International Tornado Class
A Brief Tornado History
THE STORY OF THE TORNADO, THE OLYMPIC CATAMARAN
By John Forbes (1997) and updated by Jim Young (2003)
 The
Tornado was designed in the autumn of 1967 by Rodney March from England,
with help from Terry Pierce, and Reg White, specifically for the purpose
of being the new Olympic Catamaran, which was to be selected by the IYRU
in an Olympic Catamaran Trials. The boat was developed mainly in Brightlingsea,
England.
International Status was granted to the Tornado as a result of its outright
winning of the IYRU Trials held in England. The next step, adding the Catamaran
event to the Olympic program, occurred two years later, with the result
that the first Catamaran event, sailed in 1976 in Canada, was sailed in
the Tornado. The Tornado is an outstanding example of a class that was designed
specifically for Olympic competition that has become a successful International
class on its own merits.
The Tornado has since remained unchallenged as the ultimate one-design
catamaran. With its modern, stylish rigging and sleek lines the Tornado
is quick to catch the eye of any water-drawn on-looker as it speeds across
harbors, lakes, and oceans in over 30 countries around the world. With its
ability to reach speeds of 15-18 knots upwind and downwind, and 33+ knots
reaching, the Tornado is truly the purists' speed machine.
Over 4,800 Tornados have been built, with 1,200 class association members
worldwide. In 2004, on the Saronikos Gulf in Greece, the Tornado will be
sailing in its seventh Olympic Games.
Except for refinements in technical details – improvements in hull,
sail, and spar technology, better blocks and lines – the Tornado was unchanged
from its beginnings in to the early 90’s. Then, as a result of the increasing
popularity of other, smaller catamarans, the Tornado class undertook a major
development program in 1993. It was specifically to respond to a request
from the IYRU to search for ways to improve the public and media awareness
of the sport of yachting, and secondarily to answer the possible challengers
to its ‘top cat’ role.
Two weeks of intensive on-the-water testing and development took place
in Miami, following considerable discussion and planning. Among the participants
were the three medalists from Barcelona as well as designer Reg White. The
International Tornado Association spent nearly US$22,000 on the testing,
evaluation, reporting, and finally balloting process to the class membership,
to find the fairest and best ways to improve the class and the sport in
ways acceptable to the sailors.
The testing involved 10 standard and fully competitive Tornados, one
boat with a larger main and jib, and two boats with a variety of sailplans
that included spinnakers of up to 32 sq. M. Fourteen races were run over
the testing period in addition to in-line speed and handling evaluations.
As part of the testing process, new courses were also used, most involving
a leeward gate.
Following the testing and regatta, the following points were clear;
the larger main/jib combination was only marginally faster than the standard
rig, and the spinnaker boats were a surprise, only beating the standard
rigs in 2 of the 14 races. The ITA then balloted the class membership, with
not only the conclusions but also all of the data and the testing procedure,
helping to provide insights to the rig selection process.
A two-thirds majority is required by the class constitution to implement
any change; this majority was not reached, the class voting against the
expense of a change with no real benefit to sailing. Thus the class retained
the same sailplan for the next two Olympics. The course changes, giving
the possiblity of better spectator access and greater media coverage, received
the votes necessary to be adopted by the class.
The Class felt then that the changes in course, rather than changes
in the equipment, would have a greater impact on public awareness and media
coverage. Courses are adjustable in length for wind, thus giving a fixed
racing time for the event, and the shorter-than-before course also tend
to keep the boats closer, making the racing more exciting and more easily
viewed. The fixed Start/Finish lines also is a help, allowing faster turn-around
times between races. The new course formats have been in use in the World
Championship beginning in '93, and have proven popular with both the sailors
and committees, and are continued today.
The issue of changes in the boat were revisited in 1999, when the ISAF
decided to have a Multihull Evaluation Trials in France to look at “possible
replacements” in the Olympic program for the Tornado. At the time, there
were a number of technical changes in materials that allowed for better
spinnakers, and better control, and there were then a number of successful
double-trapeze plus spinnaker catamarans on the market in the Tornado size
range – 20 feet – that were becoming popular.
The Trials were interesting. Except for the custom, all-carbon Marstrom
20, the standard Tornado dominated upwind, beating all production challengers
from Hobie, Nacra, Mystere, and others. Only by piling on sail area, plus
a spinnaker, were any of the challengers able to beat the Tornado around
the race course, and even then the advantage disappeared as the wind increased.
But the extra athleticism needed to sail with a double trapeze, and the
extra visual interest provided by the spinnakers, was undeniable, and the
final outcome was that the ISAF decreed that the equipment for the 2004
Olympics would be the “Tornado with double trapeze and spinnaker”, and left
it up to the class how to implement the changes.
The class took an approach that allowed some development and testing,
with the goal of keeping crew weight in the same range as with the old rig.
The final result, approved by the class in early 2001, were both evolutionary
and radical. First was a new mainsail with a flat top and more area, providing
more heeling moment to compensate for the double instead of single trapeze
and help keep crew weights with the same range. Second, done to clear the
trampoline to make spinnaker work possible, was to redesign the jib. The
new jib had the same area, but was longer on the luff and shorter on the
foot to allow it to be sheeted to the main beam. Interestingly, this change,
moving the sail area forward, overcame one of the Tornado’s handicaps, tacking,
and made this maneuver much easier. The innovation of a self-tacking jib
appeared later in 2001, and was quickly adopted by the entire fleet. Finally,
of course, there was the spinnaker, and the class set only size limits,
allowing the question of spinnaker handling equipment to be settled on the
race course. Again, the advantages of spinnaker launching tubes quickly
established themselves, and became a class standard. Interestingly, the
two biggest boathandling improvements, the self-tacking jib and the spinnaker
tubes, were quickly adopted by the classes below the Tornado, especially
the International Formula 18, which was becoming the Tornado trainer for
future Olympians.
CREW WEIGHT
The one-design (as opposed to one-manufacturer) Class Rules have allowed
the Tornado Class to insure close racing from sailing like-designs, but
with the ability to alter the shape of the sails within the approved sailplan
to control power. This has allowed teams to be competitive regardless of
weight combination or stature, an important feature of the Tornado that
has survived the years and the change to the new rig.
The problem often associated with one-manufacturer classes, where in
addition to the boats the sails are also strictly controlled, is that a
standard weight/height combination dominates. With the ability to alter
the sail shape within the Tornado sailplan has resulted in a class where
minimum crew weight is not necessary; in the final results in a Tornado
event, it is common to have teams whose total weight varies by 40 kg to
appear in the top 10.
MATERIALS
Another advantage of the one-design concept with multiple manufactures
is the freedom to allow competitors to build such things as rudders and
boards, and to do their own rigging. This insures increased strength and
extended competitive life of components as modern materials become available
at lower cost. An example of this; from a one-manufacturer class rudder
replacement can become costly if the materials chosen by the manufacturer
years ago cannot be upgraded. Over the years, the Tornado class rules have
changed to allow for material improvements in many of the details, especially
sails, to take advantage of improvements.
Rigging also has high replacement cost. If a manufacturer chooses lower-grade
materials to keep the "new purchase price" low in order to be competitive
in the retail market place, it is the active competitor who pays extra by
having to constantly replace the lower-grade components. A fine example
of this is the traveler on modern catamarans; on the Tornado, modern technology
has lead to a dramatic decrease in replacement costs, as parts can be mixed
from a variety of sources.
LIFE EXPECTANCY
The natural technological evolution of materials, plus the push for
the sailors for stronger boats at the same weights, has allowed the Tornado
Class to increase its competitive life dramatically since the late ‘80’s.
While having a reputation as fragile and short-lived back in the 70's, the
modern Tornados have racing lives of 7-10 years. Many of the world's Tornado
sailors, who actively race in other catamarans, know well that the modern
production boats have top-level racing lives of 1-3 years.
One of the major causes for the low resale value of the one-manufacturer
boats is that they are often supplied at major events. This saves the competitor
no money, since they have to have the boats to qualify to get to the top
events. These supplied boats, which are then sold cheaply by the manufacturer
after the event, actually hurt the most active racers by lowering the resale
values of their won boats.
The rules of the Tornado class have also resulted in sails that have
long racing lives, the result of the competition among sailmakers for quality
and durability. One-manufacturer sails, on the other hand, are mass produced
at the cheapest price that the manufacturer is willing to gamble with, from
materials that are not the quality of open classes. The result again is
that the racing competitor pays more, buying more sails to stay on top.
CLASS RULES
The Tornado Class Rules have evolved and been developed over many years
and now ensure strict attention to all details relating to the performance
of the boat. Rules are modified as needed and wanted by the sailors themselves,
to allow the Tornado to advance with modern technology yet always considering
the long-term effectiveness of the changes.
The Olympic status of the Tornado has brought some of the finest sailors
from all over the world to the class. With over 22 nations regularly attending
the annual World and Continental championships, and with the medals won
at the Olympics going to sailors from all the continents where the boat
is active, the Tornado has a world-wide level of racing matched only by
a very small handfull of other classes.
The Class Rules allow the boats to progress with technology and let
modern materials such as carbon fiber, nomex, epoxy resins, and high-grade
aluminum to be used as they fall in price and can be incorporated into the
boat, resulting in constantly improving quality. This helps resale values
and enables the Tornado to maintain its marque as the ultimate speed machine;
to this day, closing in on 40 years after it birth, the Tornado is still
the fastest one-design production boat in the world.
For the immediate future, the class is concerned with ways to bring
in more modern, lighter materials while maintaining the one-design nature
of the boat, and done in such a way that the purchase price of a new boat
can be contained.
The Tornado: in its first Olympics, it was the fastest and most spectacular
of the Olympic classes. Now, after the turn of the century, it is still
that boat, the fastest, most exciting,most spectacular of the Olympic boats.
This article originally by John Forbes of Australia,
5-time World Champion and Bronze (92) and Silver (00) medallist, with updates
by Jim Young, one of the major coaches in the class since 1981.
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