Heinkel He 176

He 176
	Post war artist impression of the He 176
Role	Experimental
Manufacturer	Heinkel
First flight	20 June 1939
Status	Cancelled

The Heinkel He 176 was a German rocket-powered aircraft. It was the world's first aircraft to be propelled solely by a liquid-fueled rocket, making its first powered flight on 20 June 1939 with Erich Warsitz at the controls. It was a private venture by the Heinkel company in accordance with director Ernst Heinkel's emphasis on developing technology for high-speed flight. The performance of the He 176 was not spectacular, but it did provide "proof of concept" for rocket propulsion.

All documents regarding the He 176 were destroyed during the war. The Warsitz autobiography suggests material is in the Soviet/Russian archives. The often quoted performance data of the aircraft, such as a speed reaching 750 km/h, or 800 km/h in Warsitz's autobiography, as well as some of the drawings, are not based on sound documents. Only two true pictures of the He 176 have survived which were probably taken in Peenemünde during tests.^[1]

Design and development[]

During the 1920s, German daredevils had experimented with using solid-fuel rockets to propel cars, motorcycles, railway carriages, snow sleds, and, by 1929, aircraft such as Alexander Lippisch's Ente and Fritz von Opel's RAK.1. Solid-fuel rockets, however, have major disadvantages when used for aircraft propulsion, as their thrust cannot be throttled, and the engines cannot be shut down until fuel is exhausted.

In the late 1930s, Wernher von Braun's rocketry team working at Peenemünde investigated installing liquid-fuelled rockets in aircraft. Heinkel enthusiastically supported their efforts, supplying a He 72 and later two He 112s for the experiments. In early 1937, one of these latter aircraft was flown with its piston engine shut down during flight, at which time it was propelled by rocket power alone. At the same time, Hellmuth Walter's experiments into Hydrogen peroxide monopropellant-based rockets were leading towards light and simple rockets that appeared well-suited for aircraft installation, although at the price of considerable danger and limited duration.

The He 176 was built to utilise one of the new Walter engines. It was a tiny, simple aircraft, built almost entirely out of wood, but did possess an advanced, totally enclosed cockpit, with a frameless single-piece clear nose, through which the pilot's rudder pedal mounts were visible, and the landing gear was a combination of conventional and tricycle gear designs, with the main gear's struts intended to retract rearwards into the fuselage, with a fixed, aerodynamically faired nose wheel and strut, a clumsy plexiglas bubble installed after the pilot entered the plane as described by Warsitz and shown, barely, in the one take off photograph, which cockpit was built around Warsitz's frame, and a retractable tail wheel.^[2] The drawing here shows a flush glazing. There is no evidence this was actually used. A unique feature of the He 176 was its jettisonable nose escape system. Compressed air was used to separate the nose from the aircraft. A drogue chute was used to reduce the opening force required. After the drogue was deployed, the flush-fitting cockpit canopy was released and a conventional pilot/parachute bailout occurred.^[3]

The basic design of the He 176 was sketched out during the Neuhardenberg rocket motor and booster tests. According to Walter Künzel, "...The He 176 project came into existence during the flight trials of the He 112 at Neuhardenburg. It was a bold project for the time and involved numerous new problems. At this time the term 'interceptor' was being bandied about and the He 176 was to be the research aircraft for the 'interceptor'." In 1936, the RLM awarded Heinkel the contract to build the world's first rocket aircraft. For the mock-up, Warsitz sat on a parachute with everything everything else tailored around him, the idea being to build a small aircraft capable of speeds greater than 1,000 kilometres per hour (620 mph). The greatest diameter of the fuselage was only 700 millimetres (28 in). Overall surface area, including the fuselage, was 5 square metres (54 sq ft), with a 5 metres (16 ft) wingspan, a fuselage length of 5.5 metres (18 ft), a height with the undercarriage deployed at 1.44 metres (4.7 ft), and a wheelbase of 700 millimetres (28 in). The elliptical wing had a wing sweep of 40% and a thickness of 9% at 90 millimetres (3.5 in). The wings contained the 82% hydrogen peroxide fuel. According to Warsitz, speaking of Von Braun's cooperation during the tests a Pennemunde, "Although not technically part of the He 176-V1 project with the Walter rocket engine, naturally everything affecting it was of interest to himself and his colleagues because the He 176-V2 was to have the von Braun engine..."^[4]

Warsitz describes the world's first manned rocket flight of 20 June 1939, "On quite another heading from that originally intended she leapt into the air and flew with a yaw and a wobble. I kept her close to the ground while gaining speed, then pulled back gently on the control stick for rapid ascent. I was at 750 kms/hr and without any loss in speed the machine shot skywards at an angle somewhere between vertical and 45°. She was enormously sensitive to the controls...Everything turned out wonderfully, however, and it was a relief to fly round the northern tip of Usedom Island without a sound at 800 kms/hr. I banked sharp left again to straighten up for the airstrip, losing such speed and altitude as I could, and during this steep turn the rocket died as the tanks dried up. The abrupt loss of speed hurled me forward in my restraint straps. I pressed the stick forward, hissed rapidly over the Penne and came in at 500 kms/hr. I crossed the airfield boundary and after several prescribed little bounces the machine came to a stop."^[4]^: 97–98

Heinkel demonstrated the aircraft to the RLM, but official lack of interest led to the abandonment of the company's rocket propulsion programme. Testing of the He 176 ended with only one aircraft being built. It was put on display at the Berlin Air Museum and was destroyed by an Allied bombing raid in 1943.^[3]

Prior to the cancellation of the programme, plans had been drawn up for a more sophisticated rocket-plane, the hypothetical He 176 V2. This was never constructed, but because it bore the same designation as the aircraft that was actually flown, many books and websites mistakenly publish pictures of it to illustrate its earlier namesake. This is primarily the post war Gerd Heumann airbrush job and the basis for this is unknown.

Germany did eventually fly an operational rocket-propelled fighter, the Alexander Lippisch-designed Me 163 Komet, but this was made by the competing Messerschmitt firm, using an engine that was a further development of the one that powered the He 176.

Specifications (He 176 V1)[]

Heinkel He 176 V1 with main gear retracted

Data from Heinkel:An aircraft album^[5]

General characteristics

Crew: 1
Length: 5.21 m (17 ft 1 in)
Wingspan: 5.00 m (16 ft 5 in)
Height: 1.435 m (4 ft 8.5 in)
Wing area: 5.4 m² (58 sq ft)
Empty weight: 900 kg (1,985 lb)
Gross weight: 1,620 kg (3,572 lb)
Powerplant: 1 × liquid-fuelled rocket engine, 5.88 kN (1,323 lbf) thrust , 50 s burn time

Performance

Maximum speed: 750 km/h (466 mph, 405 kn) estimated
Cruise speed: 710 km/h (441 mph, 383 kn) estimated
Range: 109 km (68 mi, 59 nmi)
Service ceiling: 9,000 m (29,500 ft)
Rate of climb: 60.6 m/s (11,930 ft/min)
Time to altitude: 2.5 minutes to 8,000 m (26,250 ft)

References[]

^ Volker Koos, Heinkel He 176 – Dichtung und Wahrheit, Jet&Prop 1/94 p. 17–21
^ [1]
^ ^a ^b Tuttle, Jim. Eject! The Complete History of U.S. Aircraft Escape Systems. St. Paul, Minnesota: MBI Publishing Company, 2002. ISBN 0-7603-1185-4.
^ ^a ^b Warsitz, Lutz (2008). The First Jet Pilot: The Story of German Test Pilot Erich Warsitz. Barnsley: Pen and Sword aviation. pp. 69–85. ISBN 9781844158188.
^ St. John Turner, P. (1970). Heinkel:An aircraft album. Shepperton: Ian Allan. pp. 100–101. ISBN 07110 01731.

External links[]

Luft '46 entry on the He 176 V1 prototype

[1] Volker Koos, Heinkel He 176 – Dichtung und Wahrheit, Jet&Prop 1/94 p. 17–21

[2] [1]

[Tuttle-3] Tuttle, Jim. Eject! The Complete History of U.S. Aircraft Escape Systems. St. Paul, Minnesota: MBI Publishing Company, 2002. ISBN 0-7603-1185-4.

[lw-4] Warsitz, Lutz (2008). The First Jet Pilot: The Story of German Test Pilot Erich Warsitz. Barnsley: Pen and Sword aviation. pp. 69–85. ISBN 9781844158188.

[Stjohnturner-5] St. John Turner, P. (1970). Heinkel:An aircraft album. Shepperton: Ian Allan. pp. 100–101. ISBN 07110 01731.

[1]

[2]

[3]

[4]

[5]

v t Reich Air Ministry (RLM) aircraft designations
1 to 100	8-1¹ Fi 2 8-3¹ 8-4¹ Fi 5 DFS 6 8-7¹ Gö 8 Gö 9 Do 10 Do 11 8-12⁴/Do 12 Do 13 Do 14 Do 15 Do 16/Wn 16 Do 17 Do 18 Do 19 Do 20 8-21¹ Do 22 Do 23 Do 24 Do 25³/Kl 25 Do 26/Kl 26 8-27/Do 27³/Kl 27⁵ 8-28¹ 8-29/Do 29 Fw 30 Kl 31 Kl 32 Ju 33 Ju 34 Kl 35 Kl 36 He 37³ He 38/Ju 38 DFS 39 BV 40/DFS 40 He 41³ Fw 42/He 42 Fw 43 Fw 44 He 45 He 46/Ju 46 Fw 47/ Ju 48 He 49/Ju 49 He 50/Ju 50 He 51 He 52/Ju 52 Ju 53 DFS 54/NR 54 Fw 55/NR 55 Fw 56 8-57⁴/Fw 57 Fw 58/He 58 He 59 He 60/Ju 60 Fa 61/Fw 61/He 61 Fw 62/He 62 8-63⁴/He 63 Ar 64/He 64 Ar 65/ Ar 66/He 66 Ar 67 Ar 68 Ar 69 He 70 8-71⁴/He 71 He 72 He 73³ He 74 Al 75 Ar 76/FZG 76⁶ Ar 77 Ar 78³ Ar 79 Ar 80 Ar 81 8-82⁴ 8-83¹ Al 84 Ju 85 Ju 86 Ju 87 Ju 88 Ju 89 Ju 90 Ju 91³ Ju 93³ Ju 94³ Ar 95 Ar 96 Fi 97 Fi 98 Fi 99 Fi 100³/He 100
101 to 200	Al 101 Al 102 Al 103/Fi 103 Fh 104 Kl 105 Kl 106 Kl 107 Bf 108 Bf 109/Bf 109R⁶ Bf 110 He 111/He 111U⁶ He 112 He 113⁶ He 114 He 115 He 116 He 117³/Hs 117 He 118 He 119 Hs 121 Hs 122 Hs 123 Hs 124 Hs 125 Hs 126 Hs 127 Hs 128 Hs 129 Hs 130 Bü 131 Bü 132³/Hs 132 Bü 133 Bü 134 Ha 135 Ha 136/Hü 136 Ha 137 BV 138 Ha 139 Ha 140 BV 141 BV 142 BV 143 BV 144 Go 145 Go 146 Go 147/ Go 148³ Go 149 Go 150 Kl 151 /Ta 152 Kl 153³/Ta 153 Kl 154³/Ta 154 BV 155/Kl 155³/Me 155 Fi 156 Fi 157 Fi 158 Fw 159 Ju 160 Bf 161 Bf 162/He 162 Bf 163/Li 163/Me 163 Me 164/MeC 164 Bf 165 Fi 166/FK 166 Fi 167 Fi 168 Fi 169³ He 170 He 171³ He 172 He 173³ He 174³ 8-175⁴ He 176 He 177 He 178 He 179⁵ Bü 180/He 180 Bü 181 Bü 182 Bü 183³/Ta 183 Fl 184 Fl 185 Fw 186/Ju 186 Fw 187/Ju 187² Fw 188³/Ju 188 Fw 189 Fw 190 Fw 191 Ao 192 Ao 193³/DFS 193 DFS 194/Me 194 Ar 195 Ar 196 Ar 197 Ar 198 Ar 199 Do 200^4,6/Fw 200
201 to 300	Si 201 Si 202 DFS 203 Si 204 8-205¹ Fw 206 8-207¹ Me 208 Me 209 (I)/Me 209 (II) Me 210 Hü 211 8-212⁴/Do 212 8-213¹ Do 214 Do 215 Do 217/ Do 218³ He 219 Do 221³ BV 222 Fa 223 Fa 224 /Fa 225 BV 226/Ho 226 FGP 227 DFS 228 Go 229/Ho 229 8-230/DFS 230 Ar 231 Ar 232 Ar 233 Ar 234 Do 235 Fa 236³ BV 237 BV 238 8-239¹ Ar 240 Go 241 Go 242 Me 243³ Go 244 Go 245³ BV 246 8-247¹ Ju 248 BV 250/Ho 250 Ho 251 Ho 252 Ju 252 Fi 253/Ho 253 Ho 254/Ta 254 8-255¹ Fi 256 SK 257 8-258¹ 8-260¹ Me 261/Me 261w Me 262 Me 263 (1941)/Me 263 (1942)/Me 263 (1945) Me 264 Fl 265/Me 265 /Go 266³ Ju 268 Fa 269 He 270 We 271 He 272³ He 273³ He 274 ⁵ He 276³ He 277 He 279³ He 280 He 281³ Fl 282 Fa 284 Ju 286 Ju 287 Do 288^4,6/Ju 288 Ju 289³ Ju 290 As 292/Hs 292³ Hs 293 Hs 294 Ar 296/Hs 296 Hs 297 Hs 298 Ju 299³ Fw 300
301 to 349	8-302¹ 8-303¹ 8-304¹ 8-305¹ 8-306¹ 8-307¹ 8-308¹ Me 309 Zwilling Me 310 8-311¹ 8-312¹ 8-313⁴ 8-314¹ 8-316¹ Do 317 Do 318 He 319 Me 320³ Me 321 Ju 322 Me 323/ZMe 323 8-324¹ Fa 325/Fw 325³ 8-326¹ Me 327 Me 328 Me 329 Fa 330 DFS 331 DFS 332 Fi 333 Ar 334³/Me 334 Do 335 Ju 337³ 8-338¹ Ar 340 WNF 342 He 343 Rk 344/So 344⁵ Go 345 DFS 346 8-348¹ Ba 349
Post-349 (non-sequential)	Ju 352 Fi 356/ Me 364² Me 368³ Ju 388 Ju 390 Fw 391 Ar 393³ Ar 396 Ta 400 Me 409 Me 410 Do 417 He 419 ZMe 423 /Ka 430 Ar 432 Do 435 Ar 440 8-445⁴ Ju 452 Me 462² Ju 488 Fw 491 He 500 Me 509 He 519 8-520⁴ ZSO 523 Ar 532 8-534⁴ Do 535/He 535 Me 600² Me 609 Ar 632 Do 635/He 635/Ju 635
¹ Not assigned • ² Unofficial/proposed • ³ Assigned, but not used before RLM was dissolved • ⁴ Assigned to captured aircraft • ⁵ Unconfirmed • ⁶ Propaganda/cover designation Note: Official RLM designations had the prefix "8-", but this was usually dropped and replaced with the manufacturer's prefix. List of RLM aircraft designations

Heinkel He 176

Contents

Design and development[]

Specifications (He 176 V1)[]

See also[]

References[]

External links[]