At dawn the desert looks calm, almost forgiving. Wind has combed the dunes into clean lines, like brushstrokes, and the light lies low and gold across the flats. Somewhere behind that horizon is a wellhead that needs parts, a remote camp waiting on supplies, a field team expecting a pickup. The person who makes the crossing is a professional desert driver-part pilot, part mechanic, part naturalist, and wholly a student of the land.
People often imagine speed when they hear “desert driving,” thinking of dust plumes and rally cars skimming over whooped-out tracks. Some professionals do that work, guiding race vehicles through punishing stages or pre-running rally routes. But most of the job is not glamour; it is precision and patience. It is the slow, steady calculus of weight, heat, traction, and time. It is knowing when to float and when to anchor, when to commit and when to park up and wait for the wind to pass. In an environment that hides its edges in glare and mirage, judgment is the most important tool.
A desert driver reads the terrain like a mariner reads the sea. Dunes speak in curves and shadows: a windward face rippled tight as corduroy, a leeward slipface steep and powder-soft. The shape of a barchan points the way the wind has been blowing for weeks; the serrated spine of a star dune warns of treacherous cross-slopes. “Side-hilling” a dune looks easy until a few extra degrees of angle turns sand into ball bearings under a loaded truck and gravity takes over. Momentum is currency out here, valuable but dangerous, and the art lies in carrying just enough of it: easing up to a crest without launching over a blind drop, feeding the throttle gently so the tires stay floating rather than digging, letting the vehicle surf a slope with loose hands and cooler nerves. Gravel plains are another rhythm-corrugations that shake metal and resolve bolts, long distances that tempt speed but punish carelessness. And then there's sabkha, the salt flats: smooth and inviting until a crust gives way, swallowing a wheel to the axle in a stink of brine.
If the land is a language, the weather is its accent.
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A driver watches the sky, the way wind writes hieroglyphs on a dune's face, the texture of a morning's heat. Sandstorms don't always announce themselves with drama; sometimes the first sign is the taste of grit on your teeth, a faint dimming of the horizon. Flash floods bring another, opposite hazard. Dry riverbeds-wadis-can be bone-dry for months and then become violent with water in minutes. A professional knows the seasonal pulse and the local rules, and knows that no schedule is worth outrunning a storm.
Technically, the vehicles look ordinary until you look closer. Many desert drivers favor simple, robust trucks with long service histories: Land Cruisers, Patrols, Defenders, Hiluxes, and heavy lorries built for abuse. Deserts eat air filters; you'll see cyclonic pre-cleaners mounted like little top hats on snorkels, and dual fuel filters plumbed in for bad diesel. Tires are strong enough to take a rock at speed but supple enough to balloon when aired down for sand. unforgettable morning safari dubai Tire pressure becomes a fine instrument, tuned by load and temperature and terrain. Recovery gear is as much for prevention as for rescue: traction boards scabbed with melted scars, sand ladders scarred by a hundred escapes, soft shackles and kinetic ropes, shovels with worn handles. The roof rack carries less than you think because a high center of gravity is a quiet killer. Weight lives low and central: water jugs strapped tight, spare parts nested like matryoshka dolls, jerrycans balanced against range calculations scratched in a notebook.
Navigation is both ancient and modern. The sun is still a compass. The wind still carves directions into dunes. But redundancy is the true religion: paper maps annotated with pencil, waypoints programmed into two GPS units, a satellite phone, a tracker pinging at intervals, a PLB tucked away in case everything else fails. Convoy discipline moves like choreography: spacing that keeps dust out of radiators, hand signals and radio calls for crests and drops, a shared language for hazards-“soft crest, no drop,” “vegetation, watch your sidewalls,” “boggy ahead.” On long legs, drivers learn the peculiar arithmetic of desert time, the way a 200-kilometer route can be a short day on hardpan or a long one through rolling dunes, your speed traced by the shape of daylight more than by any clock.
Professionalism shows up most clearly in restraint. Anyone can gun a throttle and hope; the pro knows when to step out and walk the line, when to dig rather than spin, when to air down another two psi and when to stop before beads unseat. They know the smell of a clutch on the edge of surrender, the sound of a U-joint begging for grace, the feel of a shock fading in the heat.
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Mechanics is not a separate skill; it is inseparable from the craft. A good driver hears trouble early and sorts it before trouble becomes fate.
People skills matter, too, in a way outsiders might not expect.
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Deserts are inhabited, even when they look empty. A driver working in the Sahara, the Empty Quarter, the Atacama, or the Great Victoria learns the customs of those who call the place home. They trade greetings and news with pastoralists at a well, seek permission to cross tribal lands, ask for the freshest track to a camp after winds have erased the road. Respect is more than manners; it is safety, logistics, and ethics. The same goes for the land itself. morning safari dubai challenges A crust of biological soil is a living thing that can take decades to heal from a single set of tire tracks. Tracks last. The professional chooses existing lines where possible, skirts fragile areas, packs out what they bring in, and steers wide of archaeological sites that the desert has preserved better than any museum.
Romance is part of the work, of course. There are moments when you cut the engine and the silence has weight, when the stars are so bright they seem to lower the sky, when a herd of gazelles crosses a distant ridge line as if choreographed just for you. But the job isn't a postcard; it is logistics and risk managed hour by hour. A professional desert driver plans water like a miser, meters rest like a medic, and holds enough humility to turn back when the variables stack up wrong. early morning activities . The bravado that looks good on social media is a liability when the nearest mechanic is three days away.
So why do they do it? Ask ten drivers and you'll get ten versions of the same answer: the work is honest, the feedback immediate, the margin for error sharp enough to keep you awake to your own choices. In a world of autopilots and signals bouncing off satellites, a desert still demands attention from the senses and respect from the ego. You can't argue with sand. You read it. You adapt to it.
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You cross it by accepting its terms.
At dusk the wind drops and the heat drains into the ground. A little camp stove whispers, someone calls the last mileage over the radio, and a final walk around the truck finds a loose strap, a hairline crack, a pebble lodged into a brake shield that will squeal tomorrow if you don't pry it out now. The job is in those small acts as much as in any heroic recovery. In the morning the dunes will look new again, and the line you laid down today will have softened into suggestion. That is the desert's way, and the professional desert driver's work is to keep moving through it-carefully, humbly, and well.
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About Can-Am
Sports car racing series from 1966 to 1987
This article is about the motorsport cup. For the baseball league, see Canadian-American Association of Professional Baseball. For manufacturer of ATVs, see Can-Am motorcycles. For other uses, see Can-Am (disambiguation).
Can-Am
The logo of the Can-Am Challenge Cup
Category
Sports car racing
Country
United States, Canada
Folded
1987
The Canadian-American Challenge Cup, or Can-Am, was an SCCA/CASC sports car racing series from 1966 to 1974, and again from 1977 to 1987.
The Can-Am rules were deliberately simple and placed few limits on the entries. This led to a wide variety of unique car body designs and powerful engine installations. Notable among these were Jim Hall's Chaparrals and entries with over 1,000 horsepower.
History
[edit]
The Can-Am race at Edmonton International Speedway in 1973
Can-Am started out as a race series for Group 7 sports racers with two races in Canada (Can) and four races in the United States of America (Am). The series was initially sponsored by Johnson Wax. The series was governed by rules called out under the FIA Group 7 category with unrestricted engine capacity and few other technical restrictions.
The Group 7 category was essentially a Formula Libre for sports cars; the regulations were minimal and permitted unlimited engine sizes (and allowed turbocharging and supercharging), virtually unrestricted aerodynamics, and were as close as any major international racing series ever got to have an "anything goes" policy. As long as the car had two seats, bodywork enclosing the wheels, and met basic safety standards, it was allowed. Group 7 had arisen as a category for non-homologated sports car "specials" in Europe and, for a while in the 1960s, Group 7 racing was popular in the United Kingdom as well as a class in hillclimb racing in Europe. Group 7 cars were designed more for short-distance sprints than for endurance racing. Some Group 7 cars were also built in Japan by Nissan and Toyota, but these did not compete outside their homeland (though some of the Can-Am competitors occasionally went over to race against them).
SCCA sports car racing was becoming more popular with European constructors and drivers, and the United States Road Racing Championship for large-capacity sports racers eventually gave rise to the Group 7 Can-Am series. There was good prize and appearance money and plenty of trade backing; the series was lucrative for its competitors but resulted, by its end, in truly outrageous cars with well over 1,000 horsepower (750 kW) (the Porsche team claimed 1,500 hp (1,100 kW) for its 917/30 in qualifying trim[1]), wings, active downforce generation, very light weight and unheard of speeds. Similar Group 7 cars ran in the European Interserie series from 1970 on, but this was much lower-key than the Can-Am.
On-track, the series was initially dominated by Lola, followed by a period in which it became known as the "Bruce and Denny show", the works McLaren team dominated for five consecutive seasons (1967-1971) until the Porsche 917 was perfected and became almost unbeatable in 1972 and 1973. After Porsche's withdrawal, Shadow dominated the last season before Can-Am faded away to be replaced by Formula 5000. Racing was rarely close—one marque was usually dominant—but the noise and spectacle of the cars made the series highly popular.
The energy crisis and the increased cost of competing in Can-Am meant that the series folded after the relatively lackluster 1974 season; the single-seater Formula 5000 series became the leading road-racing series in North America and many of the Can-Am drivers and teams continued to race there. F5000's reign lasted for only two years, with a second generation of Can-Am following. This was a fundamentally different series based initially on converted F5000 cars with closed-wheel bodies. There was also a two-liter class based on Formula Two chassis. The second iteration of Can-Am faded away as IMSA and CART racing became more popular in the early 1980s but remained active until 1987.
Can-Am remains a well-remembered form of racing due to its popularity in the 1960s and early 1970s, the limited number of regulations allowing extremely fast and innovative cars and the lineup of talented drivers. Can-Am cars remain popular in historic racing today.
Notable drivers
[edit]
Notable drivers in the original Can-Am series included virtually every acclaimed driver of the late 1960s and early 1970s. Jim Hall, Mark Donohue, Mario Andretti, Parnelli Jones, George Follmer, Dan Gurney, Phil Hill, Denny Hulme, Jacky Ickx, Bruce McLaren, Jackie Oliver, Peter Revson, John Surtees, and Charlie Kemp all drove Can-Am cars competitively and were successful, winning races and championship titles. Al Holbert, Alan Jones and Al Unser Jr. are among the drivers who launched their careers in the revived Can-Am series.
Pioneering technology
[edit]
Can-Am was the birthplace and proving ground for what, at the time, was cutting-edge technology. Can-Am cars were among the first race cars to use sport wings, effective turbocharging, ground-effect aerodynamics, and aerospace materials like titanium. This led to the eventual downfall of the original series when costs got prohibitive. However during its height, Can-Am cars were at the forefront of racing technology and were frequently as fast as or even faster around laps of certain circuits than the contemporary Formula One cars. Noted constructors in the Can-Am series include McLaren, Chaparral, Lola, BRM, Shadow and Porsche.
Manufacturers
[edit]
McLaren
[edit]
A McLaren M1A, one of the early Can-Am competitors that was equally at home in other sportscar series.McLaren Can Am Chassis restored by Racefab Inc. for vintage racing
McLaren cars were specially designed race cars. The Can-Am cars were developments of the sports cars which were introduced in 1964 for the North American sports car races. The team works car for 1964 was the M1. For 1965 the M1A prototype was the team car and bases for the Elva customer M1A cars. In late 1965 the M1b(mk2) was the factory car in 1966 with Bruce McLaren and Chris Amon as drivers. In 1967, specifically for the Can-Am series, the McLaren team introduced a new model, the M6A. The McLaren M6A also introduced what was to become the trademark orange color for the team. The McLaren team was considered very "multinational" for the times and consisted of team owner and leader Bruce McLaren, fellow New Zealander Chris Amon and another "kiwi", the 1967 Formula One world champion, Denny Hulme, team manager Teddy Mayer, mechanics Tyler Alexander, Gary Knutson, Lee Muir, George Bolthoff, Frank Zimmerman, Tom Anderson, Alan Anderson, David Dunlap, Leo Beattie, Donny Ray Everett, and Haig Alltounian (all from the US), Don Beresford, Alec Greaves, Vince Higgins, and Roger Bailey (UK), Tony Attard (Australia), Cary Taylor, Jimmy Stone, Chris Charles, Colin Beanland, Alan McCall, and Alistair Caldwell (NZ). The M6 series used a full aluminum monocoque design with no uncommon features but, for the times, there was an uncommon attention to detail in preparation by the team members. The M6 series of cars were powered by Chevy "mouse-motor" small-block V8s built by Al Bartz Engines in Van Nuys, California. They were models of reliability. This was followed in 1968 by the M8A, a new design based around the Chevy big-block V8 "rat motor" as a stressed member of the chassis. McLaren went "in house" with their engine shop in 1969. The M8B, M8C, M8D and M20C were developments of that aluminum monocoque chassis. McLaren so dominated the 1967-1971 seasons that Can-Am was often called the "Bruce and Denny show" after the drivers who very often finished first and second. There was even a one-two-three finish at the Michigan International Speedway on September 28, 1969: McLaren first, Hulme second, and Gurney third. Nine months later, Bruce McLaren lost his life, on June 2, 1970, at Goodwood when the rear bodywork of his prototype M8D detached during testing resulting in a completely uncontrollable car and a fatal high-speed crash. Team McLaren continued to succeed in Can-Am after Bruce's death with a number of other drivers, but the works Porsche effort with a turbocharged flat-12 engines and a high development budget meant that they could not keep up with the 917. Although private McLarens continued in the series, the works team withdrew to concentrate on Formula One (and USAC, for several years). Team McLaren went on to become a several time F1 champion and is still a part of that series.
Porsche
[edit]
The Porsche 917/30 carried Mark Donohue to the 1973 championship.
The Porsche 908 spyder was used in Can-Am, but was underpowered (350 hp) and mainly used by underfunded teams. It did win the 1970 Road Atlanta race, when the more powerful cars fell out. The 917PA, a spyder version of the 917K Le Mans car, was raced, but its normally aspirated flat-12 was underpowered (530 hp). In 1971 the 917/10 was introduced. This was not turbocharged, but was lighter and had cleaner body work, and Jo Siffert managed to finish fourth in the championship.
For 1972 the 917/10K with a turbocharged 900 horsepower five-litre flat-12 was introduced. Prepared by Roger Penske and driven by Mark Donohue and George Follmer these cars won six of the nine races. In 1972 Porsche introduced an even more powerful car, the 917/30KL. Nicknamed the "Turbopanzer" this car was seen as a monster. With 1,100 or 1,580 horsepower (820/1161 kW in race or qualifying trim)[citation needed] available from its 5.4 litre flat-12 and weighing 1,800 lb (816 kg) with better downforce this car won six of eight races in the 1973 championship.[2] Porsche's dominance was such that engine rules were changed to try to reduce the lack of competition for one marque by enforcing a fuel-consumption rule for 1974. This kind of alteration of rules to promote equality is not unknown in other forms of American motorsport. The category that the car had been created for and competed in was discontinued and in 1975 Donohue drove this car to a closed-course world-speed record of 221 mph (average)(356 km/h) at the Talladega Superspeedway (then called the "Alabama International Motor Speedway"). It was capable of 240 mph (386 km/h) on the straights.[3]
Chaparral
[edit]
Chaparral's infamous 2J "Sucker Car" was banned from Can-Am after 1970, due to its unique downforce-producing fans.
Jim Hall's Chaparrals were very innovative, following his success in the United States Road Racing Championship (USRRC). The 2 series Chaparrals (built and engineered with a high degree of covert support from Chevrolet's research and development division) were leaders in the application of aerodynamics to race cars culminating with the introduction of the 2E in 1966, the first of the high wing race cars. The 2E was a defining design, and the 2G was a development of that basic design. The FIA banned movable aerodynamic devices and Chaparral responded with the 2H 1969. The 2H broke new ground, seeking to reduce drag but did not achieve much success. The 2J that followed was perhaps the ultimate example of what Group 7 rules could allow in a racing car. It was a twin-engined car, with the by-then usual big-block Chevrolet engine providing the driving force, and a tiny snowmobile engine powering a pair of fans at the back of the car. These fans, combined with the movable Lexan "skirts" around the bottom of the car created a vacuum underneath the car, effectively providing the same level of downforce as the huge wings of previous vehicles, without the drag. Although far too mechanically complex to survive in racing environments, the theory was sound, and would appear in Formula One a few years later in the BT46B "Fan Car" of 1978.
Lola
[edit]
The Lola T70, T160-165, T220, T260, and T310 were campaigned by the factory and various customers, and were primarily Chevy powered. The Lola T70 driven by John Surtees won the first Can-Am championship in 1966. Lola continued to experiment with new designs versus McLaren which refined the design each year. The 1971 Lola T260 had some success with Jackie Stewart taking two victories. In 1972 a radical new design, the Lola T310, made its appearance. The T310 was the longest and widest Can-Am car of the era versus the short stubby T260. The T310 was delivered late and suffered handling problems the entire year with its best finish a fourth at Watkins Glen.
Others
[edit]
1974s Shadow DN4A
While McLaren and Porsche dominated the series for most of its existence, other vehicles also appeared. Well-established European manufacturers like Lotus, CRD, in the form of their Merlyn Mk8 Chevrolet, Ferrari and BRM, appeared at various times with limited success, while March tried to get a share of the lucrative market in 1970–71, but could not establish themselves. Ford also flitted across the scene with a number of unsuccessful cars based on the GT40 and its successors. American specialist marques like McKee, Genie and Caldwell competed, alongside exotica like the astonishing four-engined Macs-It special.
British-born mechanic and engineer Peter Bryant designed the Ti22 (occasionally known as the Autocoast after one of the team's major backers) as an American-built challenger to the British McLarens and Lolas. The car made extensive use of titanium in its chassis and suspension, and Bryant experimented with aerodynamics and with early use of carbon-fibre to reduce weight. Although the car was quick it did not achieve consistent success; problems with the team's funding saw Bryant move on to Don Nichols' UOP-sponsored Shadow team. The Shadow marque had made its debut with an astonishing car with tiny wheels and radiators mounted on top of the rear wing designed by Trevor Harris; this was unsuccessful, and more conventional cars designed by Bryant replaced them; Bryant was sidelined when Shadow moved into Formula One but after his departure, turbocharged Shadows came to dominate as Porsche and McLaren faded from the scene.
Decline and revivals
[edit]
Al Holbert driving a VDS-001 in the revived Can-Am in 1982.
The last year for the original Can-Am championship was 1974. Spiraling costs, a recession in North America following the oil crisis, and dwindling support and interest led to the series being canceled and the last scheduled race of the 1974 season not being run.[4]
The Can-Am name still held enough drawing power to lead SCCA to introduce a revised Can-Am series in 1977 based on a closed-wheel version of the rules of the recently canceled Formula A/5000 series. This grew steadily in status, particularly during the USAC/CART wars of the late 70s and early 80s, and attracted some top road-racing teams and drivers and a range of vehicles including specials based on rebodied single seaters (particularly Lola F5000s) and also bespoke cars from constructors like March as well as smaller manufacturers. To broaden the appeal of the series a 2L class was introduced for the last several years—cars often being derived from F2/Formula Atlantic. The series peaked in the early 80s but as the CART Indycar series and IMSA's GTP championship grew in stature it faded. In 1987 the series changed as Indycars started to become a source of cars. The SCCA took away the Can-Am name but the series continued as the Can-Am Teams Thunder Cars Championship. After a single year the teams took the sports bodies off and evolved into American Indycar Series.
In 1991, after 18 months of development, a Shelby Can-Am series was created using a production line of Sports bodied cars designed by Carroll Shelby powered by a 3.3 litre Dodge V6. The series ran for five years before it was dropped by the SCCA. A large number of cars were relocated to South Africa and ran from 2000 onwards.
The name was once again revived in 1998, when the United States Road Racing Championship broke away from IMSA. Their top prototype class was named Can-Am, but the series would fold before the end of 1999 before being replaced by the Grand American Road Racing Championship. The Can-Am name would not be retained in the new series.
Circuits
[edit]
Main article: List of Can-Am Challenge Cup circuits
Champions
[edit]
Year
Driver
Team
Car
1966
John Surtees
Team Surtees
Lola T70-Chevrolet
1967
Bruce McLaren
Bruce McLaren Motor Racing
McLaren M6A-Chevrolet
1968
Denny Hulme
Bruce McLaren Motor Racing
McLaren M8A-Chevrolet
1969
Bruce McLaren
Bruce McLaren Motor Racing
McLaren M8B-Chevrolet
1970
Denny Hulme
Bruce McLaren Motor Racing
McLaren M8D-Chevrolet
1971
Peter Revson
Bruce McLaren Motor Racing
McLaren M8F-Chevrolet
1972
George Follmer
Penske Racing
Porsche 917/10
1973
Mark Donohue
Penske Racing
Porsche 917/30 TC
1974
Jackie Oliver
Shadow Racing Cars
Shadow DN4A-Chevrolet
1975–1976
No series
1977
Patrick Tambay
Haas-Hall Racing
Lola T333CS-Chevrolet
1978
Alan Jones
Haas-Hall Racing
Lola T333CS-Chevrolet
1979
Jacky Ickx
Carl Haas Racing
Lola T333CS-Chevrolet
1980
Patrick Tambay
Carl Haas Racing
Lola T530-Chevrolet
1981
Geoff Brabham
Team VDS
Lola T530-Chevrolet / VDS 001-Chevrolet
1982
Al Unser Jr.
Galles Racing
Frissbee GR3-Chevrolet
1983
Jacques Villeneuve Sr.
Canadian Tire
Frissbee GR3-Chevrolet
1984
Michael Roe
Norwood/Walker
VDS 002-Chevrolet / VDS 004-Chevrolet
1985
Rick Miaskiewicz
Mosquito Autosport
Frissbee GR3-Chevrolet
1986
Horst Kroll
Kroll Racing
Frissbee KR3-Chevrolet
1987
Bill Tempero
Texas American Racing Team
March 85C-Chevrolet
Under 2 Litre class champions
[edit]
Year
Driver
Team
Car
1979
Tim Evans
Diversified Engineering Services
Lola T290-Ford
1980
Gary Gove
Pete Lovely VW
Ralt RT2-Hart
1981
Jim Trueman
TrueSports
Ralt RT2-Hart
1982
Bertil Roos
Elite Racing
Marquey CA82-Hart
1983
Bertil Roos
Roos Racing School
Scandia B3-Hart
1984
Kim Campbell
Tom Mitchell Racing
March 832-BMW
1985
Lou Sell
Sell Racing
March 832-BMW
References
[edit]
^
Nevison, Robert (director) (2008). CAN-AM: The Speed Odyssey (documentary).
^http://www.wspr-racing.com/wspr/results/canam/canam1973.html 1973 Can Am results
^"Donohue Hits 221 for Closed Course Record". Daytona Beach Morning Journal. AP. August 10, 1975. p. 1B. Retrieved April 24, 2015.
^Lyons, Pete (1995). Can-Am. Osceola, Wisconsin: Motorbooks International. p. 240. ISBN 0-7603-0017-8.
Bibliography
[edit]
Can-Am, Pete Lyons, Motorbooks International
Can-Am Races 1966–1969, Brooklands Books
Can-Am Races 1970–1974, Brooklands Books
Can-Am Racing Cars 1966–1974, Brooklands Books
Can-Am Challenger, Peter Bryant, David Bull
External links
[edit]
Wikimedia Commons has media related to Can-Am (autosport).
CanAm History site Archived 2005-08-31 at the Wayback Machine
Can-Am History, by Michael Stucker
Bruce McLaren Trust Official site
Can-Am Results 1966-1986
CanamCircus by Stéphane Lebiez
Historic Can Am
The History of the Canadian - American Challenge Cup
v
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e
Circuits of the Can-Am Challenge Cup (1966–1987)
Canada
Edmonton
Mont-Tremblant
Mosport
Sanair
Trois-Rivières
United States
Brainerd
Bridgehampton
Caesars Palace
Charlotte
Dallas
Gateway
Green Valley
Hallett
Laguna Seca
Lime Rock
Michigan
Mid-Ohio
Milwaukee
Phoenix
Pueblo
Riverside
Road America
Road Atlanta
Sears Point
Stardust
St. Petersburg
Summit Point
Texas World
Watkins Glen
Willow Springs
v
t
e
Classes of auto racing
Formula
racing
Active
F1
F2
F3
F4
F600
Formula 1000
Formula Atlantic
Formula Car Challenge
Formula Continental
Formula E
Formula Enterprises
Formula Ford
FF1600
Formula Regional
GB3
Formula Vee
IndyCar
Super Formula
Supermodified
BOSS GP
Monoposto Racing Club
V de V Challenge Monoplace
Defunct
F3000
F5000
Formula A (SCCA)
Formula B (SCCA)
Formula C (SCCA)
FCJ
Formula Dream
Formula Holden
S5000
Formula Junior
Formula Libre
Formula Mondial
Formula Pacific
Formula Super Vee
Australian National Formula
Tasman Series
One-make
formulae
Active
Formula Car Challenge
Formula Enterprise
Indy NXT
MRF Challenge
SRF
USF Pro 2000
USF2000
USF Juniors
FIA Formula Championship
2
3
Defunct
ADAC Formel Masters
Barber Pro
CFGP
Formula Asia
Formula
Abarth
Alfa
BMW
Chrysler
König
LGB
Swift
Hyundai
Lightning
Maruti
Masters
China
Russia
Mazda
Nissan
Opel/Vauxhall
Palmer Audi
RUS
Rolon
Formula Renault
2.0L
GP2
GP3
Toyota Racing Series
S5000
Kart racing
Active
Direct-drive
OK
OK-J
OK-N
OKN-J
60 Mini
Gearbox
KZ
KZ2
KZ2-M
Superkart
Defunct
KF1
Touring
car racing
Active
BTCC
NGTC (TCN-1)
TCR (TCN-2)
Stock Car Pro Series
Stock Series
Supercars
Top Race V6
Turismo Nacional
Turismo Nacional BR
TC2000
Defunct
Appendix J
BTC-T
Group 1
Group 2
Group 5
Group A
Group C
Group E
Group F
Group G
Group H
Group N
Aus
Group S
Class 1
Class 2
Super 2000
Diesel 2000
DTM
ETCR
Superstars
V8Star
WTCC
WTCR
Stock
car racing
Active
ARCA
Allison Legacy Series
IMCA Sport Compact
Late model
Legends
Modifieds
NASCAR
Cup
O'Reilly
Truck
Canada
Whelen Euro Series
Mexico
Super Stock
Street Stock
Turismo Carretera
Defunct
ASCAR
AUSCAR
IROC
SRX
Oval
BriSCA F1
BriSCA F2
V8 Hotstox
Hot Rods
Superstocks
Superstox
Sprint car racing
Midget car racing
Quarter midget racing
Rallying
Active
Groups Rally
Group Rally1
Group Rally2
Group Rally3
Group Rally4
Group Rally5
Group R-GT
Defunct
Group 1
Group 2
Group 4
Group A
Group B
Group S
Group N
Group R
Super 1600
Super 2000
World Rally Car
Sports
prototypes
Active
LMDh
LMH
LMP
LMP2
LMP3
Clubmans
Defunct
DP
DPi
Group 3
Group 4
Group 5
Group 6
Group 7
Group A
Group C
Group CN
GC
GC-21
IMSA GTP (1981–1993 era)
LMP
LMP1
LMPC
S2000
Grand
touring
Active
GT3
GT2
GT4
GT500
GT300
Trans-Am
Defunct
Group 3
Group 4
Group 5
Group B
Group D
GT1 (1993–1999)
GT1 (2000–2012)
GT2 (1993–1999)
GT2 (2005–2010)
GT3 (1998–1999)
LM GTE
IMSA
AAGT
GTO
GTS
GTU
GTX
Appendix K
Drag
racing
Active
Top Fuel
Dragster (TF/D)
Funny Car (TF/FC)
Top Alcohol
Dragster (TA/D)
Funny Car (TA/FC)
Pro Stock (PS)
Pro Modified (Pro Mod)
Gas
Super Stock
Super Comp/Quick Rod
Top Doorslammer
Altered
Competition
Radial vs. The World
Pro 275
X275
Outlaw 10.5
Defunct
Top Gas
Modified
Pro FWD
Off-road
Baja Bug
Dune buggy
Rallycross
Autocross
Trophy truck
Group T1
Group T2
Group T3
Group T4
Group T5
Truggy
Side by Side (UTV)
About Sandrail
Lightweight off-road vehicle
Sandrail at Dumont Dunes CA 2011
A sandrail, also called a sand rail, rail, or sand car, is a lightweight off-road motor vehicle specifically built for traveling in sandy terrain. Synonymously referred to as dune buggies, a sandrail is a type of speciality vehicle.[1] They are popularly operated on actual sand dunes. Sandrails can be driven on other types of terrain but are designed specifically for sand.
History
[edit]
Sandrail, 1973Sandrail frame advertisement circa 1978
At the end of World War II thousands of soldiers returning from the war had spent years driving Jeeps, tanks, and half-tracks with few or no roads. Having an increased disposable income, these GIs formed the original core of off-road enthusiasts. Initially, they used surplus Jeeps and cut-up cars to build their off-road vehicles. Soon these "off-roaders" discovered that with little more than a skid plate, they could get a stock air-cooled Volkswagen Beetle to go almost anywhere.[2] Throughout the 1950s the sport continued to develop.
In 1958 Pete Beiring of Oceano, Calif., took the body frame or "pan" from a damaged Volkswagen and shortened it into a new machine that eventually became the precursor to the dune buggy. This eventually led to the first production dune buggy called the "Sportster", which was developed around 1960 by the EMPI Imp Company. It was an angular sheet metal vehicle built on a stripped-down Volkswagen chassis. Many others followed including the ever popular Meyers Manx design.[3] Dune buggies had a style all their own with fiberglass siding and other "heavy" body features.
As the late 1960s and early '70s approached, enthusiasts developed lighter and more powerful sand vehicles capable of ascending steeper and higher dunes. Many started experimenting at home by building super light weight vehicle frames from metal tubing, often without a roll cage. Many were nothing more than a frame, engine, transmission, wheels and one or two seats. Because of their versatility, light weight and simplicity the air-cooled Volkswagen engine and transmission were the power plant of choice for many owners. By placing the motor and transmission in the rear of the frame it allowed the front of the sandrail to remain extremely light and thus able to "float" over the sand dunes. An added value of placing the engine in the rear of the vehicle was that heat created by the motor did not blow into the face of the driver and passengers. From the 1970s forward, sandrail builders continued to push the delicate balance between weight and power.
Body style
[edit]
Dumont Dunes sandrail video
When it comes to serious sand dunes, most off-road vehicles including those with four wheel drive are relatively top heavy and can only safely climb or descend steep hills with a mostly perpendicular approach to inclines or downhills. In the case of driving up a steep sand dune, many would simply "dig-in" and get stuck.
Sandrails are ultra lightweight vehicles often weighing in at 800 and 1500 pounds (≈363 and ≈680 kg). They typically use high flotation smooth or farm implement front tires and special rear paddle tires, allowing it to skim over the surface of the sand without getting stuck. A sandrail has a low center of gravity, permitting it to make tight turns even on the face of a sand dune.
Sandrail frames are built from a tubular space frame chassis that incorporates an integrated roll cage. The distinction between a sandrail and dune buggy or sand car is that the sandrail will rarely have windows, doors, fenders, or full body panels. The sandrail will also be a lighter weight vehicle compared to the sandcar. On most sandrails, the engine is typically at the rear. Some sandrails also use a mid-engine configuration. This design offers favorable weight distribution and traction, which is very desirable for dune "hill-climbing".
Engines and fuel
[edit]
170HP Volkswagen mid-engine performance sandrail engine.Note that the engine air intake filters have been unscrewed from the intakes for either cleaning or display purposes (See the two vertical pipes closest to the camera at the center-right of the image, and the second set of pipes in the background).
Originally becoming popular in the 1960s, sandrails used lightweight air-cooled engines like the Volkswagen engine from the VW Beetle and Porsche (~200 pounds) or the Chevrolet Corvair, Mitsubishi Minica and Cosworth DFV (~350 pounds). Because of the availability of affordable parts, the Volkswagen engine continues to be the mainstay of many sandrails today. At some point in the late 1970s in the wake of the Ford Pinto product liability cases, the first alternative engine was sourced from the Pinto, primarily the 2.0L and 2.3L. More recently, some enthusiasts have turned to lighter weight water-cooled engines such as the Subaru boxer or GM Ecotec engines.[4]
The need for more power comes from necessity and desire when driving in steep sand dunes. This has driven sandrail engine builders to add performance features to engines such as the stock (24 to 50 horse power) Volkswagen engine. These include: larger pistons, turbochargers, dual racing carburetors, fuel injection, and high performance cylinder heads. Some performance engines can run on premium unleaded gasoline. However, many high performance engines must use racing fuel or fuel additives. A high performance sandrail Volkswagen engine can produce well into the 170-200+ horse power range and as high as 700 horse power with methanol fuel.[5]
Most sandrails use a manual transmission, although automatic transmissions are used as well.[6][page needed]
Accessories
[edit]
Early sandrails often consisted of little more than a steering wheel, brakes and accelerator. However, today an entire industry is built around all kinds of accessories such as HID and LED headlamps, radios, passenger communications headsets and GPS navigation devices.
Other applications
[edit]
US Navy SEAL sandrail, 2010
Some states in the USA, such as Arizona and Utah, allow the registration of sandrails and other primarily off-road vehicles for "on-road" use. In these states, sandrails registered for on-road use usually must meet the minimum insurance coverage required by normal vehicles.[7] Additionally, they may require modifications to be road worthy. These requirements typically include a wind shield, turning signals, and license plate. These requirements may vary by state.
Sandrails have been employed by US state authorities, the United States Border Patrol and even the military. They are still in use today by the Navy SEALs. The military design of these vehicles is based on the Chenowth Advanced Light Strike Vehicle model and have been modified for a third seat above the engine to control a .50 caliber machine gun and other armaments. State authorities, such as rangers at sand dune parks sometimes employ sandrails, removing the passenger seat to convert the sandrail into a makeshift ambulance with a stretcher.
Although sandrails are primarily designed for the sand, they have been successfully used on "soft pack" dirt, mud and even snow. Some of these types of applications usually require the use of off-road type tires versus "sand" tires. They are typically not well suited for rocky terrain due to their mostly limited suspension and lighter duty frames.
Safety
[edit]
Accidents most often occur in collisions with other off-road vehicles, and are frequently the result of not being seen. In many dune areas, all sand vehicles (motorcycles, quads, sandrails, UTVs and sandcars) are required to use an eight-foot antenna whip and flag. This is critical to being seen by other vehicles as a driver traverses from one dune to the next.[8] Most sandrails employ a variety of safety features for the driver and passengers. The most common is the use of a three-point safety belt system. Many sand rails also utilize roll bar padding and fire extinguishers. More advanced safety features sometimes include: arm and wrist restraints, netting for large frame openings, automatic fuel cut-off switches and horns. Additionally, the use of eye protection (goggles and ballistic-grade glasses) is considered a necessity. Finally, the use of helmets while "duning" is increasing due to the advances in performance. Sand associations along with state and federal land management agencies work to provide dune safety information through pamphlets, online and in classes.
Future, industry and associations
[edit]
Sandcar at Silver Lake Sand Dunes
Due to its economical cost to build and maintain, access to new parts and good balance between weight and power, the sandrail continues to be used by many enthusiasts today.[9] However, the heavier and typically more powerful sandcar now represents another style for duners.[1] This style often employs mammoth cars weighing several thousand pounds and using highly advanced suspension systems and transmissions coupled with large performance V8 engines such as the latest GM LS engine series, Ford Coyote engine series or Range Rover engine series.
Associations such as ASA hold events throughout the year in some parts of the country for sand racing and hill climbing. Additionally, these associations provide representation for enthusiasts with legislators and land management officials.
References
[edit]
^ ab
Brandt, Marlin (February 18, 2012). "Informal survey of 100 people at Dumont Dunes 2012".
^Hibbard, Jeff (1983). Baja Bugs & Buggies. HP books. pp. 2–3. ISBN 978-0-89586-186-3.
^Dune Buggy History. "Dune Buggy History". Dune Buggy Archives.
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Desert Safari Dubai - Dune Buggy Rental & ATV Quad Bike Tours - Marasi Drive - Dubai - United Arab Emirates, Lake Central Tower 4th Floor - Office 404 مراسي درايف - الخليج التجاري - دبي - United Arab Emirates
Desert Safari Dubai - Dune Buggy Rental & ATV Quad Bike Tours - Marasi Drive - Dubai - United Arab Emirates, Lake Central Tower 4th Floor - Office 404 مراسي درايف - الخليج التجاري - دبي - United Arab Emirates
Desert Safari Dubai - Dune Buggy Rental & ATV Quad Bike Tours - Marasi Drive - Dubai - United Arab Emirates, Lake Central Tower 4th Floor - Office 404 مراسي درايف - الخليج التجاري - دبي - United Arab Emirates
Desert Safari Dubai - Dune Buggy Rental & ATV Quad Bike Tours - Marasi Drive - Dubai - United Arab Emirates, Lake Central Tower 4th Floor - Office 404 مراسي درايف - الخليج التجاري - دبي - United Arab Emirates
Desert Safari Dubai - Dune Buggy Rental & ATV Quad Bike Tours - Marasi Drive - Dubai - United Arab Emirates, Lake Central Tower 4th Floor - Office 404 مراسي درايف - الخليج التجاري - دبي - United Arab Emirates
Desert Safari Dubai - Dune Buggy Rental & ATV Quad Bike Tours - Marasi Drive - Dubai - United Arab Emirates, Lake Central Tower 4th Floor - Office 404 مراسي درايف - الخليج التجاري - دبي - United Arab Emirates
Desert Safari Dubai - Dune Buggy Rental & ATV Quad Bike Tours - Marasi Drive - Dubai - United Arab Emirates, Lake Central Tower 4th Floor - Office 404 مراسي درايف - الخليج التجاري - دبي - United Arab Emirates
Desert Safari Dubai - Dune Buggy Rental & ATV Quad Bike Tours - Marasi Drive - Dubai - United Arab Emirates, Lake Central Tower 4th Floor - Office 404 مراسي درايف - الخليج التجاري - دبي - United Arab Emirates
Desert Safari Dubai - Dune Buggy Rental & ATV Quad Bike Tours - Marasi Drive - Dubai - United Arab Emirates, Lake Central Tower 4th Floor - Office 404 مراسي درايف - الخليج التجاري - دبي - United Arab Emirates
Desert Safari Dubai - Dune Buggy Rental & ATV Quad Bike Tours - Marasi Drive - Dubai - United Arab Emirates, Lake Central Tower 4th Floor - Office 404 مراسي درايف - الخليج التجاري - دبي - United Arab Emirates
Yes, Morning Desert Safari Dubai is completely safe. All drivers are professionally licensed by top tourism organizations and have extensive experience. The Land Cruiser 4x4 vehicles are well-maintained, and all necessary safety equipment and guidance are provided throughout the tour.
What is Morning Desert Safari Dubai?
Morning Desert Safari Dubai is an early morning adventure experience in the Arabian Desert that includes dune bashing in a Land Cruiser 4x4, sandboarding, camel riding, and refreshments. The tour starts with pickup between 8:30-9:00 AM and returns by 12:00-12:30 PM, priced at AED 225 per person.
Can I book Morning Desert Safari Dubai last minute?
Yes, you can book Morning Desert Safari Dubai at any time through the 24-hour booking service. Call +971 52 440 9525 or email info@dunebuggyrentalsdubai.com anytime for last-minute or advance bookings. The team responds quickly to confirm availability.