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A model aircraft is a small unmanned aircraft. Many are replicas of real aircraft. Model aircraft are divided into two basic groups: flying and non-flying. Non-flying models are also termed static, display, or shelf models. Aircraft manufacturers and researchers make wind tunnel models for testing aerodynamic properties, for basic research, or for the development of new designs. Sometimes only part of the aircraft is modelled. Static models range from mass-produced toys in white metal or plastic to highly accurate and detailed models produced for museum display and requiring thousands of hours of work. Many are available in kits, typically made of injection-moulded
polystyrene Polystyrene (PS) is a synthetic polymer made from monomers of the aromatic hydrocarbon styrene. Polystyrene can be solid or foamed. General-purpose polystyrene is clear, hard, and brittle. It is an inexpensive resin per unit weight. It is a ...
or resin. Flying models range from simple toy
glider Glider may refer to: Aircraft and transport Aircraft * Glider (aircraft), heavier-than-air aircraft primarily intended for unpowered flight ** Glider (sailplane), a rigid-winged glider aircraft with an undercarriage, used in the sport of glidin ...
s made of sheets of paper, balsa, card stock or foam
polystyrene Polystyrene (PS) is a synthetic polymer made from monomers of the aromatic hydrocarbon styrene. Polystyrene can be solid or foamed. General-purpose polystyrene is clear, hard, and brittle. It is an inexpensive resin per unit weight. It is a ...
to powered
scale model A scale model is a physical model which is geometrically similar to an object (known as the prototype). Scale models are generally smaller than large prototypes such as vehicles, buildings, or people; but may be larger than small prototypes ...
s built up from balsa, bamboo sticks, plastic, (including both moulded or sheet polystyrene, and styrofoam), metal, synthetic resin, either alone or with carbon fibre or fibreglass, and skinned with either tissue paper, mylar and other materials. Some can be very large, especially when used to research the flight properties of a proposed full scale aircraft.


Aerodynamic research and mock-ups

Models are made for wind tunnel and free-flight research tests and may have components that can be swapped to compare various fittings and configurations, or have features such as controls that can be repositioned to reflect various in flight configurations. They are also often fitted with sensors for spot measurements and are usually mounted on a structure that ensures the correct alignment with the airflow, and which provides additional measurements. For wind tunnel research, it is sometimes only necessary to make part of the proposed aircraft. Full-scale static engineering models are also constructed for production development, often made of different materials from the proposed design. Again, often only part of the aircraft is modelled.


Static display models

Static model aircraft cannot fly, and are used for display, education and are used in wind tunnels to collect data for the design of full scale aircraft. They may be built using any suitable material, which often includes plastic, wood, metal, paper and fiberglass and may be built to a specific scale, so that the size of the original may be compared to that of other aircraft. Models may come finished, or may require painting or assembly, with glue, screws, or by clipping together, or both. Many of the world's airlines allow their aircraft to be modelled for publicity. Airlines used to order large scale models of their aircraft to supply them to travel agencies as a promotional item. Desktop model airplanes may be given to airport, airline and government officials to promote an airline or celebrate a new route or an achievement.


Scale

Static model aircraft are primarily available commercially in a variety of scales from as large as 1:18 scale to as small as 1:1250 scale. Plastic model kits requiring assembly and painting are primarily available in 1:144, 1:72, 1:48, 1:32, and 1:24 scale. Die-cast metal models (pre-assembled and factory painted) are available in scales ranging from 1:48 to 1:600. Scales are not random, but are generally based on divisions of either the Imperial system, or the Metric system. For example, 1:48 scale is 1/4" to 1-foot (or 1" to 4 feet) and 1:72 is 1" to 6 feet, while in metric scales such as 1:100th, 1 centimetre equals 1 metre. 1:72 scale was introduced with Skybirds wood and metal model aircraft kits in 1932 and were followed closely by Frog which used the same scale from 1936 with their " Frog Penguin" brand. 1:72 was popularized in the US during the Second World War by the US War Department after it requested models of commonly encountered single engine aircraft at that scale, and multi-engine aircraft in 1:144th scale. They hoped to improve aircraft
recognition Recognition may refer to: *Award, something given in recognition of an achievement Machine learning *Pattern recognition, a branch of machine learning which encompasses the meanings below Biometric * Recognition of human individuals, or biomet ...
skills and these scales compromised between size and detail. After WWII, manufacturers continued with these scales, however kits are also added in other divisions of the imperial system. 1:50th and 1:100th are common in Japan and France which both use Metric. Promotional models for airlines are produced in scales ranging from 1:200 to 1:1200. Some manufacturers made 1:18th scale aircraft to go with cars of the same scale. Aircraft models, military vehicles, figures, cars, and trains all have different common scales but there is some crossover. There is a substantial amount of duplication of more famous subjects in different scales, which can be useful for forced perspective box
diorama A diorama is a replica of a scene, typically a three-dimensional full-size or miniature model, sometimes enclosed in a glass showcase for a museum. Dioramas are often built by hobbyists as part of related hobbies such as military vehicle mode ...
s. Older models often did not conform to an established scale as they were sized to fit the box, and are referred to as being to "Box Scale".


Materials

The most common form of manufacture for kits is
injection moulded Injection moulding (U.S. spelling: injection molding) is a manufacturing process for producing parts by injecting molten material into a mould, or mold. Injection moulding can be performed with a host of materials mainly including metals (for ...
polystyrene Polystyrene (PS) is a synthetic polymer made from monomers of the aromatic hydrocarbon styrene. Polystyrene can be solid or foamed. General-purpose polystyrene is clear, hard, and brittle. It is an inexpensive resin per unit weight. It is a ...
plastic, formed in steel forms. Plastic pellets are heated into a liquid and forced into the mould under high pressure through trees which will hold all the parts, and ensure plastic flows to every part of the mould. This allows a greater degree of automation than other manufacturing processes but moulds require large production runs to cover the cost of making them. Today, this takes place mostly in Asia and Eastern Europe. Smaller runs are possible with copper moulds, and some companies use resin or rubber moulds, but while the cost is lower for the mould, the durability is also lower and labour costs can be much higher. Resin kits are made in forms similar to those used for limited run plastic kits, but these moulds are usually not as durable, which limits them to smaller production runs, and prices for the finished product are higher. Vacuum forming is another common alternative but requires more skill, and details must be supplied by the modeller. There is a handful of photo etched metal kits which allow a high level of detail and they are unable to replicate compound curves. Scale models can also be made from paper or card stock. Commercial models are mainly printed by publishers in Germany or Eastern Europe but can be distributed through the internet, some of which are offered this way for free. From World War I through the 1950s, static model airplanes were also built from light weight bamboo or balsa wood and covered with tissue paper in the same manner as with flying models. This was a time-consuming process that mirrored the actual construction of airplanes through the beginning of World War II. Many model makers would create models from drawings of the actual aircraft. Ready-made desk-top models include those produced in fiberglass for travel agents and aircraft manufacturers, as well as collectors models made from die-cast metal, mahogany, resin and plastic. Carbon fibre and
fibre glass Fiberglass (American English) or fibreglass (Commonwealth English) is a common type of fiber-reinforced plastic using glass fiber. The fibers may be randomly arranged, flattened into a sheet called a chopped strand mat, or woven into glass cloth ...
have become increasingly common in model aircraft kits. In model helicopters, main frames and rotor blades are often made from carbon fibre, along with ribs and spars in fixed-wing aircraft wings.


Flying models

Generally known collectively as aeromodelling, some flying models resemble scaled down versions of full scale aircraft, while others are built with no intention of looking like real aircraft. There are also models of birds, bats and pterosaurs (usually ornithopters). The reduced size affects the model's
Reynolds number In fluid mechanics, the Reynolds number () is a dimensionless quantity that helps predict fluid flow patterns in different situations by measuring the ratio between inertial and viscous forces. At low Reynolds numbers, flows tend to be domi ...
which determines how the air reacts when flowing past the model, and compared to a full sized aircraft the size of control surfaces needed, the stability and the effectiveness of specific airfoil sections may differ considerably requiring changes to the design.


Control

Flying model aircraft are generally controlled through one of three methods * Free flight (F/F) model aircraft are uncontrolled other than by control surfaces that must be preset before flight, and must have a high degree of natural stability. Most free flying models are either unpowered gliders or rubber powered. These pre-date manned flight. * Control line (C/L) model aircraft use strings or wires to tether the model to a central pivot, either held by hand or to a pole. The aircraft then flies in circles around that point, secured by one cable, while a second provides pitch control through a connection to the elevator. Some use a third cable to control a throttle. There are many competition categories. Speed flying is divided into classes based on engine displacement. Class 'D' 60 size speed planes can easily reach speeds well in excess of . * Radio-controlled aircraft have a controller who operates a transmitter which sends signals to a receiver in the model to actuate servos which adjust the model's flight controls similarly to a full sized aircraft. Traditionally, the radio signal directly controlled
servos In control engineering a servomechanism, usually shortened to servo, is an automatic device that uses error-sensing negative feedback to correct the action of a mechanism. On displacement-controlled applications, it usually includes a built-in ...
, however, modern examples often use flight control computers to stabilize the model or even to fly it autonomously. This is particularly the case with quadcopters. Rudimentary flight controllers were first introduced in model helicopters, with standalone electronic gyroscopes used stabilise the tail rotor control. Much like quadcopters, this has now extended to all flight controls.


Construction

Flying models construction may differ from that of static models as both weight and strength are major considerations. Flying models borrow construction techniques from full-sized aircraft although the use of metal is limited. These might consist of forming a frame using thin planks of a light wood such as balsa to duplicate the
former A former is an object, such as a template, gauge or cutting die, which is used to form something such as a boat's hull. Typically, a former gives shape to a structure that may have complex curvature. A former may become an integral part of the ...
s,
longeron In engineering, a longeron and stringer is the load-bearing component of a framework. The term is commonly used in connection with aircraft fuselages and automobile chassis. Longerons are used in conjunction with stringers to form structural ...
s, spars, and ribs of a vintage full-size aircraft, or, on larger (usually powered) models where weight is less of a factor, sheets of wood,
expanded polystyrene Polystyrene (PS) is a synthetic polymer made from monomers of the aromatic hydrocarbon styrene. Polystyrene can be solid or foamed. General-purpose polystyrene is clear, hard, and brittle. It is an inexpensive resin per unit weight. It is a ...
, and wood veneers may be employed. It is then given a smooth sealed surface, usually with
aircraft dope Aircraft dope is a plasticised lacquer that is applied to fabric-covered aircraft. It tightens and stiffens fabric stretched over airframes, which renders them airtight and weatherproof, increasing their durability and lifespan.Crane, Dale: '' ...
. For light models, tissue paper is used. For larger models (usually powered and radio controlled) heat-curing or heat shrink covering plastic films or heat-shrinkable synthetic fabrics are applied to the model. Microfilm covering is used for the very lightest models and is made by spreading few drops of lacquer out over several square feet of water, and lifting a wire loop through it, which creates a thin plastic film. Flying models can be assembled from kits, built from plans, or made completely from scratch. A kit contains the necessary raw material, typically die- or laser-cut wood parts, some moulded parts, plans, assembly instructions and may have been flight tested. Plans are intended for the more experienced modeller, since the builder must make or find the materials themselves. Scratch builders may draw their own plans, and source all the materials themselves. Any method may be labour-intensive, depending on the model in question. To increase the hobby's accessibility, some vendors offer
Almost Ready to Fly A radio-controlled aircraft (often called RC aircraft or RC plane) is a small flying machine that is controlled remotely by an operator on the ground using a hand-held radio transmitter. The transmitter continuously communicates with a receiver ...
(ARF) models which minimize the skills required, and reduce build time to under 4 hours, versus 10–40 or more for a traditional kit. Ready To Fly (RTF) radio control aircraft are also available, however model building remains integral to the hobby for many. For a more mass market approach, foamies, injection-molded from lightweight foam (sometimes reinforced) have made indoor flight more accessible and many require little more than attaching the wing and landing gear.


Gliders

Gliders do not have an attached powerplant. Larger outdoor model gliders are usually radio-controlled gliders and hand-winched against the wind by a line attached to a hook under the fuselage with a ring, so that the line will drop when the model is overhead. Other methods include catapult-launching, using an elastic bungee cord. The newer "discus" style of wingtip hand-launching has largely supplanted the earlier "javelin" type of launch. Also using ground-based power winches, hand-towing, and towing aloft using a second powered aircraft. Gliders sustain flight through exploitation of the wind in the environment. A hill or slope will often produce updrafts of air which will sustain the flight of a glider. This is called slope soaring, and radio controlled gliders can remain airborne for as long as the updraft remains. Another means of attaining height in a glider is exploitation of thermals, which are columns of warm rising air created by differences of temperature on the ground such as between an asphalt parking lot and a lake. Heated air rises, carrying the glider with it. As with a powered aircraft, lift is obtained by the action of the wings as the aircraft moves through the air, but in a glider, height is gained by flying through air that is rising faster than the aircraft is sinking. Walkalong gliders are lightweight model airplanes flown in the ridge lift produced by the pilot following in close proximity. In other words, the glider is slope soaring in the updraft of the moving pilot (see also
Controllable slope soaring Controllable-slope soaring (also known as Walkalong gliding) is a type of slope soaring where a slope is made to follow a walkalong glider (a lightweight toy aircraft), both sustaining and controlling the glider's trajectory by modifying the wi ...
).


Power sources

Powered models contain an onboard ''powerplant'', a mechanism powering propulsion of the aircraft through the air. Electric motors and internal combustion engines are the most common propulsion systems, but other types include rocket, small turbine, pulsejet, compressed gas, and tension-loaded (twisted) rubber band devices.


Rubber

The oldest method of powering free flight models is Alphonse Pénaud's elastic motor (or extensible motor) of 1871, essentially a long rubber band that is twisted to add tension, prior to flight. It is the most widely used powerplant, found on everything from children's toys to competition models. The elastic offers simplicity and durability, but has a short running time, and the initial high torque of a fully wound motor drops sharply before plateauing to a steady output, until the final turns unwind and power drops off completely. Using it efficiently is one of the challenges of competitive free-flight rubber flying, and variable-pitch propellers, differential wing and tailplane incidence and rudder settings, controlled by timers, can help to manage the torque. There are also usually motor weight restrictions in contest classes. Even so, models have achieved flights of nearly 1 hour.


Compressed Gases

Stored compressed gas, typically carbon dioxide (CO2), can power simple models in a manner similar to filling a balloon and then releasing it. Compressed CO2 may also be used to power an expansion engine to turn a
propeller A propeller (colloquially often called a screw if on a ship or an airscrew if on an aircraft) is a device with a rotating hub and radiating blades that are set at a pitch to form a helical spiral which, when rotated, exerts linear thrust upon ...
. These engines can incorporate speed controls and multiple cylinders, and are capable of powering lightweight scale radio-controlled aircraft. Gasparin and Modela are two recent makers of CO2 engines. CO2, like rubber, is known as "cold" power because it generates no heat. Steam is even older than rubber power, and like rubber, contributed much to aviation history, but is now rarely used. In 1848,
John Stringfellow John Stringfellow (1799 – 13 December 1883) was a British early aeronautical inventor, known for his work on the aerial steam carriage with William Samuel Henson. Life Stringfellow was born in Attercliffe, England to Martha ée Gil ...
flew a steam-powered model, in
Chard, Somerset Chard is a town and a civil parish in the English county of Somerset. It lies on the A30 road near the Devon and Dorset borders, south west of Yeovil. The parish has a population of approximately 13,000 and, at an elevation of , Chard is the s ...
, England. Samuel Pierpont Langley built both steam- and internal-combustion-powered models that made long flights. Baronet Sir
George Cayley Sir George Cayley, 6th Baronet (27 December 1773 – 15 December 1857) was an English engineer, inventor, and aviator. He is one of the most important people in the history of aeronautics. Many consider him to be the first true scientific aeri ...
built, and flew, internal and external combustion gunpowder-fueled model aircraft engines in 1807, 1819, and 1850. These had no crank, working ornithopter-like flappers instead of a propeller. He speculated that the fuel might be too dangerous for manned aircraft.


Internal combustion

For larger and heavier models, the most popular powerplant is the glow plug engine. Glow engines are fueled by a mixture of slow burning
methanol Methanol (also called methyl alcohol and wood spirit, amongst other names) is an organic chemical and the simplest aliphatic alcohol, with the formula C H3 O H (a methyl group linked to a hydroxyl group, often abbreviated as MeOH). It is a ...
, nitromethane, and lubricant ( castor oil or
synthetic oil Synthetic oil is a lubricant consisting of chemical compounds that are artificially modified or synthesised. Synthetic lubricants can be manufactured using chemically modified petroleum components rather than whole crude oil, but can also be syn ...
), which is sold pre-mixed as glow-fuel. Glow-engines require an external starting mechanism; the
glow plug A glowplug (alternatively spelled as glow plug or glow-plug) is a heating device used to aid in starting diesel engines. In cold weather, high-speed diesel engines can be difficult to start because the mass of the cylinder block and cylinder he ...
must be heated until it is hot enough to ignite fuel to start. Reciprocating cylinders apply torque to a rotating
crankshaft A crankshaft is a mechanical component used in a piston engine to convert the reciprocating motion into rotational motion. The crankshaft is a rotating shaft containing one or more crankpins, that are driven by the pistons via the connecting ...
, which is the engine's primary power-output. Some power is lost from converting linear motion to rotary and in lost heat and unburned fuel, so efficiency is low. These are rated by engine displacement and range from to over . The smallest engines can spin a propeller to over 30,000 rpm, while the larger engines turn at 10–14,000 rpm. The simplest glow-engines use the two-stroke cycle. These engines are inexpensive, and offer the highest
power-to-weight ratio Power-to-weight ratio (PWR, also called specific power, or power-to-mass ratio) is a calculation commonly applied to engines and mobile power sources to enable the comparison of one unit or design to another. Power-to-weight ratio is a measuremen ...
of all glow-engines, but are noisy and require substantial
expansion chamber On a two-stroke engine, an expansion chamber or tuned pipe is a tuned exhaust system used to enhance its power output by improving its volumetric efficiency. History Expansion chambers were invented and successfully manufactured by Limbach, a ...
mufflers, which may be tuned. four-stroke cycle glow engines, whether using poppet valves or more rarely
rotary valves A rotary valve (also called rotary-motion valve) is a type of valve in which the rotation of a passage or passages in a transverse plug regulates the flow of liquid or gas through the attached pipes. The common stopcock is the simplest form of rot ...
are more fuel-efficient, but deliver less power than similar two-stroke engines. The power they deliver is more suited to turning larger diameter propellers for lighter weight, higher drag airframes such as with in
biplane A biplane is a fixed-wing aircraft with two main wings stacked one above the other. The first powered, controlled aeroplane to fly, the Wright Flyer, used a biplane wing arrangement, as did many aircraft in the early years of aviation. While ...
s. Four-stroke engines are now popular as they are quieter than two-stroke engines, and are available in horizontally opposed twins and radial engine configurations. Variations include engines with multiple-cylinders, spark-ignition gasoline operation, carbureted diesel operation and variable compression-ratio engines. Diesels are preferred for endurance and have higher torque, and for a given capacity, can "swing" a larger propeller than a glow engine. Home manufacture of model aircraft engines is a hobby in its own right.


Jets and rockets

Early "jet" style model aircraft used a multi-blade propeller ducted fan, inside ductwork, usually in the fuselage. The fans were generally powered by 2 stroke engines at high RPM. They generally had displacements, but some were as small as . This fan-in-tube design has been adopted successfully for electric-powered jets while glow engine powered ducted-fan aircraft are now rare. Small
jet turbine A jet engine is a type of reaction engine discharging a fast-moving jet of heated gas (usually air) that generates thrust by jet propulsion. While this broad definition can include rocket, water jet, and hybrid propulsion, the term typicall ...
engines are now used in hobbyist models that resemble simplified versions of the turbojet engines found on commercial aircraft, but are not scaled-down as Renold's numbers come into play. The first hobbyist-developed turbine was developed and flown in the 1980s but only recently have commercial examples become readily available. Turbines require specialized design and precision-manufacturing, and some have been built from car engine turbocharger units. Owning or operating a turbine-powered aircraft is prohibitively expensive and many national aeromodelling clubs (as with the USA's Academy of Model Aeronautics) require members to be certified to safely use them. V-1 flying bomb type Pulsejet engines have also been used as they offer more thrust in a smaller package than a traditional glow-engine, but are not widely used due to the extremely high noise levels they produce, and are illegal in some countries. Rocket engines are sometimes used to boost gliders and sailplanes. The earliest purpose-built rocket motor dates back to the 1950s, with the introduction of the
Jetex The Jetex motor is a miniature solid-fuel rocket motor produced for use as a powerplant for flying model aircraft. Its production led to a number of imitators and, after its demise, successors of similar type. __FORCETOC__ Original Jetex motors ...
motor, which used solid fuel pellets, ignited by a wick fuse, in a reusable casing. Flyers can now also use single-use model rocket engines to provide a short, under 10 second burst of power. Government restrictions in some countries made rocket-propulsion rare but these were being eased in many places and their use was expanding, however a reclassification from "smoke producing devices" to "fireworks" has made them difficult to obtain again.


Electric power

Electric-powered models use an electric motor powered by a source of electricity - usually a
battery Battery most often refers to: * Electric battery, a device that provides electrical power * Battery (crime), a crime involving unlawful physical contact Battery may also refer to: Energy source *Automotive battery, a device to provide power t ...
. Electrical power began being used on models in the 1970s, but the cost delayed widespread use until the early 1990s, when more efficient battery technologies, and
brushless motors A brushless DC electric motor (BLDC motor or BL motor), also known as an electronically commutated motor (ECM or EC motor) or synchronous DC motor, is a synchronous motor using a direct current (DC) electric power supply. It uses an electronic ...
became available, while the costs of motors, batteries and control systems dropped dramatically. Electric power now predominated with ''park-flyer'' and ''
3D-flyer A radio-controlled aircraft (often called RC aircraft or RC plane) is a small flying machine that is controlled remotely by an operator on the ground using a hand-held radio transmitter. The transmitter continuously communicates with a receiver ...
'' models, both of which are small and light, where electric-power offers greater efficiency and reliability, less maintenance and mess, quieter flight and near-instantaneous throttle response compared to gas engines. The first electric models used brushed DC motors and
nickel cadmium Nickel is a chemical element with symbol Ni and atomic number 28. It is a silvery-white lustrous metal with a slight golden tinge. Nickel is a hard and ductile transition metal. Pure nickel is chemically reactive but large pieces are slow to r ...
(NiCad) rechargeable cells which gave flight times of 5 to 10 minutes, while a comparable glow-engine provided double the flight-time. Later electric systems used more-efficient
brushless DC motor A brushless DC electric motor (BLDC motor or BL motor), also known as an electronically commutated motor (ECM or EC motor) or synchronous DC motor, is a synchronous motor using a direct current (DC) electric power supply. It uses an electronic ...
s and higher-capacity
nickel metal hydride Nickel is a chemical element with symbol Ni and atomic number 28. It is a silvery-white lustrous metal with a slight golden tinge. Nickel is a hard and ductile transition metal. Pure nickel is chemically reactive but large pieces are slow to r ...
(NiMh) batteries, yielding considerably improved flight times. Cobalt and lithium polymer batteries (LiPoly or LiPo) permit electric flight-times to surpass those of glow-engines, while the more rugged and durable, cobalt-free lithium iron phosphate batteries are also becoming popular. Solar power has also become practical for R/C hobbyists, and in June 2005 a record flight of 48 hours and 16 minutes was set in California. It is now possible to power most models under with electric power for a cost equivalent to or lower than traditional power sources. Recent developments have resulted in the use of brushless three-phase motors in model aviation. Brushless motors are more powerful and offer greater torque and efficiency. The design of brushless motors also means less internal friction, as there is no requirement for brushes to be in contact with any rotating parts. This increase in efficiency results in longer flight times.


Propulsion types

Most powered model-aircraft, including electric, internal-combustion, and rubber-band powered models, generate thrust by spinning an airscrew. The ''
propeller A propeller (colloquially often called a screw if on a ship or an airscrew if on an aircraft) is a device with a rotating hub and radiating blades that are set at a pitch to form a helical spiral which, when rotated, exerts linear thrust upon ...
'' is the most commonly used device. Propellers generate thrust due to lift generated by the wing-like sections of the blades, which forces air backwards.


Propellers

A large diameter and low- pitch propeller offers greater thrust and acceleration at low airspeed, while a small diameter and higher-pitch propeller sacrifices acceleration for higher maximum speeds. The builder can choose from a selection of propellers to match the model but a mismatched propeller can compromise performance, and if too heavy, cause undue wear on the powerplant. Model aircraft propellers are usually specified as diameter × pitch, in inches. For example, a 5 x 3 propeller has a diameter of , and a pitch of . The pitch is the distance that the propeller would advance if turned through one revolution in a solid medium. Two and three bladed propellers are the most common. Three methods are used to transfer energy to the propeller: *''Direct-drive'' systems have the propeller attached directly to the engine's
crankshaft A crankshaft is a mechanical component used in a piston engine to convert the reciprocating motion into rotational motion. The crankshaft is a rotating shaft containing one or more crankpins, that are driven by the pistons via the connecting ...
or driveshaft. This arrangement is preferred when the propeller and powerplant both operate near peak efficiency at similar rpms. Direct-drive is most common with fuel-powered engines. Very rarely, some electric motors are designed with a sufficiently high ''torque'' and low enough speed and can utilize direct-drive as well. These motors are typically called ''outrunners''. *''Reduction drive'' uses gears to reduce shaft rpm, so the motor can spin much faster. The higher the gear ratio, the slower the prop will rotate, which also increases torque by roughly the same ratio. This is common on larger models and on those with unusually large propellers. The reduction drive matches the powerplant and propeller to their respective optimum operating speeds. Geared propellers are rare on internal combustion engines, but are common on electric motors because most electric motors spin extremely fast, but lack torque. *A built-in 2:1 gear reduction ratio can be obtained by attaching the propeller to the
camshaft A camshaft is a shaft that contains a row of pointed cams, in order to convert rotational motion to reciprocating motion. Camshafts are used in piston engines (to operate the intake and exhaust valves), mechanically controlled ignition systems ...
rather than the crankshaft of a four stroke engine, which runs at half the speed of the crankshaft.


Ducted fans

Ducted fans are multi-blade propellers encased in a cylindrical duct or tube that may look like and fit in the same space as
jet engine A jet engine is a type of reaction engine discharging a fast-moving jet of heated gas (usually air) that generates thrust by jet propulsion. While this broad definition can include rocket, Pump-jet, water jet, and hybrid propulsion, the term ...
. They are available for both electric and liquid-fuelled engines, although they have only become common with recent improvements in electric-flight technology. A model aircraft can now be fitted with four electric ducted fans for less than the cost of a single jet turbine, enabling affordable modelling of multi-engine aeroplanes. Compared to an unducted propeller, a ducted fan generates more thrust for the same area and speeds of up to have been recorded with electric-powered ducted fan airplanes, largely due to the higher RPMs possible with ducted fan propellers. Ducted fans are popular with scale models of jet aircraft, where they mimic the appearance of jet engines but they are also found on non-scale and sport models, and even lightweight 3D-flyers.


Other

With ornithopters the motion of the wing structure imitates the flapping-wings of living
birds Birds are a group of warm-blooded vertebrates constituting the class Aves (), characterised by feathers, toothless beaked jaws, the laying of hard-shelled eggs, a high metabolic rate, a four-chambered heart, and a strong yet lightweigh ...
, producing both thrust and lift.


Competitions

World competitions are organised by the FAI in the following classes: *Class F – model aircraft **F1(x) – Free Flight (A,B,C,D,E,G,H,P,Q) **F2(x) – Control Line (A,B,C,D,E) **F3A – Radio Control Aerobatics **F3B – Radio Control Soaring (Multi-task) **F3C – Radio Control Helicopters **F3D – Pylon Racing **F3F – Radio Control Soaring (Slope) **F3J – Radio Control Soaring (Duration) **F3K – Hand Launch Gliders **F3M – Large Radio Control Aerobatics **F3P – Radio Control Indoor Aerobatics **F5B – Electric Motor Glider – Multi Task (held in alternate years only) **F5D – Electric Pylon Racing **F5J – Electric Motor Glider – Thermal Duration **FAI – Drone Racing (F3U) *Class S – space model *Class U – unmanned aerial vehicle


Free flight (F1)

The Wakefield Gold Challenge Cup is an international modelling competition named for the donor,
Lord Wakefield Lord is an appellation for a person or deity who has authority, control, or power over others, acting as a master, chief, or ruler. The appellation can also denote certain persons who hold a title of the peerage in the United Kingdom, or are ...
which was first held on 5 July 1911 at The Crystal Palace in England. There were contests in 1912, 1913 and 1914. No contests were held again until 1927, when the Society of Model Aeronautical Engineers (SMAE) approached Lord Wakefield for a new larger silver trophy for international competition. This trophy is the present Wakefield International Cup and was first awarded in 1928. The SMAE organized the international competitions until 1951 when the FAI took over, and has since been made the award for the rubber-power category at the FAI World Free Flight Championships. The FAI free flight (F1) classes include: *F1A – Gliders *F1B – Model Aircraft with extensible (rubber band) motors – Wakefield Trophy *F1C – Power model aircraft (combustion powered ) *F1D – Indoor model aircraft *F1E – Gliders with automatic steering *F1N – Indoor hand-launch gliders *F1P – Power model aircraft (combustion powered 1.0cc) *F1Q – Electric power model aircraft *F1G – Model aircraft with extensible (rubber band) motors « Coupe d’hiver » (provisional) *F1H – Gliders (provisional) *F1J – Power model aircraft (provisional) (combustion powered ) *F1K – Model aircraft with motors (provisional) *F1L – Indoor zone EZB model aircraft (provisional) *F1M – Indoor model aircraft (provisional) *F1R – Indoor model aircraft “Micro 35” (provisional) *F1S – Small electric power model aircraft “E36”


Control Line (F2)

Also referred to as U-Control in the US, it was pioneered by the late Jim Walker who often, for show, flew three models at a time. Normally the model is flown in a circle and controlled by a pilot in the center holding a handle connected to two thin steel wires. The wires connect through the inboard wing tip of the plane to a mechanism that translates the handle movement to the aircraft elevator, allowing maneuvers to be performed along the aircraft pitch axis. The pilot will turn to follow the model going round, the convention being anti-clockwise for upright level flight. For the conventional control-line system, tension in the lines is required to provide control. Line tension is maintained largely by centrifugal force. To increase line tension, models may be built or adjusted in various ways. Rudder offset and thrust vectoring (tilting the engine toward the outside) yaw the model outward. The position where the lines exit the wing can compensate for the tendency of the aerodynamic drag of the lines to yaw the model inboard. Weight on the outside wing, an inside wing that is longer or has more lift than the outside wing (or even no outside wing at all) and the torque of a left rotating propeller (or flying clockwise) tend to roll the model toward the outside. Wing tip weights, propeller torque, and thrust vectoring are more effective when the model is going slowly, while rudder offset and other aerodynamic effects have more influence on a fast moving model. Since its introduction, control line flying has developed into a competition sport. There are contest categories for control line models, including Speed, Aerobatics (AKA Stunt), Racing, Navy Carrier, Balloon Bust, Scale, and Combat. There are variations on the basic events, including divisions by engine size and type, skill categories, and age of model design. The events originated largely in the United States, and were later adapted for use internationally. The rules for US Competition are available from the Academy of Model Aeronautics. The international rules are defined by the Fédération Aéronautique Internationale (FAI). World Championships are held semiannually throughout the world, most recently in 2008 in France, with a limited slate of events – special varieties of Racing (F2C or "Team Race"), combat (F2D), and speed (F2A), all limited to engines displacing 0.15 cu. in (2.5cc), and Stunt (F2b) which is essentially unlimited with regard to design and size. CIAM (FAI Aeromodelling Commission) designed this classes for F2 Control Line category: ;F2A : CL Speed ;F2B : CL Aerobatics ;F2C : CL Team racing The international class of racing is referred to as F2C (F2 = Control-line, C=racing) or Team Race. A pilot and a mechanic compete as a team to fly small wingspan semi-scale racing models over a tarmac or concrete surface. Lines are long. Three pilots, plus mechanic teams, compete simultaneously in the same circle, and the object is to finish the determined course as fast as possible. Tank size is limited to , requiring 2 or 3 refueling pitstops during the race. The mechanic stands at a pit area outside the marked flight circle. The engine is started and the model released on the start signal. For refuelling, the pilot will operate a fuel shutoff by a quick down elevator movement after the planned number of laps so that the model can approach the mechanic at optimum speed, of around . The mechanic will catch the model by the wing, fill the tank from a pressurized can by a hose and finger valve, then restart the engine by flicking the propeller with his finger. A pitstop generally takes less than three seconds. The course is , with 100 laps. Flying speeds are around , which means that the pilots will turn one lap in roughly 1.8 seconds. Line pull due to centrifugal force is . An overtaking model will be steered over the heads of the competing pilots of slower models. After two rounds of elimination heats, the 6, 9 or 12 fastest teams enter two semifinal rounds, and the three fastest teams in the semifinals go to the final, which is run over the double course. Single cylinder two-stroke Diesel compression ignition engines designed for this purpose of up to are used. At the world championship level it is common for competitors design and build their own engines. Output power approaches at 25,000 rpm.


F2D – CL Combat

CLASS F2D - Control Line Combat Model Aircraft - Two pilots compete, with four mechanics in the pit. The aircraft are light and very stubby so as to manoeuvre quickly in the air. Each has a crepe paper streamer attached to the rear of the aircraft by a string. Each pilot only attacks the other aircraft's streamer, to attempt to cut it with their propeller or wing. Each cut scores 100 points. Each second the model is in the air scores a point and the match runs for 4 minutes from the starter's signal. At the almost speeds of the aircraft, mistakes often lead to crash damage so two aircraft are permitted for each match. The mechanics are prepared for crashes and will quickly start the second aircraft and transfer the streamer to the reserve model before launching. The action is so fast that an observer may miss the cuts of the streamers. A second loss eliminates a competitor, and the last pilot still flying wins
FAI AEROMODELLING COMMISSION (CIAM)


Radio Controlled Flight (F3)

;F3A : RC Aerobatic Aircraft ;F3B : RC Multi-Task Gliders ;F3C : RC Aerobatic Helicopters ;F3D : RC Pylon Racing Aeroplanes Pylon racing refers to a class of air racing for radio controlled model aircraft that fly through a course of pylons. The sport is similar to the full-scale Red Bull Air Race World Series. ;F3F : RC Slope Soaring Gliders ;F3J : RC Thermal Duration Gliders ;F3K : RC Hand Launch Gliders ;F3M : RC Large Aerobatic Aircraft ;F3N : RC Freestyle Aerobatic Helicopters ;F3P : RC Indoor Aerobatic Aircraft ;F3H : RC Soaring Cross Country Gliders ;F3Q : RC Aero-Tow Gliders ;F3R : RC Pylon Racing Limited Technology Aeroplanes ;F3S : RC Jet Aerobatic Aircraft ;F3T : RC Semi-Scale Pylon Racing with Controlled Technology Aeroplanes ;F3U : RC Multi-rotor FPV Racing The FAI Drone Racing World Cup is in the F3U class (Radio Control Multi-rotor FPV Racing). This is a highly competitive activity, involving mental exertion and big cash prizes.


Model aerodynamics

The flight behaviour of an aircraft depends on the scale to which it is built, the density of the air and the speed of flight. At subsonic speeds the relationship between these is expressed by the
Reynolds number In fluid mechanics, the Reynolds number () is a dimensionless quantity that helps predict fluid flow patterns in different situations by measuring the ratio between inertial and viscous forces. At low Reynolds numbers, flows tend to be domi ...
. Where two models at different scales are flown with the same Reynolds number, the airflow will be similar. Where the Reynolds numbers differ, as for example a small-scale model flying at lower speed than the full-size craft, the airflow characteristics can differ significantly. This can make an exact scale model unflyable, and the model has to be modified in some way. For example, at low Reynolds numbers, a flying scale model usually requires a larger-than-scale propeller. Maneuverability depends on scale, with stability also becoming more important. Control torque is proportional to lever arm length while angular inertia is proportional to the square of the lever arm, so the smaller the scale the more quickly an aircraft or other vehicle will turn in response to control inputs or outside forces. One consequence of this is that models in general require additional
longitudinal Longitudinal is a geometric term of location which may refer to: * Longitude ** Line of longitude, also called a meridian * Longitudinal engine, an internal combustion engine in which the crankshaft is oriented along the long axis of the vehicle, ...
and directional stability, resisting sudden changes in pitch and yaw. While it may be possible for a pilot to respond quickly enough to control an unstable aircraft, a radio control scale model of the same aircraft would only be flyable with design adjustments such as increased tail surfaces and wing dihedral for stability, or with avionics providing artificial stability. Free flight models need to have both static and dynamic stability. Static stability is the resistance to sudden changes in pitch and yaw already described, and is typically provided by the horizontal and vertical tail surfaces respectively, and by a forward center of gravity. Dynamic stability is the ability to return to straight and level flight without any control input. The three dynamic instability modes are pitch (
phugoid In aviation, a phugoid or fugoid is an aircraft motion in which the vehicle pitches up and climbs, and then pitches down and descends, accompanied by speeding up and slowing down as it goes "downhill" and "uphill". This is one of the basic flig ...
) oscillation, spiral and
Dutch roll Dutch roll is a type of aircraft motion consisting of an out-of-phase combination of "tail-wagging" (yaw) and rocking from side to side (roll). This yaw-roll coupling is one of the basic flight dynamic modes (others include phugoid, short per ...
. An aircraft with too large a horizontal tail on a fuselage that is too short may have a phugoid instability with increasing climbs and dives. With free flight models, this usually results in a stall or loop at the end of the initial climb. Insufficient dihedral or sweep back will generally lead to increasing spiral turn. Too much dihedral or sweepback generally causes Dutch roll. These all depend on the scale, as well as details of the shape and weight distribution. For example, the paper glider shown here is a contest winner when made of a small sheet of paper but will go from side to side in Dutch roll when scaled up even slightly.


See also

* Control line also called U-Control ** Round-the-pole flying * Model engine ** Cox model engine ** Thunder Tiger ** O.S. Engines * Die-cast toy * Free flight (model aircraft) * History of aviation *
International Miniature Aerobatic Club International Miniature Aerobatic Club (IMAC) is a non-profit organization devoted to flying scale aerobatic model aircraft. IMAC is the main governing body responsible for hosting precision aerobatic contests with hundreds of pilots across the Uni ...
* International Plastic Modellers' Society (IPMS) *
List of model aircraft manufacturers The following companies manufacture, or have manufactured, model aircraft. Flying Ready-to-fly A ready-to-fly model has the airframe assembled but may or may not have an engine or other equipment fitted. Almost Ready-to-fly * Guillow Kits A ...
*
List of model airplane fields Model airplane fields are used for landings and takeoffs of model aircraft. Facilities provided vary significantly. They range from unimproved fields to paved runways. Most model airfields in the United States have clubs chartered with the Academ ...
in the USA *
List of scale model kit manufacturers This list is arranged by the main material of manufacture. Where a manufacturer has produced different kits in different materials, they are duplicated under each material. Polystyrene Injection-moulded (high pressure) * Academy Plastic Model ( ...
* Micro air vehicle *''
Model Airplane News '' Model Airplane News'' is a monthly magazine focusing upon the hobby of radio control airplanes. ''Model Airplane News'' reviews radio control aircraft from backyard flyers, to giant scale airplanes, and features how-to articles, product re ...
'' *
Model airport A model airport is a scale model of an airport. While airport models have been around, in a way, since airfields were open to the public, early model airports were basically restricted to public showcases about the airport and its surroundings to ...
* Model ship *
Paper plane A paper plane (also known as a paper airplane in American English or paper aeroplane in British English) is a toy aircraft, usually a glider made out of single folded sheet of paper or paperboard. A simple nose-heavy paper plane, thrown like ...
* Radio-controlled aircraft *
Radio-controlled model A radio-controlled model (or RC model) is a Physical model, model that is steering, steerable with the use of radio control. All types of model vehicles have had RC systems installed in them, including radio-controlled car, ground vehicles, radio ...
*
Simple Plastic Airplane Design Simple Plastic Airplane Design (SPAD) is a type of radio controlled model airplane. The R.C. aircraft is usually, though not always, built with the body consisting of a lightweight plastic material such as PVC gutter downspout or an aluminium r ...
* Walkalong glider


Footnotes


References

*''RCadvisor′s Model Airplane Design Made Easy'', by Carlos Reyes, RCadvisor.com, Albuquerque, New Mexico, 2009. *''The Great International Paper Airplane Book'', by Jerry Mander, George Dippel and Howard Gossage, Simon and Schuster, New York, 1967. *''Model Aircraft Aerodynamics'', by Martin Simons, Swanley: Nexus Special Interests, 1999. 4th ed. *''How to Design and Build Flying Model Airplanes'', by Keith Laumer, Harper, New York, 1960. 2nd ed., 1970. *''The Middle Ages of the Internal-Combustion Engine'', by Horst O. Hardenberg, SAE, 1999. *''Model Airplane Design and Theory of Flight'', by Charles Hampson Grant, Jay Publishing Corporation, New York, 1941. *''Pulling Back the Clouds'', by Mike Kelly, Limerick Writers' Centre Publishing, Ireland, 2020. {{DEFAULTSORT:Model Aircraft