Ski wax

Ski wax is a material applied to the bottom of skis or snowboards to help them perform better on snow.

Types of ski wax

In general, ski wax can be broken down into two categories: "grip" and "glide".

Glide wax

Glide waxing (inherited from wood ski treatment) although tedious, possibly involving expensive and toxic materials, can offer higher performance than a plain unwaxed reference ski, only over a very limited distance (before the thin wax coating gathers dirt, lumps down and the performance sinks below that of the reference ski.^[1] Note that skis are most of the times not sold with a machine planed (blade cutted) reference base, but with stone ground surface structures, and might therefore perform below the reference ski from the start even if unwaxed.

Glide wax describes a range of waxes which can be applied to Nordic skis, alpine skis, skiboards, and snowboards. The gliding property of a ski is an attempt to optimize the thickness of the thin film of water between the ski and the snow. Skiing over snow is a combination of both wet friction and dry friction: too much water will create "wet drag" (suction), while too little water will result in "dry drag" (friction). A properly selected glide wax will aid in this delicate balance.

A glide wax is selected based primarily on snow temperature, as well as the crystal structure and relative humidity of the snow. Manufacturers' packages generally provide guidelines for matching a glide wax to the snow conditions. It is applied to the "glide zone" of a ski. For alpine skis, snowboards, Nordic jumping skis, and Telemark skis, the glide zone consists of the entire base, except for the raised tip. For cross-country skis, the glide zone depends on the style of skiing being done. For the skating technique, the entire base is a glide zone, but for the classical technique, the glide zone will be the tips and tails of the ski, but not the kick zone (see below).

Grip wax

Grip wax describes a variety of waxes specific to cross-country skiing with a classical technique. This wax comes in two forms, "Hard Kick Wax" and "klister". Kick wax is a firm substance which comes in a small tin. It is used for new snow with a clearly-defined crystal structure, and sometimes for older, cold snow (found when the air temperature is below freezing). Klister is a semi-liquid which comes in containers similar to toothpaste tubes. Klister is notoriously sticky and deserves its reputation as a difficult wax to use, but is excellent when used in icy conditions (below freezing, when the snow has lost good crystal structure) or with snow that is relatively warm and wet (above freezing). In times when Kick wax and Klister don't produce enough grip, skiers will sometimes make Hairies: a process of turning the skis into waxless cross country skis by roughing up the base significantly.

Although the nuances of grip waxing are incredibly complex, all grip waxes serve the same purpose. The wax is applied to the central portion of the ski called the "kick zone". The kick zone extends from skier's heel to about 15 cm ahead of the binding. When enough pressure is applied downward, the camber in the ski is flattened, allowing the kick zone to make contact with the snow. When properly selected and applied, the wax in the kick zone grips the snow and allows the skier to propel him or herself forward. A well selected grip wax will release its hold on the snow as the pressure on the kick zone is released.

There are a wide variety of materials used for grip wax. Both natural and synthetic materials are used.

Glide waxing process

Glide waxing is more common than grip waxing, simply because alpine skis, snowboards, waxless cross-country skis, and skate skis can all be treated with glide wax, but only plain cross-country skis need grip wax. Waxless cross-country skis usually have etched gripping surfaces that eliminate the need to apply grip wax. Usually, the process begins with a cleaning of the board by using specifically formulated wax remover (see below), which removes both the old wax and any other dirt that may interfere with the adhesion of the wax. After the bare ski base is exposed, there are typically three methods of waxing:

Hot waxing

File:Bettersnowboarding.comApplyingsnowboardwax.png

File:Bettersnowboarding.comSnowboardwaxscrapper.png

Wax appropriate for the anticipated temperature range is heated up against the iron, melted, and dripped or 'crayoned' onto the base of a ski or snowboard. The wax is then ironed into the base using a heated iron. Softer waxes, better for warmer conditions, require lower iron temperatures than do harder waxes, which are meant for colder conditions and require higher iron temperatures; the appropriate ironing temperature for a given wax is often listed on its packaging. After allowing the base to cool, the excess wax is scraped off. Then the ski is brushed with coarse metal brushes, then softer nylon and horse hair brushes to create a smooth, fast, base, oftentimes highly fluorinated wax (wax in which many of the bonded hydrogens have been replaced with fluorine) is used to reduce the friction between ski and snow even more.

Paste, liquid, spray-on, and rub-on waxing

These are the simplest waxing methods. Generally all that is required is to smear, rub, spray or apply a thin layer liquid wax onto the ski's base using a paint brush, then let dry before buffing it into the ski base with a waxing cork. A common misconception is that waxes applied with this method offer the least performance and require frequent re-application. Liquid and spray waxes in particular provide better coverage than solid wax applied with an iron,^{[citation needed]} however to achieve the same durability as hot waxing an iron is used after liquid or spray wax application to maximize penetration of the wax into the base.

Hotboxing

Another method, hotboxing, consists of applying a wax with an iron, then warming skis in a device called a hotbox. Hotboxes open up the pores in the ski, this allows the recently applied wax to penetrate the base of the ski deeper and more effectively, creating an even faster gliding surface. Hotboxes can be home made—an insulated box with a heater is the basic setup—although commercial made hotboxes are available from manufacturers such as Swix and Toko.

Grip waxing process (for classical, non-waxless cross-country skis only)

Kick Wax

This comes in three forms: the traditional hard wax in an aluminum tin, as a liquid paste and as a tape. The three forms can be used by recreational, fitness and racing skiers.

Klister wax

Klister wax comes in a squeeze tube or a spray-on can and is best applied in a warm location. It is squeezed out of its tube onto the kick zone of the ski, and then spread using a paddle or with a thumb.

Hairies

There are times when neither kick wax nor klister can create effective grip; a technique that is not technically waxing is used to create grip in a particularly specific snow/air temperature (around 0°C) and snow grain (new, abrasive snow). This technique is called "making hairies". The kick zone of the ski is cleaned, then roughened by using fairly coarse sandpaper (usually at least 80 grit). Lastly, a layer of silicone is sprayed over the textured base to discourage ice from sticking to the "hairs" of ptex.

Application tools

There are a wide variety of tools that can be used to aid in the application of ski wax. For glide waxing the basic tools are typically a waxing iron, a plastic scraper and a nylon brush. For grip waxing a cork (natural or synthetic) for application and a plastic scraper for removal (though not the one used for glide wax).

The potential list of tools is very long and can include: waxing irons, scrapers, profiles/vises, brushes, files, screwdrivers, drills, thermometers, hot boxes, planers, clamps, rillers, special pads, cleaners and respirators. These tools are used not only in the direct application of the wax to the ski, but for the preparation of the ski base before applying the ski wax.

Waxing irons

Special-purpose ski waxing irons have more accurate temperature controls, and thicker and smoother bases. Thick bases help keep the heat evenly distributed over the iron's surface. The more accurate temperature control means the iron maintains the selected temperature without excessive temperature spikes or drops. All together this results in better wax penetration into the ski base because each wax has an ideal application temperature. The iron's flat base also allows for easy cleaning so that waxes from previous applications do not become mixed with the current application resulting in a contaminated wax mixture.

Clothes irons are an inexpensive alternative to a special purpose waxing iron but are not recommended. These irons can easily heat to temperatures hot enough to melt the wax, but may not be accurate. Clothes irons suffer from relatively thin bases that tend to poorly distribute heat and low quality temperature control which can result in wide temperature variations during application. Clothes irons can often overshoot the desired temperature and scorch the wax, which decreases the performance of the wax and may be harmful to one's health, especially with fluorinated waxes.

Corks

Corks come in two materials: natural and synthetic. They come in small and large blocks. The corks are used primarily for the spreading of Nordic grip waxes. But they are also used extensively by Nordic and Alpine skiers for applying the high-end fluorocarbon powders. A special cork on a roller called roto-cork is used for pure fluorocarbon wax applications.

Profiles/Vises

These help hold the ski or snowboard in place while waxing and/or tuning is performed. There are different profiles and vises for Nordic skis, Alpine skis and snowboards. Some are large and meant to be left fixed on a workbench while others are portable.

Brushes

Generally the purpose of brushing is to remove the final thin excess layer of wax from the ski without damaging the bases or changing the structure of the ski base. The specialty brushes are used to prepare the ski base and/or deal with very hard waxes. The wide variety of conditions and waxes require a large array of brushes which vary depending on material, bristle stiffness, bristle diameter and size. While it is unnecessary for recreational skiers to have every kind of brush, more serious skiers and wax technicians will have them all. The brush types include stiff nylon (general purpose), soft nylon (finishing/polishing), horsehair (soft and hard), brass (fine and extra fine), copper, fine steel, coarse steel and combination brushes.

History

Johannes Scheffer in Argentoratensis Lapponiæ (History of Lapland) in 1673 probably gave the first recorded instruction for ski wax application^[1] He advised skiers to use pine tar pitch and rosin.

Beginning around 1854, California gold rush miners held organized downhill ski races History of skiing#Ski racing. They also discovered that bases smeared with dopes brewed from vegetable and/or animal compound helped increase skiing speeds. This led to some of the first commercial ski wax (even though they contained no wax at all), such as Black Dope and Sierra Lighting; both are mainly composed of sperm oil, vegetable oil and pine pitch. However, some instead used paraffin candle wax that melted onto ski bases, and these worked better under colder conditions.

A significant advance for cross country racing was the introduction of klister, for good kick in warm snow; klister was invented and patented in 1913 by Peter Ostbye http://no.wikipedia.org/wiki/Peter_%C3%98stbye_(skiprodusent).

Ski waxing has developed into a very complex pseudoscience, its advancement motivated by ski racing. Many companies are dedicated to ski wax production and have developed full lines of wax to cover every condition for the maximum performance. The most recent great advancement in ski wax has been the use of surfactants and fluorocarbons to increase water and dirt repellency and therefore increase glide.

Surfactants were introduced in 1974 by Hertel Wax. Fluorocarbons were introduced beginning in 1986, as the result of parallel research conducted in California and Norway.

Terry Hertel is a recreational skier from the San Francisco area. He had made money during the Silicon Valley computer boom and in 1972 introduced the original ski Hot Wax applicator drum for home use. To go with it he invented a line of high-melting-point paraffin waxes branded as Hot Sauce. As a Lake Tahoe skier, Hertel was fascinated with the problem of glide at all temperatures of snow. In 1974 he formulated a surfactant to his paraffin wax to produce a all temperature wax he trademarked HotSauce. A surfactant is a wetting agent, the exact opposite of a hydrophobic agent. Surfactants are closely related to detergents: they shouldn’t normally work as hydrophobes. But the stuff Hertel used, sodium dodecyl sulfate (SDS), is an odd columnar molecule with a hydrophobic end. Suspended in wax, the molecules clump into spheres with their hydrophobic ends out, making a kind of water-repellent ball bearing.^[2] Hertel said his surfactant ingredient was "microencapsulated", referring to a common technique using SDS and related surfactants in pharmaceutical preparation.^[3] Super HotSauce earned an insiders’ reputation for great glide in heavy snow. Town racers liked it. HotSauce gives the skier and snowboarder additional control.

A couple of years later, Hertel started research for a "Spring Solution", something that would work in very wet snow but repel the pine pollen, diesel exhaust particles and other dirt that darkened the ski slope snow in April and May. He tried polypropylene glycol, a food-grade antifreeze used to keep ice cream from melting, and it worked. But he also talked to Rob Hunter, a chemist at 3M, who mentioned that the company sold a liquid fluorocarbon to the cosmetics and paint industries: it dried to a smooth, glossy surface. Hunter thought the liquid fluorocarbon would work well in a ski wax at colder temperatures, but warned that at $1000 per pound, it was far too expensive.

Hertel wound up buying the 3M perfluorocarbon liquid in five-gallon drums, formulated it into a high-strength candle wax called Paraflint, and in 1986 introduced a hard block wax he called Racing Fluorocarbon 739. It was very hydrophobic, and very fast. (Perfluoro means that all the lateral links in the polymer chain, not just some of them, are capped with fluorine atoms.) Hertel invented White Gold a high performance racing wax by formulating perfluoropolyether diol with the SDS formula.

Meanwhile, at Swix, chief chemist Leif Torgersen was also looking for something to repel dirt. A hard glide wax was essential to last throughout a 50 km race or a ski marathon, but the softer kick wax picked up pine pollen and other dirt, slowing the ski progressively through the course of the race. So he sought a form of fluorocarbon that could be ironed into the base. In Italy, he found it: Enrico Traverso at Enichem SpA, a state-owned industrial giant, had a fluorcarbon powder with a melting temperature just a few degrees below that that of sintered polyethylene. That meant that if you were careful, you could iron it without destroying the ski base. Enichem had no other commercial customers for the material, but were willing to produce small, expensive lots for use in ski waxes.

Swix began experimenting with the stuff on race courses and found that it improved glide by about 2 percent over the best non-fluorocarbon waxes. In 1990 the company introduced a commercial version called Cera F (cera is Italian for wax). The price: $100 for 30 grams. The parents of young racers screamed in agony: apparently you couldn’t win without it. Fortunately, a little went a long way. Speed skier C.J. Mueller remembers waxing his skis with the scrapings from another competitor’s skis.

Belatedly, it occurred to the various parties in this technology race to patent their products. On March 2, 1990, Enichem applied for an Italian patent on a "ski lubricant comprising paraffinic wax and hydrocarbon compounds containing a perfluorocarbon segment".^[4] The same day, Hertel filed for a U.S. patent on a "ski wax for use with sintered-base snow skis",^[5] containing paraffin, a hardener wax, roughly 1% per-fluoroether diol, and 2% SDS surfactant". Enichem received a U.S. patent a year later.

These are the two earliest patents for fluorocarbon ski waxes. Later patents have been granted to Dupont and to a New York chemist named Athanasios Karydas.

Hertel claims his Racing Fluorocarbon 739 product quickly found its way into the waxing kits of World Cup technicians and has been used in a number of medal-winning performances. However, he’s never been a member of any alpine supplier pool (minimum annual buy-in costs $50,000). Hertel has provided specialized waxes for freestyle aerials, because in corn-snow conditions are rough at the entry to a kicker and can hold a large volume of water. Swix, Toko, Holmenkol, Briko, Maplus and Dominator, the large European wax companies who comprise the supplier pools for ski wax, don’t talk about the advanced technology they may be using on World Cup skis.

Wax solvents

Wax can be dissolved by nonpolar solvents like gasoline, benzene (carcinogenic) or mineral spirits. However commercial wax solvents are made from citrus oil, which is less toxic, harder to ignite, and least damaging (if at all) to the ski base.

Brands

BeaverWax
Glide-on Wax
Swix
Toko
Kuu
Hertelskiwax
Whacks Wax
Bluebird
Cnforce tools

References

titan(at)cnforcetools.com Waxing/Ski/Snowboard iron Manufacturer in China

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External links

de:Skiwachs fr:Fart it:Sciolina nl:Waxen (ski) ru:Лыжная мазь

sv:Skidvalla

↑ ^1.0 ^1.1 "Investigation of the most essential factors influencing ski glide" (PDF). Retrieved 2010-05-10.
↑ "Critical micelle concentration (CMC)". OpenWetWare. 2009-08-05. Retrieved 2010-05-10.
↑ "The effect of surfactants on the microencapsulation and release of phenobarbitone from gelatin-acacia complex coacervate microcapsules; Journal of Microencapsulation - 3(2):Pages 89-93". Informa Healthcare. 1994-01-01. Retrieved 2010-05-10.
↑ US patent 5202041, "Ski lubricant comprising paraffinic wax and a hydrocarbon compound", issued Apr 13, 1993, assigned to Enichem Synthesis S.p.A.
↑ US patent 5114482, Terry J. Hertel, "Ski wax for use with sintered base snow skis", issued May 19, 1992

[investigation-1] 1.0 ^1.1 "Investigation of the most essential factors influencing ski glide" (PDF). Retrieved 2010-05-10.

[2] "Critical micelle concentration (CMC)". OpenWetWare. 2009-08-05. Retrieved 2010-05-10.

[3] "The effect of surfactants on the microencapsulation and release of phenobarbitone from gelatin-acacia complex coacervate microcapsules; Journal of Microencapsulation - 3(2):Pages 89-93". Informa Healthcare. 1994-01-01. Retrieved 2010-05-10.

[4] US patent 5202041, "Ski lubricant comprising paraffinic wax and a hydrocarbon compound", issued Apr 13, 1993, assigned to Enichem Synthesis S.p.A.

[5] US patent 5114482, Terry J. Hertel, "Ski wax for use with sintered base snow skis", issued May 19, 1992

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