Eipper Quicksilver
The Eipper Quicksilver is a family of single- and two-seat, high-wing, single-engine ultralight aircraft that originated in the late 1970s as an evolution of rigid-wing hang gliders, featuring weight-shift controls and compliance with U.S. Federal Aviation Regulations Part 103 for ultralight vehicles.[1] Founded by Dick Eipper under Eipper Formance, the series began with the Quicksilver C, a self-launching hang glider, and progressed by adding a seat, wheels, and a small engine to create the foundational Quicksilver model, which helped shape early ultralight regulations.[1] Subsequent developments introduced the Quicksilver MX with rudder and elevator controls for improved three-axis operation, followed by variants incorporating ailerons, strut-braced wings, and enclosed cockpits for enhanced stability and comfort.[1] Notable models include the single-seat MX and GT400 (certified under P.U.M.A. and L.A.M.A. standards), and two-seat options like the MX-II Sprint, MXL-II Sport trainer, GT500 (the first FAA Type Certified Quicksilver), and modern Sport 2S with light-sport aircraft (SLSA) variants.[1][2] Key specifications for early models, such as the 1982 Quicksilver MX-1, include a 27-foot wingspan, 18-foot-1-inch length, 9-foot-8-inch height, empty weight of 238 pounds, gross weight of 525 pounds, and a 35-horsepower Cuyuna 430 engine enabling cruise speeds of 40 mph and a maximum of 52 mph.[3] Over 15,000 Quicksilver aircraft have been produced, with the design achieving fame through record-breaking flights, including a 1982 north-south ultralight journey from Michigan to Florida completed in 5.5 days.[1][3] Today, Quicksilver remains an industry leader, offering kits, assembled aircraft, and replacement parts for ongoing maintenance and watersports adaptations.[2]History
Origins and early development
The origins of the Eipper Quicksilver trace back to the early 1970s, when Bob Lovejoy designed a rigid-wing hang glider known as the High Tailer, featuring a 30-foot-span wing and a tail assembly for improved stability over flexible-wing designs.[4] This prototype addressed common issues in early hang gliders, such as poor control and vulnerability to wind, by incorporating a weight-shift control system with a rudder for directional steering.[5] In the late 1970s, amid the burgeoning hang gliding movement, Dick Eipper founded Eipper Formance in California, with the company name serving as a pun on "Eipper" and "high performance" to emphasize innovative, efficient designs.[6] Building on Lovejoy's work, Eipper Formance began producing powered versions of the Quicksilver in 1978, adapting the weight-shift hang glider principles by adding a pylon-mounted engine such as the 12 hp McCulloch MAC-101 to enable self-launching capabilities for recreational pilots in flat terrain.[7] These early powered models retained the lightweight aluminum frame and Dacron sailcloth covering, prioritizing simplicity and affordability. Key early milestones included the introduction of the single-place Quicksilver A and B models, which emphasized ease of home assembly using basic tools and materials, with kit prices under $2,000 to make ultralight aviation accessible to enthusiasts.[4] Initial testing occurred informally at sites like Torrance Beach, focusing on recreational flying without formal certification, as the pre-FAR Part 103 era lacked specific federal regulations for ultralights, leading to challenges like inconsistent safety standards and reliance on pilot self-assessment for airworthiness.[1] This period highlighted the Quicksilver's role in shaping the sport, as its design influenced the eventual establishment of FAR Part 103 in 1982 to standardize recreational ultralight operations.[8]Company evolution and production
Eipper Formance, founded by Dick Eipper in the late 1970s, initially focused on manufacturing Quicksilver-branded ultralights derived from hang glider designs. In the early 1980s, following a change in ownership, Lyle Byrum became president of the firm around 1981, and it rebranded to Eipper Aircraft to reflect its shift toward more advanced powered aircraft. Operations were based in California, with the company later establishing its primary facility in Temecula. The company was sold again in 2012 to Will Escutia and Dan Perez, who renamed it Quicksilver Aircraft and emphasized refined designs with improved controls and safety features. The 1980s marked the peak of Quicksilver's production, fueled by the ultralight aviation boom after the U.S. Federal Aviation Administration introduced FAR Part 103 regulations in 1982, which defined and deregulated ultralight vehicles. During this era, Quicksilver sold thousands of units worldwide, capitalizing on the popularity of affordable, easy-to-assemble kits that appealed to recreational pilots. Overall, the company has produced more than 15,000 aircraft since its inception, making it one of the most prolific ultralight manufacturers. Challenges arose in the early 1980s amid a series of ultralight accidents industry-wide, prompting Quicksilver to prioritize design enhancements like three-axis controls and better documentation under Byrum's leadership. These improvements helped sustain growth, with two-seat training models introduced in the mid-1980s to meet evolving pilot needs. By the 1990s and 2000s, Quicksilver expanded internationally through exports and licensing agreements, enabling local production in regions such as Australia and Europe while providing ongoing parts and support services. In 2015, Quicksilver Aircraft underwent a major reorganization due to declining sales, closing its Temecula factory but preserving the brand through authorized dealers. As of 2025, production continues via partners like Air-Tech Inc., which serves as the primary manufacturer and distributor, offering build kits and completed aircraft certified under experimental amateur-built and Special Light-Sport Aircraft (SLSA) categories. This structure ensures availability of models like the MX Sprint and Sport 2S, with a focus on reliable supply chains and customer support for the global fleet.[9]Design
Airframe and construction
The airframe of the Eipper Quicksilver ultralight aircraft is composed primarily of anodized 6061-T6 aluminum tubing for the main structure, offering a lightweight and corrosion-resistant framework, while central load-bearing components incorporate 4130N Chromoly steel that is gold cadmium plated or black powder coated for enhanced durability. Wings and tail surfaces are enveloped in pre-sewn 3.8 oz. stabilized polyester Dacron sailcloth, secured with heavy-duty polyester thread to form double-surface coverings that contribute to aerodynamic efficiency. This tube-and-fabric construction supports a pusher propeller configuration, with the engine mounted aft of the pilot to shield the occupant from the propeller arc during flight.[10][11][3] The high-wing design features a rectangular planform with inherent dihedral for improved lateral stability, typically spanning 27 to 30 feet and providing a wing area of 140 to 175 square feet, varying by model to optimize lift and handling characteristics. Earlier MX series models employ cable bracing for the wings, while later variants such as the GT400 and Sport 2S utilize strut bracing for simplified assembly and reduced maintenance. Rib pockets are pre-integrated into the fabric coverings, eliminating the need for on-site sewing during construction.[12][13][11][14] The bolt-together kit assembly process emphasizes simplicity, requiring no welding, precision machining, or painting, and can be completed by novice builders in 30 to 40 hours for single-seat configurations. Pre-drilled holes and prefabricated parts allow straightforward attachment of the frame, fabrics, and fittings, aligning with the aircraft's focus on accessibility for homebuilders. The fuselage integrates open cockpit options in MX and Sport 2S models or enclosed cabins in GT series, all built from the same aluminum tubing and fabric materials. Landing gear adopts a tricycle arrangement using 6061-T6 aluminum components, including a lightweight steerable nose wheel for maneuverability on unimproved surfaces, with empty weights typically ranging from 250 to 350 pounds for single-seat models and 500 to 650 pounds for two-seat models.[10][3][12] Durability features include UV-resistant polyester fabrics with inhibitors to prevent degradation from sun exposure and corrosion-proof anodized finishes on aluminum elements, enabling a service life of over 1,000 hours with routine inspections. The structure is certified to withstand +6/-3 G load factors, supporting reliable performance in ultralight environments while minimizing long-term maintenance needs.[10][11]Control systems and powerplants
The Eipper Quicksilver ultralights originated with weight-shift control systems in their early models, where pilots manipulated pitch and roll by shifting their body weight via a hang strap suspended from the wing's keel, providing intuitive handling derived from hang glider principles.[3][15] This approach was simple and lightweight but limited in precision for some pilots. Starting with the Quicksilver MX series, the design transitioned to conventional three-axis controls; early MX models incorporated a control stick for elevator pitch and rudder yaw control, with pedals operating spoilerons for roll. Later MX variants and models such as the Sport 2S added separate rudder pedals and transitioned to ailerons for roll, which enhanced maneuverability and stability while maintaining the aircraft's ultralight character. These setups include features like full-span ailerons for responsive roll rates and optional inflight adjustable trim for ease of handling during extended flights.[3][11][1][16][17] Powerplants for the Quicksilver evolved from modest two-stroke engines to more capable options, all mounted in pusher configuration behind the wing to optimize propeller clearance and airflow over the high-wing design.[1] Early variants typically used 20-35 hp two-stroke engines, such as the Rotax 277 (26 hp) or Cuyuna 430 (35 hp), with some experimental use of smaller engines like the McCulloch MAC-101, which provided sufficient thrust for basic self-launching from flat terrain while keeping overall weight low.[3] In the MX and subsequent series, power increased to 40-64 hp with engines like the Rotax 503, Rotax 582, or Hirth F-23, offering improved climb and cruise performance without compromising the ultralight category limits.[17][18] These carbureted two-stroke powerplants feature dual ignition systems for reliability and are paired with reduction drives to match propeller speeds. The fuel system emphasizes simplicity and safety, with a standard 5-10 gallon tank integrated into the airframe for gravity-fed delivery to the carburetor, supporting endurance of 1-2 hours at typical cruise settings.[17] Post-2000 models incorporate electric starting for convenience, reducing manual pull-start risks associated with earlier two-strokes. These systems contribute to the Quicksilver's operational traits, including cruise speeds of 45-60 mph, stall speeds around 25 mph, and climb rates of 500-800 feet per minute, all under visual flight rules (VFR) with basic instrumentation like airspeed indicators and altimeters rather than complex avionics.[16][17] For landing control, some configurations include spoilers operated via dedicated pedals, which deploy to increase drag and lower stall speed without relying on flaps, aiding short-field performance in crosswinds.[19]Variants
Early single-seat models
The early single-seat Quicksilver models emerged in the late 1970s as powered evolutions of hang gliders, emphasizing simplicity and accessibility for novice pilots. The Quicksilver A, B, and C variants, introduced between 1978 and 1980, utilized basic weight-shift controls via a push bar to shift the pilot's center of gravity for pitch and roll, paired with a rudder for yaw. Powered by small 12-18 hp engines such as Chrysler West Bend units, these aircraft featured a rigid-wing design with a tail assembly and wheeled undercarriage, maintaining an empty weight under 254 lbs to comply with FAR Part 103 ultralight regulations. They served primarily as entry-level platforms for recreational and training flights, with the design's modular construction allowing quick assembly and disassembly for transport.[1][3] In the early 1980s, the Quicksilver E and M models advanced the series by incorporating wing struts for improved structural rigidity and stability during solo operations. Equipped with the 20-28 hp Rotax 277 two-stroke engine, these variants retained weight-shift principles but added refinements like tricycle landing gear options for easier ground handling. Key enhancements across the series included better sail tensioning mechanisms to reduce flutter and optional gear configurations for varied terrains, while all models prioritized portability by folding into compact sections for trailering.[1][20] By the mid-1980s, the Quicksilver MX Sprint represented a shift toward enhanced agility, introducing optional three-axis controls with ailerons, rudder pedals, and elevator for precise maneuvering. Powered by the 40 hp Rotax 447 engine, it focused on higher speeds and sportier handling compared to predecessors, appealing to pilots desiring more dynamic flight experiences. Despite these progressions, the core emphasis on lightweight, trailerable design persisted, paving the way for later tandem configurations.[21][3] The Quicksilver GT-400, developed in the mid-1980s, featured a 40 hp Rotax 447 engine and introduced options like an enclosed cockpit for weather protection, along with amphibious floats for versatile operations over water.[22] Designed with touring in mind, it achieved cruise speeds of 58-64 mph and a maximum of 78 mph, emphasizing comfort and range for longer flights.[23][24]Two-seat models
Two-seat variants of the Quicksilver MX line were introduced in the early 1980s, powered by a 40 hp Cuyuna engine and offering flexible seating in either side-by-side or tandem arrangements to support instructional flying with dual controls.[25] Its gross weight was rated between 500 and 550 lbs, allowing it to serve as a foundational trainer while maintaining the lightweight ultralight ethos of the series.[3] In the late 1980s, the Quicksilver MXL and MX II models advanced the two-seat lineup with a 50 hp Rotax 503 engine, an extended fuselage optimized for tandem seating, and an added elevator for enhanced low-speed handling and stability during training maneuvers.[10] These variants became popular among flying clubs due to their reliability and ease of operation for novice pilots and passengers.[1] The Quicksilver GT500, developed in the 1990s, is a tandem two-seat model featuring a 50 hp Rotax 503 engine, strut-braced wings, and full three-axis controls. It was the first Quicksilver to receive FAA Type Certification and is designed for training and touring with options for enclosed cockpits and improved instrumentation.[1] These two-seat models generally required experimental amateur-built certification under FAA regulations, as they exceeded ultralight weight limits for two-place operations.[1] Kit prices during the 1990s ranged from $10,000 to $15,000, reflecting the inclusion of airframe components, controls, and optional powerplants.[26]Modern light-sport variants
The Quicksilver Sport 2S represents a key post-2000 evolution in the Quicksilver lineup, adapted to meet FAA Light-Sport Aircraft (LSA) standards following their introduction in 2004. This side-by-side, two-seat ultralight trainer features strut-braced wings for reduced drag and improved rigidity, with a maximum gross weight of 1,000 pounds, well within LSA limits of 1,320 pounds for land-based fixed-wing aircraft. Powered by a 65-horsepower Rotax 582 two-stroke engine paired with a fixed-pitch, three-blade composite propeller, it emphasizes ease of assembly and docile handling for recreational and training use, with LAMA certification ensuring compliance to FAA-recognized airworthiness standards for experimental or kit-built configurations.[17] Building on this design, the Quicksilver Sport 2SE emerged in 2014 as the company's first factory-built Special Light-Sport Aircraft (S-LSA), offering turnkey FAA certification without builder assistance requirements. Retaining the 65-horsepower Rotax 582 engine and fixed-pitch propeller, it maintains a 1,000-pound gross weight while incorporating enhanced aluminum tube framing and sailcloth-covered surfaces for lightweight durability. The open-cockpit configuration supports side-by-side seating, basic instrumentation including airspeed and altimeter, and optional upgrades like ballistic parachutes or GPS avionics, though it lacks an enclosed cabin. Priced at around $40,000 fully assembled in its debut year, it prioritizes affordability and short-field performance, with a stall speed of 38 mph and cruise around 45 mph.[11] These variants trace their lineage briefly to earlier two-seat Quicksilver models but focus on LSA eligibility for broader accessibility under Sport Pilot rules. As of 2025, Quicksilver continues production through authorized dealers, supporting ongoing FAA compliance for both LSA and Part 103 ultralight operations, with applications in flight training and low-speed backcountry exploration. The overall Quicksilver family has exceeded 15,000 units produced historically, underscoring its enduring market role despite limited public data on specific modern registrations.[27]Specifications
Quicksilver MX Sport
The Quicksilver MX Sport, introduced in the 1980s as part of the MX series of single-seat ultralight aircraft developed by Eipper Aircraft, is designed for experimental operations under U.S. Federal Aviation Regulations Part 103.[1] Its airframe measures 18 ft 1 in (5.51 m) in length, 28 ft (8.53 m) in wingspan, 8 ft 10 in (2.69 m) in height, and features a wing area of 156 sq ft (14.5 m²), contributing to stable handling at low speeds.[12] The aircraft's empty weight is 254 lb (115 kg), with a gross weight of 525 lb (238 kg) under experimental rules, and a fuel capacity of 5 US gal (19 L).[12] Powered by a 40 hp (30 kW) Rotax 447 two-stroke engine driving a two-blade wooden propeller of 66 in (1.68 m) diameter by 34 in pitch, the MX Sport delivers reliable performance for recreational flying.[12] Key performance figures include a maximum speed of 58 mph (93 km/h), cruise speed of 50 mph (80 km/h) at 75% power, stall speed of 27 mph (43 km/h), range of 91 mi (146 km), and service ceiling of 14,000 ft (4,267 m).[12]| Specification | Metric | Imperial |
|---|---|---|
| Crew | 1 | 1 |
| Length | 5.51 m | 18 ft 1 in |
| Wingspan | 8.53 m | 28 ft |
| Height | 2.69 m | 8 ft 10 in |
| Wing area | 14.5 m² | 156 sq ft |
| Empty weight | 115 kg | 254 lb |
| Gross weight (experimental) | 238 kg | 525 lb |
| Fuel capacity | 19 L | 5 US gal |
| Powerplant | 30 kW Rotax 447 two-stroke | 40 hp Rotax 447 two-stroke |
| Propeller | 1.68 m x 0.86 m, 2-blade wooden | 66 in x 34 in, 2-blade wooden |
| Maximum speed | 93 km/h | 58 mph |
| Cruise speed | 80 km/h | 50 mph |
| Stall speed | 43 km/h | 27 mph |
| Range | 146 km | 91 mi |
| Service ceiling | 4,267 m | 14,000 ft |
Quicksilver Sport 2S
The Quicksilver Sport 2S serves as the flagship two-seat model in Quicksilver Aircraft's lineup, certified as a special light-sport aircraft (S-LSA) to meet modern regulatory standards for enhanced safety and accessibility. This design builds on the legacy of ultralight trainers by incorporating strut-braced wings for better structural integrity, a wider cockpit for side-by-side seating, and rugged tricycle landing gear with larger wheels for improved ground handling on varied surfaces. These updates make it suitable for flight training and recreational flying while maintaining the simple, open-cockpit appeal of earlier models.[28][11] Key dimensions include a length of 18 ft 3 in, wingspan of 30 ft 11 in, height of 8 ft 0.5 in, and wing area of 174.1 sq ft, providing stable low-speed flight characteristics ideal for novice pilots. The aircraft has an empty weight of 444 lb and a maximum gross weight of 1,000 lb, with a standard fuel capacity of 6 U.S. gal (options available up to 10 U.S. gal for extended flights). It supports a crew of two, with a useful load allowing for pilot, passenger, and baggage within light-sport limits.[14] The powerplant is a liquid-cooled, two-stroke Rotax 582 engine producing 65 hp, driving a two-blade wooden propeller of 68 in diameter by 36 in pitch. This configuration delivers reliable performance with a recommended time between overhauls of 300 hours.[14]| Performance Metric | Value |
|---|---|
| Maximum speed | 68 mph[14] |
| Cruise speed | 61 mph[29] |
| Stall speed | 35 mph (power off)[29] |
| Rate of climb | 500 fpm[14] |