World Library  
Flag as Inappropriate
Email this Article

Sailboat design and manufacturing

Article Id: WHEBN0007541155
Reproduction Date:

Title: Sailboat design and manufacturing  
Author: World Heritage Encyclopedia
Language: English
Subject: Boat building, List of sailboat designers and manufacturers, Sailboat
Publisher: World Heritage Encyclopedia

Sailboat design and manufacturing

This article attempts to give an overview of the design and manufacturing of sailboats and the evolution of this industry. Details should be found and contributed through linked articles.


  • Early sailing vessels 1
  • The first yachts 2
  • Small commercial craft 3
  • The Golden Age of yachting 4
  • Fiberglass and yachts for the common man 5
  • Hi-tech wonder boats 6
  • See also 7
  • References 8
  • External links 9

Early sailing vessels

Egyptian, Phoenician, Greek, and Roman cultures along with prior cultures and their contemporaries used sails as propulsion for commercial and military vessels. However, pleasure craft evolved along with practical craft. Even today some primitive vessels can outsail modern sailing yachts when running before the wind with their standard sails (no spinnakers etc.)

The first yachts

The term "yacht" is a 17th-century English extraction from the Dutch word Jacht; however, royalty and aristocracy enjoyed traveling on the water from time immemorial, with the earliest documentation being in the Egyptian heyday. There is no documentation that these beneficiaries of the enjoyment were participants in the efforts.

The roots of modern yachting come from British royalty, commencing with Charles II, when Kings and Princes commissioned relatively small pleasure craft in which they competed.

Small commercial craft

In the time when water-based industries were dominated by sailing-craft, speed was as crucial to success as it is today, perhaps even more so. Getting fish to market or delivering other perishable goods swiftly could make or break a venture. Having a swifter hull or a superior rig could be the strategic advantage that would provide financial success.

Competition between owners of small commercial craft was the driving force in developing upwind sailing technology. Larger craft were less concerned with maneuverability within harbors or in coastal regions where the geography of the land was an impediment to downwind sailing.

Many of the advances in yachting technology came from the fishing industry and local commercial packets. Even pirates contributed to the advances, because small, fast, and highly maneuverable vessels proved successful.

The Golden Age of yachting

The huge wealth accumulated by the commercial upper-class in the late 19th and early 20th century allowed commoners to enter the realm of yachting previously reserved for royalty and the peerage. Americans as well as Britons began to vie for international acclaim. The yacht America burst in on British egos and created a national rivalry, which has now grown to be the America’s Cup.

Wealthy industrialists such as the Vanderbilts and the Liptons vied with royalty to finance a boom in yachting technology. As the learning curve flattened, less illustrious names were able to finance successful yachts as advance seemed to come from more random successes in design – fine tuning.

World War I dampened the growth in yachting, but the 1920s once again brought a heyday of activity and advancement. The production manufacturing capacity and technology created during the war years catapulted the developments in yachting. However the crash of the international economy at the close of the decade as quickly dampened the demand for large exotic yachts. In order to survive designers and producers had to diversify their efforts and offerings. Once again small commercial craft became the test-beds for technology and the bread-and-butter for the builders in the 1930s. One of the great design teams from this period, Sparkman & Stephens is still influential today.

World War II terminated most direct production of yachts, but the tremendous need for increasingly diverse small naval craft stimulated research and development and increased production capacity for the boating industry. Louisiana based Higgins came up with innovative landing craft, and along with Elco, manufactured the majority of PT Boats. Sparkman & Stephens designed the DUKW an amphibious version of the conventional six-wheel-drive Army truck. Of course the military had little need of sailboats.

Fiberglass and yachts for the common man

The late 1940s, following World War II, were a time of economic retrenchment, but as the US and international economies boomed in the 1950s the pent-up technology within the boating industry exploded with innovation and production. World War II was the catalyst for development of compact engine systems, mass production of plywood water craft, and advances in hydrodynamic design. Another outgrowth of war production was fiberglass; the first fiberglass boats were made in the 1930s but practical production did not begin until the 1950s and then more as a supplement to wood and plywood than as a structural component.

While the 1950s was a test bed for early fiberglass techniques, the early sixties was when the benefits became directly available to the average sailor, as the fiberglass industry began to mature from one-up to assembly lines and standardization. There was an explosion of entrepreneurial expression in the first half of the sixties, which leapfrogged year after year. Each season brought more options and larger boats to the common man, almost analogous to the rapid expansion of the personal computer in the 1990s. Soon a middle-class family could add a 30 foot sailboat to their Plymouth and hamburger budget.

Some of the prevalent brands in the 1960s were Cal, Coronado, Columbia, C&C, Morgan and Pearson; most of these were outgrowths of entrepreneurial venture. But even large companies such as AMF and Chrysler were making boats. Today's big manufacturers are led by people with their roots in 1960s venture.

However, by the late 1960s there was market saturation and entrepreneurs sold into conglomerates or otherwise merged their efforts. The mid-1970s saw an increase in interest in sailing as oil prices began to climb following the 1973 Oil Embargo; however, with petroleum as a major component for plastic resins manufacturing costs also increased. In early designs the solution to engineering problems was frequently: just add more fiberglass. The early boats were sturdy but heavy. Many of the vessels produced during this time frame are afloat today, and several models still enjoy solid sales demand and exhibit excellent sailing characteristics; the Islander 36 is an excellent example of a boat from this era.

With the increase in materials costs, engineering to a finer standard became critical for financial success. This was a double edged sword as boats became lighter, but in some cases they became weaker. Also some manufacturers turned to less expensive plastics and a form of hull decomposition known as blistering became prevalent.

The economic downturn of the early 1980s reduced demand for sailboats, while manufacturers increasingly competed with the used boat market. Since fiberglass doesn't rot or rust, twenty years of high production had left a huge inventory of boats, and in many areas the number of boats exceeded the marina space to house them.

The boats of the 1960s and 1970s were substantially extensions of classic hull designs which evolved in wood and were influenced by the early rules of racing. There was an emphasis on shorter waterlines at rest that would expand dramatically when the boat heeled (leaned) -- this had to do with the rules of racing, where the boat's handicap was not based on actual performance, but on design attributes.

Modifications of racing rules and changes in consumer demand have influenced recent boat designs. There is also a polarization, where racing boats are more distinct from cruising boats.

Current racing rules for the common sailor are known as PHRF (Performance Handicapped Racing Fleet) rules. The philosophy is to have a dynamic system of handicapping which looks to the performance of a boat model over time, but allows for adjustment to an individual boat based on options and/or modifications. What we consider long lean classic proportions of the boats of the early 1900s were at the time design exercises to manipulate the racing rules. Now our current boats tend to seek optimum performance as the prime criterion.

Boats tend to fall into the categories of (1) racer, (2) racer-cruiser, (3) cruiser-racer, and (4) cruiser; however, there is much subjectivity in the definitions and classifications. Cruising is sailing for the enjoyment of sailing and to reach destinations. Frequently cruisers spend much more time enjoying the amenities of their boats than the sailing aspects, so creature comfort is important. A large pure cruising boat would be likely to have solar panels, wind generated electricity, multiple heads (bathrooms), a complete galley (kitchen), comfortable cabins and even laundry facilities. Many cruiser designs are cutter rigged meaning they carry two headsails, and many have a second mast (mizzen), in the yawl or ketch configuration. Having more sails allows for having smaller individual sails; on a pure cruiser the boats do not change directions frequently, so manipulating multiple sails is not a factor.

Virtually all racing boats today are sloop rigged, which means that they carry one headsail and a mainsail, both from the same mast. Two very large sails mean more work to hoist and handle, but when changing direction, there is less work to be done and it can be done faster; however, sometimes with great effort using massive winch systems. The interiors of serious race boats are often stripped bare with the head being a bucket.

Most cruising boats are produced in large factories; most racing boats are produced in smaller lots by specialty shops or under contract with larger producers. Frequently the name of a race boat is that of the designer not the producer; in some cases multiple manufacturers have produced the same design either at the same or different times.

The majority of market share for production cruising boats is divided among Beneteau, Catalina Yachts, and Hunter Marine. Beneteau has a bit more emphasis on speed; Hunter focuses more on amenities; and Catalina falls in between. Catalina tends to have long running models of boats which evolve over time, but this allows for the development of "one design" fleets, where Beneteau and Hunter tend to change their designs frequently addressing the demands of the market. Both strategies have been successful for the staying power of these three brands.

There is also a strong demand for more specialized cruising boats with a wide range of producers. These boats offer features such as center cockpit, deck salon, pilot-house, cutter rigs, mizzen masts etc. The cabin detail and systems in Beneteau, Catalina and Hunter boats is comfortable but basic; more expensive boats offer a wide range of quality in the wood work, cabinetry, upholstery, and systems. There are also structural improvements beneath the surface and qualitative benefits in systems as the cost of the boat increases. A top-of-the-line cruiser could cost three times the price of a shrouds, a thicker mast, and a stiffer hull could be priceless in a force 8 gale.

Hi-tech wonder boats

Kevlar and carbon fiber are among the materials for the new generation of hi-tech sailboat. Multihull boats are capable of 45 knots and monohull boats are exceeding 40 knots. Some of these hi-tech wonder boats cost as much as $10 million.

See also

Sailing dinghies


  • Good Old Boat magazine: Volume 4, Number 1, January/February 2001.
  • Sail magazine, August 2004, pages 54–57.
  • Heart of GLASS: Fiberglass Boats And The Men Who Made Them by Daniel Spurr, pages 244–250.
  • The World's Best Sailboats Volume II, by Ferenc Máté. Albatross Publishing House, 2003.
  • Best Boats to Build or Buy, by Ferenc Máté. Albatross Publishing House, 1982.

External links

This article was sourced from Creative Commons Attribution-ShareAlike License; additional terms may apply. World Heritage Encyclopedia content is assembled from numerous content providers, Open Access Publishing, and in compliance with The Fair Access to Science and Technology Research Act (FASTR), Wikimedia Foundation, Inc., Public Library of Science, The Encyclopedia of Life, Open Book Publishers (OBP), PubMed, U.S. National Library of Medicine, National Center for Biotechnology Information, U.S. National Library of Medicine, National Institutes of Health (NIH), U.S. Department of Health & Human Services, and, which sources content from all federal, state, local, tribal, and territorial government publication portals (.gov, .mil, .edu). Funding for and content contributors is made possible from the U.S. Congress, E-Government Act of 2002.
Crowd sourced content that is contributed to World Heritage Encyclopedia is peer reviewed and edited by our editorial staff to ensure quality scholarly research articles.
By using this site, you agree to the Terms of Use and Privacy Policy. World Heritage Encyclopedia™ is a registered trademark of the World Public Library Association, a non-profit organization.

Copyright © World Library Foundation. All rights reserved. eBooks from Project Gutenberg are sponsored by the World Library Foundation,
a 501c(4) Member's Support Non-Profit Organization, and is NOT affiliated with any governmental agency or department.