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581:Ă— 2 m (16 ft Ă— 8 ft) and consist of fluorescent lights. The standings where the blanks are shaped are nailed to the floor with lighting aligned near them. Lighting is a crucial part of the crafting process to make sure the board is perfectly constructed with the right dimensions. There are four key steps in building and shaping a surfboard: Shaping the template, preparing the fin setup and rails, rounding rails, and smoothing the outline.
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701:" board. In 1980, after viewing the work of shaper Frank Williams, Anderson constructed a surfboard with a square tail and three identical fins. Anderson's innovation, colloquially known as the "thruster", produced surfboards with enhanced stability and improved manuveribility. Anderson's "thruster" design is still utilized in the contemporary shaping world.
662:. It was here that Ho developed both the skillset to design high-performance surfboards; Ho's innovation led to the creation of the swallowtail board, which would later become a signifier of his shaping. In 1972, Ho purchased the a surf shop on the corner of Main and Bay Streets in Venice, California; he rebranded the shop as "
682:. Takayama eventually began to shape for Jacobs' Surfboards; his visually-clean longboard design became one of the most popular surfboard models in the mid 20th century. Takayama's knowledge and skill in regards to surfboard design have defined him as one of the most influential surfboard shapers of all time.
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had a formative impact on surfboard shaping design and style in mid-20th century
California. Ho shaped his first surfboard at the age of 14, and he soon began repairing and re-designing old boards found on the coast. In 1966, Ho began working as an apprentice to Bob Milner at Robert's Surfboards in
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Start by adjusting the template paper over the blank, then cut the blank with a handsaw on both sides. Sand the rails until the edges are square. Then measure the size and thickness of the blank this will give you the measurements of foam needed. Remove the extra foam by passing it perpendicular to
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garage; however, it wasn't until a few years later that he opened the first
Southern California surf shop in Dana Point. Hobie was a pioneer in 20th century surfboard construction and design; his most famous legacy lies in his creation of the polyurethane foam surfboard in 1958. The Hobie company
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The beginning of the 1940s marked the introduction of fiberglass resin, which allowed shapers to construct surfboards that were strong, light, and waterproof. Furthermore, surfboard shapers began to utilize alternate base materials, including both plastic and polyurethane foam. The addition of the
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Surfboard shaping is not done so easily; it takes patience and determination to properly craft a surfboard. Starting from the room where it's crafted and finishing with its glassing process. Surfboard shapers use a shaping room to begin their craft. Usually the rooms are at least 5 m
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The addition of balsa wood subsequently led to the surfboard shaper's move towards the “Hot Curl Design.” By shaving off parts of the tail and shaping the sides of the board, surfboard shapers were able to produce surfboards that allowed surfers to pull into the “curl” of a wave.
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Sand the deck until it blends with the rails. Then round and smooth the rails on both side. Then confirm the overall symmetry of the board. Measure and take note of the dimensions of the board. Finally, sign the surfboard and send it off to glassing.
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Start by turning the rails with the planer (nose to tail), then create a 45-degree angle from turning point on the deck to the top. Make sure the symmetry is correct on the other rail. Then with a sanding block round the rails to reduce sharp edges.
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The surfboard shaper often designs their surfboards based on the specifications of their client; the shaper will adjust the dimensions and concave of the board to tailor to different styles of surfing and various types of waves.
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Mark the front fins positions on both sides then mark the back fins. Carefully remove all mistakes on the blank with sandpaper. Finally, cut the rail bevel from nose to fins to give a rounded-edge shape to the board.
488:, effectively creating the first “hollow” surfboard. Blake's innovative design drastically reduced the weight of the surfboard, and by 1930, the “Hollow Board” became the first mass-produced surfboard in the world.
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wood began to emerge as the most versatile base for the modernizing shaper; the balsa wood drastically reduced the weight of the surfboard, and allowed for surfers to move in the water with more speed and agility.
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was a professional surfer and acclaimed shaper from Hawaii. He began shaping surfboards out of wooden railway ties as a young boy; however, in 1957, he moved to
California to apprentice under the legendary shaper
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There exists very little evidence that pinpoints the exact location of the first surfboard shaper; however, historical analysis suggests that surfboarding itself first originated in
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new materials as well as fiberglass gave surfboard shapers more freedom and allowed them to incorporate both fins and rocker design in the construction of surfboards.
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reduced the length of the surfboard, creating a higher level of maneuverability. This innovation serves as the foundation for contemporary performance surfing.
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In the 1960s, the design of surfboard began to significantly shrink in size. In the era known as the "Shortboard
Revolution", surfboard shapers, most notably
309:. The process of surfboard shaping has evolved over the years, and the shaper often tailors his or her work to meet the requirements of a client or a certain
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boards were reserved for the royal class. However, the primary distinction between each ancient
Hawaiian surfboard shape is their length and weight;
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the stringer from tail to nose. Then repeat the process on the opposite side. Shape the tail and rocker by passing the planer over the areas.
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and assorted plugs are usually after lamination, and the final product is sanded and glossed down with buffing compounds and glossing resins.
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shaping was regarded by the
Hawaiian islanders as a ceremonial rite; Hawaiian islanders often offered fish to surfriding trees as offerings.
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The next technological change in the surfboard shaping industry came with the introduction of the “Hollow Board” by
Hawaiian resident
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545:. These computer programs allow the shaper to create an exacting and reproducible design that can be easily fine-tuned and adjusted.
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666:." While the Zephyr shop has been closed since 1976, Jeff Ho continues to shape surfboards as a personal Hobby to this day.
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sheets over the top and bottom of the surfboard, and laminate each sheet with a thermosetting substance, such as
480:; the board was originally 16 feet long and weighed 150 pounds. In an effort to replicate the structure of the
377:. The Hawaiian islanders most likely utilized only three species of tree as the base for their surfboards: the
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EPS blanks. The surfboard is then shaped using an array of tools, including but not limited to the following:
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as a base material for surfboards. In 1950, Hobie first began shaping balsa-wood surfboards in his family's
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The advent of the 1930s marks the next technological revolutions in the history of the surfboard shaper.
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Swaylocks.com a surfboard design forum where shapers show their work and discuss designs and techniques
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Three foundational templates for surfboard shaping were utilized by the
Hawaiian islanders: the
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board, Blake drilled holes in a redwood blank and sealed the top of with wood with sheets of
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While originally made from wood, most modern surfboards are now constructed from pre-formed
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and hot-wire cutting machines that expedite the design process, especially in relation to
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436:. The type of surfboard shape was actually indicative of Hawaiian social structure; the
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960:"History Of Surfboards: From 150lb/68kg Straight Planks To Modern Quads"
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to the foam core of the surfboard using thermosetting resins, such as
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313:. Surfboard shapers can be independent or work in collaboration with
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Many professional shapers outsource the highly specialized task of
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890:"Ancient Surfboard Style Is Finding New Devotees (Published 2009)"
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633:, also known as “Hobie", was a prominent surfboard shaper from
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Headings need brought back in compliance with Manual of Style.
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1108:"Donald Takayama "2013 Surf Pioneer" Surfing Walk of Fame"
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Currently, many surfboard shapers design surfboards using
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stones for light reduction; subsequently, the root of the
1130:"Simon Anderson's Thruster Reinvents Performance Surfing"
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plant were used for the final burnish of the surfboard.
781:(Exp. 2nd ed.). Morrisville, NC: Lulu Enterprises.
397:). After the chosen tree was cut, Hawaiian shapers used
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1034:"Surfboard Shaping Step by Step Guide | SURFLINE.COM"
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637:who is famously known for his experimentation with
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242:may lack focus or may be about more than one topic
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368:
246:Please help improve this article, possibly by
697:who is most known for his innovation of the "
444:boards were used by the commoners, while the
922:"The Fascinating Evolution of the Surfboard"
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646:continues to manufacture surfboards today.
50:Learn how and when to remove these messages
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456:boards ranged from 7 to 12 feet long, and
664:Jeff Ho Surfboards and Zephyr Productions
281:Learn how and when to remove this message
168:Learn how and when to remove this message
107:Learn how and when to remove this message
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210:of all important aspects of the article.
70:This article includes a list of general
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1177:Hobie surfboard and sailboat innovator
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492:The "Balsa Era" and the Hot Curl Board
206:Please consider expanding the lead to
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472:. In 1926, Blake acquired an ancient
1088:Surfboardline.com Collectors Network
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847:Hawaiian Almanac and Annual for 1896
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460:boards measured up to 20 feet long.
250:the article and/or by introducing a
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1172:Visuals on How to Shape a Surfboard
820:Greg Noll: The Art of the Surfboard
552:to “glassers”; “glassers” laminate
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985:"A Brief History of the Surfboard"
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452:boards ranged from 3–6 feet long,
305:is someone who designs and builds
76:it lacks sufficient corresponding
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594:Preparing the Fin Setup and Rails
31:This article has multiple issues.
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1167:Brief History of the Surfboard
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778:Surfboard shaping and glassing
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208:provide an accessible overview
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983:McCarthy, Erin (2012-06-12).
888:Brisick, Jamie (2009-12-03).
853:. Honolulu: Black & Auld.
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693:is a surfer and shaper from
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369:Ancient Hawaiian Surfboards
143:. The specific problem is:
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1212:Shaperoom.net design forum
1157:Evolution of the Surfboard
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476:surfboard from Honolulu's
409:plant and the bark of the
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660:Playa del Ray, California
576:How Surfboards Are Shaped
1162:How to Shape a Surfboard
1152:History of the Surfboard
533:Surfboard Shaping Today
91:more precise citations.
844:Thrum, Thomas (1896).
817:Kampion, Drew (2007).
635:Dana Point, California
464:The "Hollow Board" Era
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297:Shaper in his workshop
716:Richard (Dick) Brewer
705:Other Notable Shapers
612:Smoothing the Outline
296:
1009:"Shaped by Software"
626:Hobart "Hobie" Alter
585:Shaping the Template
383:Erythrina monosperma
150:improve this article
139:to meet Knowledge's
509:Modern Construction
252:disambiguation page
1084:"Jeff Ho / Zephyr"
894:The New York Times
865:"What is a paipo?"
299:
1227:Surfboard shapers
1128:Haro, Alexander.
989:Popular Mechanics
788:978-1-84728-534-8
721:Mike Diffenderfer
695:Sydney, Australia
639:polyurethane foam
539:computer programs
387:Artocarpus incisa
338:grinders, sanders
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756:Bob McTavish
731:Mickey Munoz
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643:Laguna Beach
631:Hobart Alter
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195:lead section
164:
155:
148:Please help
144:
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34:
33:Please help
30:
1209:(in French)
1134:The Inertia
746:Jimmy Lewis
726:Gerry Lopez
317:companies.
152:if you can.
89:introducing
1139:2020-11-25
1114:2020-11-25
1093:2020-11-25
1082:Says, Ed.
1068:2020-11-25
1059:"About Us"
1043:2020-11-25
1019:2020-11-25
994:2020-11-24
969:2020-11-24
939:2020-11-24
907:2020-11-24
874:2020-11-24
762:References
736:Dale Velzy
680:Dale Velzy
554:fiberglass
550:lamination
432:, and the
395:Acacia koa
346:fiberglass
307:surfboards
216:April 2019
72:references
36:improve it
934:1059-1028
902:0362-4331
797:122346332
558:polyester
470:Tom Blake
417:Surfboard
399:sea coral
326:Styrofoam
256:talk page
248:splitting
200:summarize
42:talk page
1221:Category
964:360Guide
699:thruster
385:), ulu (
379:wiliwili
330:surforms
134:require
1057:Hobie.
655:Jeff Ho
650:Jeff Ho
389:), and
364:History
136:cleanup
85:improve
932:
900:
827:
795:
785:
525:, and
486:veneer
428:, the
375:Hawaii
342:planes
340:, and
74:, but
1182:Hobie
926:Wired
851:(PDF)
562:epoxy
498:Balsa
454:alaia
450:paipo
442:paipo
438:alaia
430:paipo
425:alaia
412:kukui
354:epoxy
334:rasps
930:ISSN
898:ISSN
825:ISBN
793:OCLC
783:ISBN
566:Fins
440:and
403:oahi
401:and
311:wave
560:or
482:olo
474:olo
458:olo
446:olo
434:olo
391:koa
356:or
348:or
324:or
1223::
1132:.
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962:.
948:^
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407:ti
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332:,
301:A
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