Homebuilt aircraft can be constructed out of any material that is light and strong enough for flight. Several common construction methods are detailed below.
Wood and fabric . under construction, showing the wooden frame structure that will be covered with
aircraft fabric. This is the oldest construction, seen in the first aircraft and hence the best known. For that reason, amateur-built aircraft associations will have more specialists for this type of craft than other kinds. The most commonly used woods are
Sitka spruce and
Douglas fir, which offer excellent strength-to-weight ratios. Wooden structural members are joined with adhesive, usually
epoxy. Unlike the wood construction techniques used in other applications, virtually all wooden joints in aircraft are simple
butt joints, with
plywood gussets. Joints are designed to be stronger than the members. After the structure has been completed, the aircraft is covered in
aircraft fabric (usually aircraft-grade
polyester). The advantage of this type of construction is that it does not require complex tools and equipment, instead employing commonplace items such as saw, planer, file, sandpaper, and clamps. Examples of amateur-built wood and fabric designs include: • The classic
Pietenpol Air Camper, a homebuilt that has been built since the 1920s • The
Bowers Fly Baby, a low-wing monoplane which has been popular since the 1960s • The
Ison miniMAX Wood/composite mixture A recent trend is toward wood-composite aircraft. The basic load carrying material is still wood, but it is combined with foam (for instance, to increase buckling resistance of load carrying plywood skins) and other synthetic materials like fiberglass and carbon fiber (to locally increase the modulus of load carrying structures such as spar caps). Examples of wood-composite designs include: •
Ibis experimental aircraft project, designed by Roger Junqua •
KR series of homebuilts designed by Ken Rand •
PIK-26 designed by Kai Mellen .
Metal like this
RV-4 are the most common metal homebuilt type. under construction, showing the all-metal
semi-monocoque design Planes built from metal use similar techniques to more conventional factory-built aircraft. They can be more challenging to build, requiring metal-cutting, metal-shaping, and
riveting if building from plans. "Quick-build" kits are available which have the cutting, shaping, and hole-drilling mostly done, requiring only finishing and assembly. Such kits are also available for the other types of aircraft construction, especially composite. There are three main types of metal construction: sheet
aluminum, tube aluminum, and welded
steel tube. The tube structures are covered in
aircraft fabric, much like wooden aircraft. Examples of metal-based amateur aircraft include: • The
Murphy Moose,
Rebel,
Super Rebel and
Maverick, produced by
Murphy Aircraft • The
Vans RV-4,
RV-8,
RV-10 and other models produced by
Van's Aircraft, are the most popular metal homebuilt aircraft • Chris Heintz's
Zenith CH601 Zodiac and
Zenith STOL CH701 family of two-seat kit planes • The
ARV Super2 has conventional wings, fuselage, and empennage, but the cockpit is a
monococque of "Supral"
superplastic alloy Composite . , one of the largest homebuilt aircraft of its time. . Materials consist of carbon fiber and Kevlar.
Composite material structures are made of cloth with a high tensile strength (usually
fiberglass or
carbon fiber, or occasionally
Kevlar) combined with a structural plastic (usually
epoxy, although
vinylester is used in some aircraft). The fabric is saturated with the structural plastic in a liquid form; when the plastic cures and hardens, the part will hold its shape while possessing the strength characteristics of the fabric. The two primary types of composite planes are moulded composite, where major structures like wing skins and fuselage halves are prepared and cured in moulds, and mouldless, where shapes are carved out of foam and then covered with fiberglass or carbon fiber. The advantages of this type of construction include smooth surfaces (without the drag of rivets), the ability to construct compound curves, and the ability to place fiberglass or carbon fiber in optimal positions, orientations, and quantities. Drawbacks include the need to work with chemical products as well as low strength in directions perpendicular to fiber. Composites provide superb strength to their weight. Material stiffness dependent upon direction (as opposed to equal in all directions, as with metals) allows for advanced "elastic tailoring" of composite parts. Examples of amateur craft made of composite materials include: •
Canard designs such as the
VariEze and
Long EZ designed by
Burt Rutan • The
pusher propeller Cirrus VK-30 designed by Jeff Viken and the
Klapmeier brothers • The
Europa XS family of British two-place
monoplanes designed by Ivan Shaw • The
Glasair I,
II and
III series of high-performance homebuilts designed by Tom Hamilton ==Safety==