Hook-and-loop fastener

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Velcro Hooks.jpg
Hooks
Velcro Loops.jpg
Loops
A shoe using hook-and-loop closures Sneakers velcro.jpg
A shoe using hook-and-loop closures

Hook-and-loop fasteners, also known as hook-and-pile fasteners or touch fasteners, are devices that allow two surfaces to be repeatedly fastened and unfastened, commonly used in clothing and other applications. They are often referred to by the genericized trademark velcro, which was the original name given by the inventor. The fastener consists of two components: typically, two linear fabric strips or smaller segments that are attached—sewn or otherwise adhered—to opposing surfaces designed to be fastened together. One component features tiny hooks, and the other features smaller loops. When the two are pressed together, the hooks catch in the loops, and the two pieces fasten or bind temporarily. Separation can be achieved by pulling or peeling the two surfaces apart, during which the strips produce a distinctive ripping sound.

Contents

History

Tiny hooks can be seen covering the surface of this bur. The design of hook-and-loop imitated this natural mechanism for seed dispersion. Bur Macro BlackBg.jpg
Tiny hooks can be seen covering the surface of this bur. The design of hook-and-loop imitated this natural mechanism for seed dispersion.
Close-up of a single bract spine of Arctium minus Arctium minus bract spine.jpg
Close-up of a single bract spine of Arctium minus

The original hook-and-loop fastener was conceived in 1941 by Swiss engineer George de Mestral, [1] [2] [3] which he named velcro. The idea came to him one day after returning from a hunting trip with his dog in the Alps. He took a close look at the burs of burdock that kept sticking to his clothes and his dog's fur. He examined them under a microscope, and noted their hundreds of "hooks" that caught on anything with a loop, such as clothing, animal fur, or hair. [4] He saw the possibility of binding two materials reversibly in a simple fashion if he could figure out how to duplicate the hooks and loops. [1] [3] Hook-and-loop is regarded by some like Steven Vogel [5] or Werner Nachtigall [6] as a key example of inspiration from nature or the copying of nature's mechanisms (called bionics or biomimesis).

Macro photograph of velcro hooks Hook and loop fastener - macro photograph of "hooks".jpg
Macro photograph of velcro hooks

The big breakthrough de Mestral made was to think about hook-and-eye closures on a greatly reduced scale. Hook-and-eye fasteners have been common for centuries, but what was new about hook-and-loop fasteners was the miniaturisation of the hooks and eyes. Shrinking the hooks led to the two other important differences. Firstly, instead of a single-file line of hooks, hook-and-loop fasteners have a two-dimensional surface. [7] This was needed, because in decreasing the size of the hooks, the strength was also unavoidably lessened, thus requiring more hooks for the same strength. The other difference is that hook-and-loop has indeterminate match-up between the hooks and eyes. With larger hook-and-eye fasteners, each hook has its own eye. On a scale as small as that of hook-and-loop fasteners, matching up each of these hooks with the corresponding eye is impractical, thus leading to the indeterminate matching. [7]

De Mestral's proposal was initially rejected by industry leaders when he took his idea to Lyon, which was then a center of weaving. He did manage to gain the assistance of one weaver, who produced two cotton strips based on de Mestral's designs. However, the cotton frayed and wore out in a relatively short period of time. As a result, de Mestral began to explore the use of synthetic fibers, believing that they would provide a more resilient product. [4] De Mestral eventually selected nylon, on the reasoning that it does not easily fray or attract mold, is non-biodegradable, and could be produced in threads of varying thickness. [8] Nylon had only recently been invented, and through trial and error de Mestral eventually discovered that, when sewn under hot infrared light, nylon forms small hook shapes. [1] However, he had yet to figure out a way to mechanize the process and to make the looped side. Next he found that nylon thread, when woven in loops and heat-treated, retains its shape and is resilient; however, the loops had to be cut in just the right spot so that they could be fastened and unfastened many times. On the verge of giving up, a new idea came to him. He bought a pair of shears and trimmed the tops off the loops, thus creating hooks that would match up perfectly with the loops in the pile. [4]

Mechanizing the process of weaving the hooks took eight years, and it took another year to create the loom that trimmed the loops after weaving them. In all, it took ten years to create a mechanized process that worked. [4]

De Mestral submitted his idea for a patent in Switzerland in 1951, which was granted in 1955. [1] Within a few years he obtained patents and began to open shops in Germany, Switzerland, Great Britain, Sweden, Italy, the Netherlands, Belgium, and Canada. In 1957 he branched out to the textile center of Manchester, New Hampshire in the United States.

Columnist Sylvia Porter made the first mention of the product in her column Your Money's Worth of August 25, 1958, writing, "It is with understandable enthusiasm that I give you today an exclusive report on this news: A 'zipperless zipper' has been invented – finally. The new fastening device is in many ways potentially more revolutionary than was the zipper a quarter-century ago." [9]

A Montreal firm, Velek, Ltd., acquired the exclusive right to market the product in North and South America, as well as in Japan, with American Velcro, Inc. of New Hampshire, and Velcro Sales of New York, marketing the "zipperless zipper" in the United States. [9]

De Mestral obtained patents in many countries right after inventing the fasteners, as he expected an immediate high demand. Partly due to its cosmetic appearance, though, hook-and-loop's integration into the textile industry took time.[ citation needed ] At the time, the fasteners looked like they had been made from leftover bits of cheap fabric, and thus were not sewn into clothing or used widely when it debuted in the early 1960s. [10] It was also regarded as impractical. [10]

A number of Velcro Corporation products were displayed at a fashion show at the Waldorf-Astoria hotel in New York in 1959, [11] and the fabric got its first break when it was used in the aerospace industry to help astronauts maneuver in and out of bulky space suits. However, this reinforced the view among the populace that hook-and-loop was something with very limited utilitarian uses. The next major use hook-and-loop saw was with skiers, who saw the similarities between their outerwear and that of the astronauts, and thus saw the advantages of a suit that was easier to don and doff. Scuba and marine gear followed soon after. Having seen astronauts storing food pouches on walls, [12] children's clothing makers came on board. [10] As hook-and-loop fasteners only became widely used after NASA's adoption of it, NASA is popularly – and incorrectly – credited with its invention.

By the mid-1960s, hook-and-loop fasteners were used in the futuristic creations of fashion designers such as Pierre Cardin, André Courrèges and Paco Rabanne. [13]

Later improvements included strengthening the filament by adding polyester. [8]

In 1978, de Mestral's patent expired, prompting a flood of low-cost imitations from Taiwan, China and South Korea onto the market. Today, the trademark is the subject of more than 300 trademark registrations in over 159 countries.[ specify ] George de Mestral was inducted into the National Inventors Hall of Fame in the U.S. for his invention. [4]

Strength

Hook-and-loop fastener photographed using a low power microscope. Micrograph of hook and loop fastener,(Velcro like).jpg
Hook-and-loop fastener photographed using a low power microscope.

Various constructions and strengths are available. Fasteners made of Teflon loops, polyester hooks, and glass backing are used in aerospace applications, e.g. on Space Shuttles. The strength of the bond depends on how well the hooks are embedded in the loops, how much surface area is in contact with the hooks, and the nature of the force pulling it apart. If hook-and-loop is used to bond two rigid surfaces, such as auto body panels and frame, the bond is particularly strong because any force pulling the pieces apart is spread evenly across all hooks. Also, any force pushing the pieces together is disproportionately applied to engaging more hooks and loops. Vibration can cause rigid pieces to improve their bond. Full-body hook-and-loop suits have been made that can hold a person to a suitably covered wall.

When one or both of the pieces is flexible, e.g., a pocket flap, the pieces can be pulled apart with a peeling action that applies the force to relatively few hooks at a time. If a flexible piece is pulled in a direction parallel to the plane of the surface, then the force is spread evenly, as it is with rigid pieces.

Three ways to maximize the strength of a bond between the two flexible pieces are:

Shoe closures can resist a large force with only a small amount of hook-and-loop fasteners. This is because the strap is wrapped through a slot, halving the force on the bond by acting as a pulley system (thus gaining a mechanical advantage), and further absorbing some of the force in friction around the tight bend. This layout also ensures that the force is parallel to the strips.

Advantages and disadvantages

Hook-and-loop fasteners are safe and maintenance free. There is only a minimal decline in effectiveness even after many fastenings and unfastenings. The tearing noise it makes can also be useful against pickpockets. This loud noise can also prove to be a liability, in particular on military attire such as the United States Army's Army Combat Uniform, where it can attract unwanted attention in a battlefield environment.

There are also some deficiencies: it tends to accumulate hair, dust, and fur in its hooks after a few months of regular use. The loops can become elongated or broken after extended use. The hooks often become attached to articles of clothing, especially loosely woven items like sweaters. This clothing may be damaged when one attempts to remove the hook-and-loop, even if the sides are separated slowly. It also absorbs moisture and perspiration when worn next to the skin, which means it will smell if not washed.

Applications

Video of snowboarding gloves with an integrated plastic element (white) as wrist protection. The pouch for the element on the back of the hand is closed by a hook-and-loop-fastener, as well as the wide bandage-style fastener around the middle section. They serve for stabilizing the wrist of the snowboarder in case that he falls onto his hands.

Because of their ease of use, hook-and-loop fasteners have been used for a wide variety of applications where a temporary bond is required. It is especially popular in clothing where it replaces buttons or zippers, and as a shoe fastener for children who have not yet learned to tie shoelaces. Hook-and-loop fasteners are used in adaptive clothing, which is designed for people with physical disabilities, the elderly, and the infirm, who may experience difficulty dressing themselves due to an inability to manipulate closures such as buttons and zippers.

Hook-and-loop-fastener (USA Patent No.: US8,469,996 B2) is used in humans as a temporary fascia expander prostheses to treat the abdominal compartment syndrome and when multiple abdominal entries are necessary to control and eliminate intra-abdominal pathology. Hook-and-loop fasteners held together a human heart during the first artificial heart surgery. It is used in nuclear power plants and army tanks to hold flashlights to walls. In cars, hook-and-loop fasteners are used to bond headliners, floor mats and speaker covers. It is used in the home when pleating draperies, holding carpets in place and attaching upholstery. [4] Closures on backpacks, briefcases and notebooks often make use of hook-and-loop fasteners. Cloth diapers often make use of hook-and-loop fasteners. It is an integral part of games such as tag rugby and flag football, and is used in surfboard leashes and orthopaedic braces.

NASA makes significant use of hook-and-loop fasteners. Each Space Shuttle flew equipped with ten thousand inches of a special fastener made of Teflon loops, polyester hooks, and glass backing. [8] Hook-and-loop fasteners are widely used, from the astronauts' suits, to anchoring equipment. In the near weightless conditions in orbit, hook-and-loop fasteners are used to temporarily hold objects and keep them from floating away. [14] A patch is used inside astronauts' helmets where it serves as a nose scratcher. [4] [8] During mealtimes astronauts use trays that attach to their thighs using springs and fasteners. [12] Hook-and-loop fasteners are also used aboard the International Space Station.

Guitar pedals are commonly attached to pedalboards with strips of hook-and-loop.

Variations

3M Dual Lock 3M Dual Lock.jpg
3M Dual Lock
RFID transponder attached to car with hook-and-loop fastener FasTrak transponder.jpg
RFID transponder attached to car with hook-and-loop fastener

The Slidingly Engaging Fastener was developed to address several problems with common hook-and-loop fasteners. [15] [16] Heavy-duty variants (such as "Dual Lock" or "Duotec") feature mushroom-shaped stems on each face of the fastener, providing an audible snap when the two faces mate. A strong pressure sensitive adhesive bonds each component to its substrate.

There is a silent version of hook-and-loop fasteners, sometimes called Quiet Closures.

Standards

Jumping

Velcro jumping is a game where people wearing hook-covered suits take a running jump and hurl themselves as high as possible at a loop-covered wall. [8] [17] The wall is inflated, and looks similar to other inflatable structures. It is not necessarily completely covered in the material—often there will be vertical strips of hooks. Sometimes, instead of a running jump, people use a small trampoline.

Television show host David Letterman immortalized this during the February 28, 1984 episode of Late Night with David Letterman on NBC. Letterman proved that with enough of the material a man could be hurled against a wall and stick, by performing this feat during the television broadcast. [4] [10] [17]

Jumping went beyond David Letterman, with amusement companies renting walls and jumpsuits for $400–500 a day. [17] It was also done on a regular basis in pubs in both New York and New Zealand, where it is a competition to see how high a person can get their feet above the ground. [18] Jeremy Bayliss and Graeme Smith of the Cri Bar and Grill in Napier, New Zealand, started it after seeing American astronauts sticking to walls during space flights. They created their own equipment for the "human fly" contests, and sold it to several others in New Zealand. [18] By 1992, wall-jumping was practiced in dozens of New Zealand bars and was said to be one of the favorite bar activities there at the time. [18]

The game had moved to the U.S. after Sports Illustrated published a story on it in 1991. Adam Powers and Stephen Wastell of the Perfect Tommy's bar in New York city read of the game, and soon became the United States distributor of Human Bar Fly equipment.

See also

Related Research Articles

<i>Arctium</i> Genus of flowering plants

Arctium is a genus of biennial plants commonly known as burdock, family Asteraceae. Native to Europe and Asia, several species have been widely introduced worldwide. Burdock's clinging properties, in addition to providing an excellent mechanism for seed dispersal, led to the invention of the hook and loop fastener.

<span class="mw-page-title-main">Wetsuit</span> Garment worn to provide thermal protection while wet

A wetsuit is a garment worn to provide thermal protection while wet. It is usually made of foamed neoprene, and is worn by surfers, divers, windsurfers, canoeists, and others engaged in water sports and other activities in or on the water. Its purpose is to provide thermal insulation and protection from abrasion, ultraviolet exposure, and stings from marine organisms. It also contributes extra buoyancy. The insulation properties of neoprene foam depend mainly on bubbles of gas enclosed within the material, which reduce its ability to conduct heat. The bubbles also give the wetsuit a low density, providing buoyancy in water.

<span class="mw-page-title-main">YKK</span> Japanese group of manufacturing companies

The YKK Group is a Japanese group of manufacturing companies. They are the world's largest zipper manufacturer, also producing other fastening products, architectural products, plastic hardware and industrial machinery.

<span class="mw-page-title-main">Zipper</span> Device for binding the edges of an opening of fabric or other flexible material

A zipper, zip, or fly, formerly known as a clasp locker, is a commonly used device for binding together two edges of fabric or other flexible material. Used in clothing, luggage and other bags, camping gear, and many other items, zippers come in a wide range of sizes, shapes, and colors. In 1892, Whitcomb L. Judson, an American inventor from Chicago, patented the original design from which the modern device evolved.

George de Mestral was a Swiss electrical engineer who invented the hook and loop fastener which he named Velcro.

<span class="mw-page-title-main">Fastener</span> Hardware device that mechanically joins or affixes two or more objects together

A fastener or fastening is a hardware device that mechanically joins or affixes two or more objects together. In general, fasteners are used to create non-permanent joints; that is, joints that can be removed or dismantled without damaging the joining components. Steel fasteners are usually made of stainless steel, carbon steel, or alloy steel.

<span class="mw-page-title-main">Clevis fastener</span> Fastener consisting of a U-shaped bracket through which a pin is placed

A clevis fastener is a two-piece fastener system consisting of a clevis and a clevis pin head.

<span class="mw-page-title-main">Army Combat Uniform</span> Combat utility uniform of the United States Army, Air Force, and Space Force

The Army Combat Uniform (ACU) is the current combat uniform worn by the United States Army, U.S. Air Force, U.S. Space Force and some elements of the U.S. Coast Guard. Within the Air Force and Space Force, it is referred to as the OCP Uniform, rather than the Army Combat Uniform.

<span class="mw-page-title-main">Strap</span> Strip of flexible material, especially leather, used for fastening or holding things together

A strap, sometimes also called strop, is an elongated flap or ribbon, usually of leather or other flexible materials.

<span class="mw-page-title-main">Boilersuit</span> Loose-fitting protective suit

A boilersuit, also known as coveralls, is a loose fitting garment covering the whole body except for the head, hands and feet.

<span class="mw-page-title-main">Blanket sleeper</span> One-piece, footed sleeping suit

The blanket sleeper is a type of especially warm sleeper or footie pajama worn primarily during the winter in the United States and Canada. The garment is worn especially by young children.

<span class="mw-page-title-main">Whitcomb L. Judson</span> American inventor (1843–1909)

Whitcomb L. Judson was an American machine salesman, mechanical engineer and inventor. He received thirty patents over a sixteen-year career, fourteen of which were on pneumatic street railway innovations. Six of his patents had to do with a motor mechanism suspended beneath the rail-car that functioned with compressed air. He founded the Judson Pneumatic Street Railway.

<span class="mw-page-title-main">Snap fastener</span> Two-part fastener consisting of a ball and socket that snap into place when pressed together

A snap fastener, also called snap button, press button, press stud, press fastener, dome fastener, popper, snap and tich, is a pair of interlocking discs, made out of a metal or plastic, commonly used in place of traditional buttons to fasten clothing and for similar purposes. A circular lip under one disc fits into a groove on the top of the other, holding them fast until a certain amount of force is applied. Different types of snaps can be attached to fabric or leather by riveting with a punch and die set specific to the type of rivet snaps used, sewing, or plying with special snap pliers.

<span class="mw-page-title-main">Bur</span> Seed or dry fruit or infructescence that has hooks or teeth

A bur is a seed or dry fruit or infructescence that has hooks or teeth. The main function of the bur is to spread the seeds of the bur plant, often through epizoochory. The hooks of the bur are used to latch onto fur or fabric, enabling the bur – which contain seeds – to be transported to another location for dispersal. Another use for the spines and hooks are physical protection against herbivores. Their ability to stick to animals and fabrics has shaped their reputation as bothersome.

<span class="mw-page-title-main">Talon Zipper</span> Manufacturer of zippers

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<span class="mw-page-title-main">Extended Cold Weather Clothing System</span> Protective clothing used by US Army

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Velcro IP Holdings LLC, doing business as Velcro Companies and commonly referred to as Velcro, is a British privately held company, founded by Swiss electrical engineer George de Mestral in the 1950s. It is the original manufacturer of hook-and-loop fasteners, which de Mestral invented.

Metaklett is a fastening material made of steel that acts on a similar principle to conventional hook and loop fasteners. It was developed by Reinz-Dichtungs-GmbH, Technische Universität München, Hölzel Stanz- und Feinwerktechnik GmbH & Co. KG and Koenig Verbindungstechnik GmbH. Metaklett is claimed to support shear strength 35 tonnes per square meter at temperatures up to 800 °C. It consists of two complementary strips of 0.2 mm thick perforated steel with catcher and holes. A second variant consists of two strips with protruding brushes and hooks. There is also a hybrid variant with one metal and one synthetic fleece ribbon.

<span class="mw-page-title-main">Metal zipper</span>

A metal zipper is a zipper with its binding edges consisting of individual pieces of metal that are molded into shape and set at regular intervals on the zipper tape. Metal zippers are mainly made of brass, nickel and aluminium, and given their durability, they are mostly used in jeans, work-wear, heavy luggage and heavy-duty garments that must withstand high strength and tough washing. The metal zipper is the oldest type of workable zipper, having been invented by Gideon Sundback as an improvement of Whitcomb Judson's "Clasp Locker" that majorly consisted of a hook-and-eye shoe fastener.

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