User:Gilbertltaylor/Textile design

= Textile Design = Textile design is the creative and technical process by which thread or yarn fibers are woven together or interlaced to form a flexible, functional, and decorative cloth or fabric which is subsequently printed upon or otherwise adorned. Textile design is further broken down into three major disciplines, printed textile design, woven textile design, and mixed media textile design, each of which utilize different methods to produce a surface ornamented fabric for variable uses and markets. Textile Design as a practice has evolved to become an industry integral to other disciplines such as fashion, interior design, and fine arts.

Printed Textile Design
Printed textile designs are produced by the application of various printing processes to fabric or cloth and other media, namely: resist printing, relief printing, rotogravure, screen printing, transfer printing, and digital printing. These processes utilize various inks and dyes to imprint aesthetic, often repeating patterns, motifs, and styles onto the fabric or cloth. Printed textile designers are predominantly and inextricably involved with home interior design (designing patterns for carpets, wallpapers, or even ceramics), the fashion and clothing industries, and the paper industry (designing stationary or gift wrap).

There are numerous established and enduring printed styles and designs that can be broken down into four major categories: floral, geometric, world cultures, and conversational. Floral designs include flowers, plants, or any botanical theme. Geometric designs feature themes both inorganic and abstract such as tessellations. Designs surrounding world cultures may be traced to a specific geographic, ethnic, or anthropological source. Finally, conversational designs are designs that fit less easily into the other categories: they may be described as presenting "imagery that references popular icons of a particular time period or season, or which is unique and challenges our perceptions in some way." Each category contains sundry, more specific individual styles and designs.

Different clothes, moreover, require different dyes: for example, silk, wool, or other protein-based fabrics require acidic dyes based whereas synthetic fabrics require specialized disperse dyes.

The advent of computer-aided design software, such as Adobe Photoshop or Illustrator, has allowed each discipline of textile design to evolve and innovate new practices and processes, but has most influenced the production of printed textile designs. Most prominently, digital tools have made the process of creating repeating patterns or motifs, or repeats, much more effective and simple. Repeats are used to create patterns both visible and invisible to the eye: geometric patterns are intended to depict clear, intentional patterns, whereas floral or organic designs, for instance, are intended to create unbroken repeats that are ideally undetectable. Poorly constructed repeats draw the eye to portions of the textile that expose the pattern and break the illusion of continuity, an issue called "tracking," which is easily remedied in a digital environment. These tools, alongside the innovation of digital inkjet printing, have allowed the textile printing process to become faster, more scalable, and sustainable.

Woven Textile Design
Woven textile design emanates from the practice of weaving which produces fabric by interlacing a vertical yarn (warp) and a horizontal yarn (weft), most often at right angles. Woven textile designs are created by various types of looms and are now predominantly produced using a mechanized or computerized jacquard loom.

Designs within the context of weaving are created using various types of yarns, utilizing variance in texture, size, and color to construct a stylized patterned or monochromatic fabric. There are a large range of yarn types available to the designer, including but not limited to cotton, twill, linen, and synthetic fibers. In order to produce the woven fabric, the designer first delineates and visualizes the sequence of threading which is traditionally drawn out on graph paper known as a point paper.

The designer also will choose a weave structure which governs the aesthetic design that will be produced. The most common process is a plain weave, in which the yarns interlace in an alternating, tight formation producing a strong and flexible multi-use fabric. Twill weaves, which are also common, alternatively utilize diagonal lines created by floating the warp or the weft to the left or the right. This process creates a softer fabric favored by designers in the fashion and clothing design industries. Common and recognizable twill styles include patterns like houndstooth or herringbone.

Beyond weave structure, color is another dominant aspect governing woven textile design. Typically, designers choose two or more contrasting colors that will be woven into patterns based on the designer's chosen threading sequence. Color is also dependent on the size of the yarn: fine yarns will produce a fabric that may change colors when it receives light from different angles whereas larger yarns will generally produce a more monochromatic surface.

Mixed Media Textile Design
Mixed media textiles designs are produced utilizing embroidery or other various fabric manipulation processes such as pleating, appliqué, quilting, and laser cutting.

Embroidery is traditionally performed by hand, applying myriad stitches of thread to construct designs and patterns on the textile surface. Similar to printed textile design, embroidery affords the designer a vast amount of artistic and aesthetic control. Typical stitches include but are not limited to the cross stitch, the chain stitch, and couching. Although industrial and mechanized embroidery has become the standard, hand stitching still remains a fixture for fine arts textiles.

Quilting, traditionally used to enhance the insulation and warmth of a textile, also provides the designer the opportunity to apply aesthetic properties. Most commonly quilts feature geometric and collage designs formed from a various textiles of different textures and colors. Quilting also frequently employs the use of recycled scrap or heirloom fabrics. Quilts are also often used as medium for an artist to depict a personal or communal narrative: for example, the Hmong people have a tradition of creating story quilts or cloths illustrating their experiences with immigration to the United States from Eastern and Southeastern Asia.

Textile Design and the Environment
The practice and industry of textile design present environmental concerns. From the production of cloth from raw material, to dyeing and finishing, and finally the ultimate disposal of products, each step of the process produces environmental implications that have proliferated with the emergence of fast fashion and other modern industrial practices.

Predominantly, these environmental impacts stem from the heavy use of hazardous chemicals involved in each step of the textile creation process which must be properly disposed of. Other considerations involve the amount of waste created by the disposal of textile design products and the reclamation and re-use of recyclable textiles. The Environmental Protection Agency reported that over 15 millions tons of textile waste is created annually. This consists of some 5% of all municipal waste generated and only 15% of that waste is recovered and reused.

These concerns have led to the birth of sustainable textile design movements and the practice of ecological design within the field. For instance, London's Royal Society of the Arts hosts design competitions that compel all entrants to center their design and manufacturing methods around sustainable practices and materials.

References and Further Reading

 * Clarke, Simon, 1963-. Textile design. London [England]. ISBN 978-1-78539-200-9. OCLC 908338301.
 * Bowles, Melanie, 1961- (2012). Digital textile design. Isaac, Ceri. (2nd ed ed.). London: Laurence King Pub. ISBN 1-78067-223-3. OCLC 866622297.
 * Briggs-Goode, A. (Amanda). Printed textile design. London. ISBN 978-1-78067-403-2. OCLC 898176484.
 * Shenton, Jan. Woven textile design. Ridsdale, Eleanor,. London [England]. ISBN 978-1-78067-569-5. OCLC 884590266.
 * Textile technology and design : from interior space to outer space. Schneiderman, Deborah, 1968-, Winton, Alexa Griffith,. New York. ISBN 978-1-4742-6195-1. OCLC 923252209.
 * Design and manufacture of textile composites. Long, A. C. (Andrew Craig), Textile Institute (Manchester, England). Cambridge: Woodhead. 2005. ISBN 1-84569-082-6. OCLC 71001056.
 * Sladescu, Viorica, and Alexandra Rusu. New Technologies In Textile Design Education. 3 Vol. Bucharest: "Carol I" National Defence University, 2015.Harvey, Claire et al. "Weaving Objects: Spatial Design and Functionality of 3D-Woven Textiles." Leonardo 52, no. 4 (2019): 381-388.
 * "Advancing Sustainable Materials Management: Facts and Figures 2013" (PDF). United States Environmental Protection Agency. Retrieved April 10, 2020.
 * Calamari, Sage; Hyllegard, Karen H. (2016-07-07). "An exploration of designers' perspectives on human health and environmental impacts of interior textiles". Textiles and Clothing Sustainability. 2 (1): 9. doi:10.1186/s40689-016-0020-7. ISSN 2197-9936.
 * "Artlandia Glossary of Pattern Design". Artlandia.
 * Russel, Alex.The Fundamentals of Printed Textile Design, AVA Publishing SA Distributed by Thames & Hudson (ex-North America) Distributed in the USA & Canada by: English Language Support Office, doi:10.5040/9781474218535.ch-001, ISBN 978-1-4742-1853-5