German Explosive Ordnance - Rockets Introduction and Part 1

German Explosives

German Rockets



Introduction

General

The value of the rocket as a weapon of war has been proved during the conflict of the past 5 years.  Even with the vast amount of work that has been done on the rocket during this war, there is a great deal of work still to be done in perfecting it.  During the past few years research work in this field has brought about the following improvements over the old types:

1.  The accuracy has been increased by rotating the projectile.  This is effected by using skew venturi.  The rotations developed range between 1,000 and 1,500 r.p.m. and considerably reduce the deviations of the projectile due to the influence of the wind.

2.  The range has been increased by using a greater weight of propellant in addition to the development of a new powder: Nitrodiglycol.  This new powder is more efficient than black powder and results in greater range and less smoke formation on firing.

3.  Multibarrel projectors carrying up to 42 rounds have been developed by the Germans to effect a greater rate of fire.  Reloading these new projectors is carried out mechanically.

When these first new efforts proved successful, great new exertions were made on the part of the Germans to develop more effective rocket weapons: rocket-propelled depth charges, anti-tank weapons, anti-aircraft rockets, flares, and aircraft bombs with rocket propulsion were tried out; and at the peak of the research program came the radio-controlled long range rocket which was still under development at the end of the war in Europe.

Solid Fuel Rockets

The following is a brief resume on the construction of the rocket at the beginning of this war.  The rocket motor consists of the combustion chamber sealed at one end and the base plate which threads into the open end of the combustion chamber.  The base plate has a series of holes in it, some of which are parallel to the axis of the rocket and some of which are inclined 45 degrees to the axis.

Propellant.  The propellant used at this time is the solid nitrodiglycol type.  Its advantage lies in the high calorific value and smokelessness, also in the slow rate of burning.  Its density is 1.5 kg/m^3, which is less than black powder, but this is compensated by the higher calorific value.  The range for an 8.6 cm rocket using this type of propellant is 1,200 meters.  Maximum velocity is 200 m/sec with a burning time of 5 seconds.  This is not considered very good performance and so the rocket is used only against low level attacks.

As long as long range is not required, powder may be used for rocket propulsion.  It must, however, be remembered that powder rockets are heavy (heavy combustion chamber) and that the charge/weight ratio is small.  An attempt might therefore be made to develop powder rockets o flight construction, by using some arrangements for reloading the combustion chamber so that a larger weight of propellant may be carried.  This should increase the range.  Experiments on these lines have been carried out in Germany, but it was found that in order to insure reliable operation, the constructional complications became very great.  This reduces use of the main advantages of rockets - less weight and simple construction.

Stabilization.  The foundation for the method of stabilization was the spinning shell.  By placing the ventureis askew to the main axis of the rocket produced a sufficient spin.  This action gives rise to a gyroscope effect and tends to resist all external disturbing forces.  This method has given very good results and is greatly superior to the fin stabilization, which is inherently subject to wind errors.

Liquid Fuel Rockets

The liquid fuel rockets are superior to power rockets as regards to:

1. Weight ratio of the propellant carried.

2. Greater energy available in the liquid propellant.

Liquid Propellant.  For example, when 5 gm of powder is required for an impulse of 1 kg/sec, only 0.3 to 0.4 gm of hydrogen-oxygen mixture is required for the same impulse.  It will be seen that there is, in this case, a vast difference in the energy content of the propellant, moreover, the density of the liquid fuels is far greater than that of powder.  The time of burning is increased, greater velocity is reached, and altogether the advantage lies in much lighter construction, i.e., deadweight of the rocket, since the fuel and oxygen containers can be made of thin steel sheet.  The combustion chamber also becomes lighter.

However, the load on the combustion chamber becomes a problem, because of the greater energy and therefore higher temperatures; but this problem was solved.  Combustion temperatures for powder rockets are approximately 980 to 1,000 degrees Celsius; they are 3,000 to 4,000 degrees Celsius for oxygen-hydrogen mixtures, and in addition there is the boiling point of the mixture, the boiling points for hydrogen and oxygen being 253 and 183 degrees Celsius respectively.  These temperatures make severe demands on the material, and it is necessary to look for new alloys which can withstand these demands.

It is, of course, possible to consider other fuels than a hydrogen-oxygen mixture, e.g., petrol, benzol, methyl alcohol, petroleum, spirit, etc., together with liquid-oxygen.  These fuels have the advantage of a high boiling point and do not require special materials for the tanks; these are only needed for the oxygen.

Fuel Tanks.  For the hydrogen and oxygen containers, for example, it is possible to use an alloyed steel, covered with a thin lead coating; if the rocket is to be used only once.  At low temperatures (-183 to -253 degrees Celsius), all metals except copper become hard and brittle; however, copper remains ductile even down to such temperatures, and is therefore the best material to use for the fuel tanks.

The containers for liquid fuels at temperatures lower than -160 degrees Celsius are best made spherical (e.g., V-1), since this form offers the greatest strength.  They must be insulated, but this offers no difficulties.

PC 1400 FX Radio-Controlled Glider Bomb

Overall Length: 130 inches

Length of the Control Unit Housing: 16 inches

Length of Fins at the Root: 31 and 5/8 inches

Length of Fins at Outer Edge: 18 and 1/4 inches

Length of Fin Leading Edge: 18 and 5/8 inches

Max. Width of Tail Unit: 48 inches

Min. Width of Tail Unit: 33 and 3/4 inches

Span of the Fins: 58 and 3/4 inches

Weight of Filling: 270 kilograms

Total Weight: 1,650 kilograms (approx.)

General Description: The PC 1400 FX is a radio-controlled glider bomb designed for attack against capital ships or similar targets.  The complete missile consists of three distinct units: the H.E. armour piercing warhead, the control unit housing, and the tail assembly.  There are four aluminum alloy fins secured ot the missile at approximately the center of gravity.  The purpose of these fins is to give the bomb sufficient lift so that the control surfaces in the tail unit can exercise adequate influence.

Warhead: The warhead is an ordinary PC 1400kg bomb to which four above-mentioned fins have been attached.  It has one transverse fuze pocket located aft the H-type suspension lug.  Two horizontal exploder tubes are centered in the warhead to insure high order detonation on impact.  The usual filling for the warhead is 50/50 amatol.

Control Unit Housing: The control unit housing, made of cast magnesium alloy, is attached between the base of the H.E. warhead and the tail unit.  This space contains the gyroscopes, radio receiver, power source, and a small demolition charge for destruction of the control unit.

There are two gyroscopes mounted 90 degrees to each other in the after section of the control unit.  These two gyros control the stabilizing flaps on two of the tail surfaces.

The directional apparatus consists of the radio receiver and the servo motors which take the impulses from the radio.  The power source is a 24-volt battery.  This equipment operates four control surfaces measuring 8 cm by 1 and 1/2 cm, which are located on the trailing edge of each of the four fins.  These control surfaces are actuated in pairs; two of them control the lateral direction of the bomb, and the other two, its trajectory.

The demolition charge consists of approximately 1 and 1/2 pounds of penthrite wax.  It is fuzed usually with the VZ 80 "all-ways action" fuze.  The main purpose of this charge is to destroy the directional equipment in case the fuze for the main charge in the warhead fails to function.

Tail Unit: The tail unit consists of an inner cast magnesium alloy tail cone fitted with two long and two short case magnesium alloy struts.

Operation.   Bombing with the PC 1400 FX is carried out in conjunction with the Lotfe 7D bomb sight.  The only extra duty of the operator being to switch on the gyroscope of the bomb some 2 minutes before the moment of release.  The aim of the bombardier is taken the same way as in ordinary bombing.  AS the bomb is released, the aircraft is throttled back and put into a climb with the flaps down.  This action is to insure not overshooting the missile.  Once the requisite reduction in speed has been effected, the pilot flattens out.

At this time, corrections in the course of the missile can be taken if necessary.  At the moment of release, the bombardier starts a stop-watch going.  The bomb cannot be controlled during the first 15 seconds after release.  On the 16th second, the operator takes control of the missile.  It has been estimated that the missile can be guided with a margin of error of only 50 meters from an altitude of 7,000 meters.

The bomb takes 42 seconds to reach the ground from 7,000 meters, and 38 seconds from 6,000 meters.  The lowest possible height for satisfactory release is 4,000 meters.  At the moment of impact, the bomb, dropped from 7,000 meters is said to have a velocity of 270 meters per second.

Next Time: Rockets (Part 2)

Source: German Explosive Ordnance Vol. 1: Bombs, Rockets, Grenades, Mines, Fuzes & Igniters

German Explosive Ordnance - PC Bombs

German Explosives

PC 500kg, D500 E, and D500 L

D500 E
Overall length: 68.2 inches
Body Length: 42.3 inches
Body Diameter: 15.6 inches
Wall Thickness: 1.4 wall to 9 inches at point
Tail Length: 27.5 inches
Tail Width: 15.5 inches
Filling: Cast TNT: 60/40 Amatol; TNT and Wax.
Weight of filling: 75 kilograms
Total Weight: 539 kilograms
Charge/Weight Ratio: 14%


D500 L
Overall length: 78.8 inches
Body Length: 53.8 inches
Body Diameter: 15 inches
Wall Thickness: 0.9 wall to 9.3 inches at point
Tail Length: 30.5 inches
Tail Width: 16 inches
Filling: Cast TNT; TNT and Wax.
Weight of filling: 78 kilograms
Total Weight: 416 kilograms
Charge/Weight Ratio: 19%


Color: Field gray or aluminum overall.  Dark blue stripe on tail cone.


Construction: There are two types of the PC 500: Type E and Type L.  Both types have a one-piece forged steel body and one transverse fuze pocket.  The fuze pocket is located aft the horizontal suspension lug.  The bomb is machined to accommodate a male type tail closing plug.  The tail assembly can be either of sheet steel or magnesium alloy.  The tail unit in either case is of the cylinder type.  Both types have the sheet metal ring which is used for bracing the fins.  The tail unit is secured to the bomb body by means of 12 screws.


Suspension: Horizontal by means of an eyebolt or T-type lug.

PC 1000-kg ESAU

Overall length: 85.5 inches
Body Length: 58.5 inches
Body Diameter: 19.8 inches
Wall Thickness: 1.5 inches at wall to 13.4 inches at point
Tail Length: 32 inches
Tail Width: 19.8 inches

Filling: TNT and Wax
Weight of filling: 160 kilograms
Total Weight: 1,000 kilograms
Charge/Weight Ratio: 16%

Color: Sky blue with aluminum tail.  Blue stripe on tail cone.


Construction: The body of the PC 1,000-kg armor-piercing bomb is of one-piece forged steel.  The nose is very heavy and this construction decreases the size of the explosive cavity.  There is one fuze pocket located aft the suspension lug.  Through the center of the explosive cavity is an additional exploder tube.

The tail unit is constructed of magnesium alloy and is attached in the same manner as used with the SC 1,000 series.


Suspension: Horizontal.  This bomb uses a suspension band with the H-type lug secured to it.  At 90 degrees from the suspension lug in both directions are two trunnion bolts for dive-bombing.





PC 1,400-kg FRITZ

Overall length: 110.8 inches
Body Length: 75.7 inches
Body Diameter: 22 inches
Wall Thickness: 1.25 in wall to 12.5 inches at point
Tail Length: 43.3 inches
Tail Width: 22 inches

Filling: TNT and Wax; Trialen
Weight of filling: 300 kilograms
Total Weight: 1,400 kilograms
Charge/Weight Ratio: 21.4%

Color: Sky blue overall or sky blue with aluminum tail.  Red or blue stripes on tail.


Construction: The bomb body is of one-piece forged steel construction.  There is one transverse fuze pocket located aft of the carrying lug.  Two exploder tubes containing tetryl run lengthwise through the explosive cavity just left of the fuze pocket.  The base of the bomb body is closed with a male base plate.

The bomb tail is of the cylinder type, the cylinder being 6 inches deep.  It is constructed of either cast aluminum or magnesium.


Suspension: Suspension of the bomb in the racks is horizontal by means of an H-type lug or by two trunnions on the carrying band.






PC 1,600-kg

Overall length: 110.8 inches
Body Length: 65.7 inches
Body Diameter: 21 inches

Filling: RDX, aluminum and wax
Weight of filling: 230 kilograms
Total Weight: 1,600 kilograms
Charge/Weight Ratio: 14.4%

Color: Blue stripes on tail.

Construction: The body is of two-piece construction with a cylinder type tail.  It is designed to penetrate 180mm of panzer steel or 2.5 meters of reinforced concrete at a striking angle of 60 degrees.

Suspension: Horizontal.

Remarks: Usually dropped at an altitude of 4,000 to 6,000 meters.

The production of this bomb was stopped in October 1942.  Bombs then on hand were used and not replaced.

PC-RS Bomb Series

Description: This series of rocket assisted armour piercing bombs consists of the following missiles; PC 500 Rs, PC 1000 Rs, and the PC 1800 Rs.  In general, the three types are of similar three piece construction; the warhead, the distance piece, and the tail section.  The tail section contains the rocket motor.

Each series is fitted for horizontal suspension by means of a single "eye" or H-type suspension lug.  In addition to the suspension lug, there is a set of trunnions fitted to the bomb.  They are located 90 degrees around from the lug and approximately 2 inches further aft.  The trunnions are used for suspension only under dive-bombing conditions.

Warhead: The warhead is identical to the normal armour-piercing (PC) bombs of respective size except for the fuze pocket arrangement.  In the PC-Rs series the transverse fuze pocket has been omitted.  The impact fuze is part of the 49 series and is found screwed into the base of the warhead.  The warhead is filled through the base and the explosive cavity is then closed by means of a male type base plate.

Distance Piece: The distance piece is a steel cylinder internally threaded at both ends.  Its main purpose is to connect the warhead to the tail section.  The charging head for the fuzing system is threaded into the after end of the distance piece just forward of the tail piece junction.  The electrical leads from the charging head pass through this cylinder; one to the impact fuze and the other to the pyrotechnic rocket igniter.

Tail Section: The tail section is another steel cylinder with twelve stabilizing fins at the after end.  This total of 12 fins is made up of 4 large fins and 8 smaller fins.  The end of the tail unit is closed by means of a fixing plate.  The fixing plate has six circular openings positioned so as to take the end of the venturi tubes from the rocket motor.  The large opening in the center of the fixing plate will allow any gas emitted from the pressure release valve in the rocket motor to escape.

Rocket Motor: The rocket motor is housed within the tail section.  It consists of the following parts: main pressure chamber, six propulsion venturi, six metal spacers at each end of the pressure chamber to hold and properly space the propellant sticks, an igniter pad of black powder, and a spring loaded pressure release valve used as a safety measure.

There are 19 sticks of rocket powder in each motor, dimensions of which can be found in the accompanying chart.  The latest type of rocket powder used in these missiles was dinitrodiglycol.

Operation: When the missile is released from the mother aircraft, an electrical charge is imparted to the charging head.  This charge is passed on to both the pyrotechnic fuze and the electrical impact fuze.  The pyrotechnic delay is ignited immediately.  After 3 or 4 seconds it burns through to the black powder igniter.  The black powder then ignites and starts the propellant powder in motor burning.

The electrical charge which is passed on to the impact fuze loads and the condensers and arms the fuze.  On impact one or all of the trembler switches close.  This action completes the firing circuit and sets off the electrical detonator which in turn sets off the gaine and finally the main charge.

PC 500 RS

Overall length: 81 and 3/4 inches

Body Length: 33 inches
Body Diameter: 11 and 1/4 inches

Filling: Very pure cast TNT in an aluminum container in the nose.
Rest of filling is alternate layers of good and poor quality TNT.

Weight of Filling: 14 kilograms
Total Weight: 490 kilograms
Charge/Weight Ratio: 3%


Color and Markings: NL 6 40
PC 500 RS is stenciled in black on the side of the bomb.


Construction: The rocket container is attached to the base of the bomb by a cylindrical steel distance piece which is threaded internally on both ends - one end threading over the bomb base and the rocket container threading into the other end.

In the side of the distance piece is filled an electric fuze head marked (49) B1 with charging plungers connecting to (49) B11 and (49) B111 fuzes.  Fuze (49) B11, a pyrotechnic fuze with a delay of 3 seconds is used for igniting the rockets.  Fuze (49) B111 is an electrical impact fuze fitted into the base plate of the bomb, giving a fractional delay action to the bomb after striking the target.

Nineteen rockets are placed in the rocket container.  Twelve are 25 and 5/8 inches long by 2 and 1/16 inches in diameter, and seven are 27 and 5/8 inches long by 2 and 1/16 inches in diameter.  Weight of rocket section is 146 kilograms.

The tail is 2 feet 4 inches (large diameter): 1 foot 10 inches (small diameter)


Suspension: Horizontal.

PC 1000 RS

Overall length: 86 and 3/4 inches

Body Length: 45 inches
Body Diameter: 14 and 1/2 inches

Filling: Very pure cast TNT in an aluminum container in the nose.
Rest of filling is alternate layers of good and poor quality TNT.

Weight of Filling: 54 kilograms
Total Weight: 987 kilograms
Charge/Weight Ratio: 5.5%


Color and Markings: Sky blue.  Blue stripes between tail fins.

Stenciled:
Achtung vor Beladun
ZSK Ausschalten
Abwerf Z.S.K.O.V. Schalten
unt 28, 5, 41
PC 1000 RS

Construction: The rocket container is attached to the base of the bomb by a cylindrical steel distance piece which is threaded internally on both ends - one end threading over the bomb base and the rocket container threading into the other end.

The rockets consist of candles contained in a separate compartment at the base of the bomb and are held in position by spacers.  This compartment forms a pressure chamber from which the gases generated by the candles escape through six propulsion venturi tubes.  The tubes are sealed with pitch until combustion is effected.  The pressure chamber is provided with a spring-loaded pressure release valve at the base.

It is stated that the rockets burn for approximately 3 seconds after ignition and leave a trail of flame 150 feet long behind the bomb.

The bomb is usually of A.P. design, but instead of the exploder pocket lying transversly with the fuze head at one side, it is fuzed through the base plate which lies ahead of the rocket compartment.

The pyrotechnic fuze ignites the rocket about 2.5 seconds after the bomb is released.  Actually, bomb can be dropped without the rocket being ignited.


Suspension: Horizontal.

PC 1800 RS

Overall length: 107 inches

Body Length: 66 and 1/2 inches
Body Diameter: 21 inches

Filling: Very pure cast TNT in an aluminum container in the nose.  Two pre-cast Trialen charges in thick cardboard cylindrical cartons which are waxed into the bomb casing, completes the filling.  One specimen had 3 blocks of nitroguanidine in the nose and 10 blocks of RDX/Wax/A1 in two cardboard cylinders in the body.

Weight of Filling: 360 kilograms
Total Weight: 2,057 kilograms
Charge/Weight Ratio: 17.5%


Color and Markings: Bomb body and tail are sky blue in color.  Rocket unit and distance piece are olive drab.

Stenciled:
Konus vor Velastungen
Schutzen
unt 13, 10, 42
Achtgun vor beladung
Zsk Aussenalten
PC 1800 RS

Construction: Typical rocket bomb construction with single fuze pocket in distance piece.

Nineteen rockets are used: ten 22 and 1/2 inches long, eight 20 and 7/8 inches long and one 11 and 1/4 inches long.

All have a diameter of 2 and 15/16 inches.  Rocket unit weighs 422 kilograms.


Suspension: Horizontal.

Next Time: PD and Miscellaneous Small Bombs


Source: German Explosive Ordnance Vol. 1: Bombs, Rockets, Grenades, Mines, Fuzes & Igniters