Tablet weaving
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Tablet Weaving (often card weaving in the United States) is a process of weaving where tablets, also called 'cards', are used to create the shed the weft is passed through. It is generally used to make narrow work such as belts or straps.
The origins of this technique go back at least to the early Iron age. Examples have been found at Hochdorf, Germany and Apremont, France.
As the materials and tools are relatively cheap and easy-to-obtain, tablet weaving is popular with hobbyist weavers.
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[edit] Tools
The tablets used in weaving are typically shaped as regular polygons, with holes near each vertex and possibly at the center, as well. The number of holes in the tablets used is a limiting factor on the complexity of the pattern woven. The corners of the tablets are typically rounded to prevent catching as they are rotated during weaving.
In the past, weavers made tablets from bark, wood, bone, horn, stone, leather, or a variety of other materials. Modern cards are frequently made from cardboard. Some weavers even drill holes in a set of playing cards. This is an easy way to get a customized tablets or large numbers of inexpensive tablets.
The tablets are usually marked with colors or stripes so that their facings and orientations can be easily noticed.
[edit] Procedure
The fundamental principle is to turn the tablets to lift selected sets of threads in the warp. The tablets may be turned in one direction continually as a pack, turned individually to create patterns, or turned some number of times "forward" and the same number "back". Twisting the tablets in only one direction can create a ribbon that curls in the direction of the twist, though there are ways to thread the tablets that mitigate this issue.
Traditionally, one end of the warp was tucked into, or wrapped around the weaver's belt, and the other is looped over a toe, or tied to a pole or furniture. Some traditional weavers weave between two poles, and wrap the weft around the poles. Commercial "tablet weaving looms" adapt this idea, and are convenient because they make it easy to put the work down.
Some modern weavers thread each card individually, but this is time consuming. The traditional threading method is to put all the threads through the holes of an entire deck. Then, starting at the pair of cards farthest from the bobbins, the threads are pulled from between each pair of cards out to the length of the warp, and hooked or tied on each end. If the cards remain "paired", so that alternate cards twist in opposite directions, continuous turning does not twist the ribbon. Some weavers in some patterns flip alternate cards, "unpairing" them. This makes it easier to turn individual cards.
A shuttle about twice as wide as the ribbon is placed in the shed to beat the previous weft, then carry the next weft into the shed. Shuttles made for tablet weaving have sharp edges to beat down the weft. The best shuttles have plates to cover the bobbin, and keep it from catching the warp. Simple flat wooden or plastic shuttles work well for weaving with large yarns, but weaving with finer threads goes more quickly with a tablet-weaving shuttle.
Patterns are made by placing different-colored yarns in different holes, then turning individual cards until the desired colors of the weft are on top. After that, a simple pattern, like a stripe, small diamond or check, can be repeated just by turning the deck of tablets.
Tablet weaving is especially freeing, because any pattern can be created by turning individual tablets. This is in contrast to normal looms, in which the complexity of the pattern is limited by the number of shafts available to lift threads, and the threading of the heddles.
Tablet weaving can also be used to weave tubes or double weave. The tablets are made to have four levels in the warp, and then two sheds are beat and wefted, one in the top pair of warps, and the other in the bottom pair, before turning the deck. Since groups of tablets can be turned separately, the length, width and joining of the tubes can be controlled by the weaver.
[edit] See also
[edit] External links
- The Loomy Bin simulation software and pattern library