to the main wheels. At first this only applied to "Bombphoons", but eventually all Typhoons used these brakes. After tests conducted in 1943, it was determined that the Typhoon was capable of carrying a 1,000-pound (450 kg) bomb under each wing. With the increased load, it was decided that the extra take-off performance conferred by a four-bladed propeller was an advantage. This led to the adoption of a four-bladed propeller unit (de Havilland or Rotol) from early 1944. Coinciding with the new propeller, it was also decided that the larger tailplanes of the Hawker Tempest were to be fitted when tests showed that they improved the handling characteristics of the Typhoon when carrying 1,000-pound (450 kg) bombs. Problems were experienced with oil seal leaks from the new propeller unit and a growing number of Typhoons were held in Maintenance Units (MUs) awaiting the arrival of new seals from the U.S. Some 200 Typhoons were manufactured with the new Tempest tails and the three-bladed propeller. A modification programme was inaugurated but it took several months before a majority of operational Typhoons had the four-bladed propeller and enlarged tailplane.
In June 1943, Hawker fitted a Typhoon with four steel "Mark I" rocket rails under each wing. Trials at the Aeroplane and Armament Experimental Establishment (A & AEE) and Air Fighting Development Unit (AFDU) showed that the combination of the RP-3 rocket and the stable, high-speed platform of the Typhoon was promising. Carrying the eight rails and rockets, it was found that the top speed was reduced by 38 mph (61 km/h), with no adverse handling effects. As a result, the Mk I rails and RP-3s were first fitted to production aircraft of 181 Squadron in October 1943. At first attempts were made to arm Typhoons with either bombs or rockets depending on requirements but it was soon decided that squadrons would specialise. By D-Day, the 2nd TAF was able to field 11 RP ("Rockphoon") Typhoon squadrons and seven "Bombphoon" squadrons.
Later in 1944, attempts were made to increase the firepower by "double banking" rockets on each rail, enabling the Typhoon to carry 16 rockets. The problems involved in operating Typhoons from 2nd TAF airstrips meant that this was not much used, although some Typhoons did fly operationally with 12 rockets, using double-banked rockets on the inner rails. When extra range was required, Typhoons could also operate carrying a drop tank and two rockets outboard of the tank under each wing. From December 1944, aluminium "Mark III" rails, which weighed 240 pounds (110 kg) per set, replaced the steel Mk Is, which weighed 480 pounds (220 kg).
In late 1943, Mk III IFF replaced the Mk I and the tailplane tip to fuselage Identification friend or foe (IFF) aerials were replaced by a "bayonet" aerial under the wing's centre section. A Beam Approach Beacon System (Rebecca) transponder unit was fitted in 1944, with the associated aerial appearing under the centre section.
Once Typhoons started operating from forward landing grounds in Normandy, it was found that the dust clouds stirred up by propeller wash consisted of over 80 percent of hard, abrasive material which was damaging the Sabre engines. The sleeve valves in particular were subject to excessive wear and it was calculated that engines would last for three take-offs. As a result, a "dome deflector" was designed and manufactured at great speed by Napier, and within a week most Typhoons had been fitted with it. In operational service these mushroom-shaped air filters, which became red hot, had a propensity for being blown off the air intake at high speed whenever a Sabre engine backfired. They were soon replaced by drum-shaped filters designed by the RAE and Vokes. These had "cuckoo clock" doors in front, which swung open with the pressure changes caused by engine backfires. This standardised filter became Typhoon Mod.420.
At the end of June 1944, a decision was taken to fit tropical air filters as standard, similar to those fitted to the three Typhoons which had been sent to North Africa in 1943. One thousand sets of the filters were to be manufactured and fitted to front line Typhoons as Mod. 421. It was estimated that these could be fitted to all Typhoons on the production lines by the end of September. Research shows that late Typhoons starting in the RB--- series were fitted with the filters, as were some rebuilt aircraft from earlier production batches. Mod. 421 appeared as a streamlined rectangular "hump", just behind the main radiator fairing and between the inner wheel doors, where the updraught carburettor intake was located.
A small, elongated oval static port appeared on the rear starboard fuselage in late 1944. This was apparently used to more accurately measure the aircraft's altitude.
One Typhoon, R8694, was used by Napier for trials with the more powerful Sabre IV, cooled using an annular radiator and driving a four-bladed propeller. The new engine and radiator arrangement required substantial modifications to the forward fuselage and engine bearer structures. Although a maximum speed of 452 mph (727 km/h) was claimed by Napier, it was decided that the modifications would not be worthwhile, mainly because of the promising development of the Tempest, and because the disruption to Typhoon production would not be sufficiently outweighed by any benefit achieved.

Sub-variants

In 1943, one Typhoon, R7881 was converted to a prototype night fighter (N.F. Mk. IB), fitted with A.I. (Airborne Interception, i.e., radar) equipment, a special night-flying cockpit and other modifications. Also in 1943, five Typhoons were modified to "Tropical" standard by fitting of an air filter in a fairing behind the main radiator housing. Three underwent trials in Egypt with 451 (RAAF) Squadron during 1943.
The Typhoon FR IB was developed in early 1944 and was used as a tactical reconnaissance fighter. In this version the port inner cannon was removed and three (one forward-facing 14-inch (360 mm) and two vertical five-inch) F24 cameras were carried in its place. Few FR IBs were built, and most served with 268 Squadron, starting in July 1944. The aircraft was never popular with the pilots, who preferred the older Mustang Is and IAs, and the inherent engine and airframe vibrations meant that photos were invariably blurred. As a consequence of these problems, the FR IB was phased out in January 1945.
In 1941, Hawker tendered the Hawker P.1009 "Fleet Fighter" in response to specification N.11/40 for a carrier-based fighter. A new centre section was to be fitted, extending the wingspan to over 45 ft (14 m), and thus increasing the wing area; the wings themselves were to be folding units, which swung and folded parallel to the fuselage, with the leading edges pointing upwards, much like the folding wings on the Grumman F6F Hellcat. The rear fuselage was to be longer and a v-style arrestor hook and associated catapult-launching gear was to be fitted. The design chosen was to result in the postwar Blackburn Firebrand design.

Flight characteristics

Flight Lieutenant Ken Trott flew Typhoons with 197 Squadron and recalled:
Rather a large aircraft shall we say, for a single-engine fighter. Terrific power. Quite something to control. I liked it from the point of view of speed and being a very stable gun platform. You could come in on a target at 400 mph and the thing was as steady as a rock.
In early March 1943, at Tangmere, the then new Squadron Leader of 486 (NZ) Squadron, Des Scott, flew a Typhoon for the first time:
She roared, screamed, groaned and whined, but apart from being rather heavy on the controls at high speeds she came through her tests with flying colours...Applying a few degrees of flap we swung on down into the airfield approach, levelled out above the runway and softly eased down on to her two wheels, leaving her tail up until she dropped it of her own accord.
We were soon back in her bay by the dispersal hut, where I turned off the petrol supply cock. After a few moments she ran herself out and with a spit, sob and weary sigh, her great three-bladed propeller came to a stop. So that was it: I was drenched in perspiration and tired out...
The performance limitations for speed were noted on the pilot's notes, published by the Air Ministry. Indicated airspeed for diving was set at 525 mph (845 km/h). The Typhoon could, if needed, be flown at 300 mph (480 km/h) with the cockpit "hood" open. Flight with undercarriage and flaps down could be made without incident, at the respective speeds of 210 and 155 mph (338 and 249 km/h). Owing to stability problems, when the aircraft was carrying bombs, the speed could not exceed 400 mph.
Notes for the management of the fuel system stated that indicated airspeeds (IAS) in excess of 380 mph (610 km/h) were not advisable when fitted with auxiliary drop tanks. Tanks were jettisoned at about 200 mph (320 km/h), but in an emergency, a release at 350 mph (560 km/h) was permitted. Tanks were to be ejected in straight and level flight only. General flying ability was positive. The maximum climbing rate was 185 mph (298 km/h) up to 16,000 ft (4,900 m) reducing speed by 3 mph (4.8 km/h) per 1,000 ft (300 m) above this mark. In stability terms, the aircraft was stable "directionally" and "laterally" but slightly unstable longitudinally, except at high speed, when it was just stable. Aileron control was light and effective up to maximum speed, but at very low speed response was sluggish, particularly when carrying ordnance. The elevator control was rather light and should not be used harshly. There was a tendency to "tighten up" in a looping aircraft. If "black out" conditions were accidentally induced in steep turns or aerobatics, the control column was to be pushed forward "firmly".
Stalling speeds were quite low. The typical Typhoon trait, as with most aircraft at the time, was to drop a wing sharply with flaps either up or down. The stalling speeds varied. The various loads depended on external fittings. All-up weight plus two 500 lb (230 kg) bombs (12,155 lb in total) with flaps up could induce a stall at 90–100 mph. With flaps down, stall was initiated at 70–75 mph. Normal all-up weight (11,120 lb) would see stall at 80–90 and 65–70 mph respectively. With all ammunition and nearly all fuel expended (9,600 lb) stall occurred at 75–80 and 65–70 mph.

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