Clothing technology involves the manufacturing, materials - innovations that have been developed and used. The timeline of clothing and textiles technology includes major changes in the manufacture and distribution of clothing.

From clothing in the ancient world into modernity, the use of technology has dramatically influenced clothing and fashion in the modern age. Industrialization brought changes in the manufacture of goods. In many nations, homemade goods crafted by hand have largely been replaced by factory produced goods on assembly lines purchased in a consumer culture. Innovations include man-made materials such as polyester, nylon, and vinyl as well as features like zippers and velcro. The advent of advanced electronics has resulted in wearable technology being developed and popularized since the 1980s.

Design is an important part of the industry beyond utilitarian concerns and the fashion and glamour industries have developed in relation to clothing marketing and retail. Environmental and human rights issues have also become considerations for clothing and spurred the promotion and use of some natural materials such as bamboo that are considered environmentally friendly.

Production edit

The advent of industrialization included factories, specialized and technologically advanced equipment, and production lines for the mass production of textiles[1] like natural and synthetic fibers. Globalization and advances in trade increased sourcing of materials and competition for wares across borders. The swadeshi movement in India was an effort to counteract the economic control and influence that British factories exerted over the one-time colony. Concerns have also been raised over the use of so-called sweat shops.

Clothing lines based on famous designers have been featured and advertised in magazines and other media. Branding and [marketing] are features of the advertising age. Some designers have also become television and media personalities. In recent years fashion and design has also been the subject of television shows.

The media and different networking sites have a tremendous effect on the production of clothing. Complex software is used to go through and analyze important data related to production and consumerism. This process needs to be done quickly and efficiently in order for companies to meet customer demand thus enhancing their profit and brand.[2]

Sports edit

The design and constructions of sportswear has changed dramatically over time. Athletic apparel aids in the prevention of injuries, the improvement of breathability, the protection from the weather, and the encouragement of a fitness mindset. Athletes can now use wearable heart rate monitors and fitness trackers to capture a variety of fitness-related parameters, such as distance traveled, calorie consumption, heart rate, and sleep quality.

Techwear edit

The design of techwear has evolved to become a fashion statement and technical use all at the same time. Techwear involves added zippers, buttons, straps, cord lock, etc. to help aid the changeability of outfits for different temperatures, climates, and moods. It can allow the user to change what they are wearing no matter where they are in a matter of seconds.

Education edit

Computer-aided design is used in the development of clothing. Corporate and business training to address accounting, trade, and finance issues has also become a significant part of the trade. Courses and programs at Universities specialize in these fields. the Beijing Institute of Clothing Technology and Fachhochschule für Technik und Wirtschaft Berlin are examples institutions focused on the business. In the area of engineering development of functional clothing, TU Dresden, Germany provides courses at Bachelor, Dipl.-Ing and non-consecutive MSc. degree and HS Niedererrhein (Mönchengladbach) provides B.Sc. and M.Sc. programs. National governments have also become involved in the business with trade rules and negotiations as well as investments such as Europe's Future Textiles and Clothing program.

Research and scientific publications edit

The modern clothing development is performed using 3D avatars, often obtained through 3D scanning. Obtaining valid body measurements from 3D scan is still research area,[3] while the recent topics are more related more to the speed and the accuracy of the process, than to the methods for this. TU Dresden applies high speed (4D) scanning system,[4] developed by IBV for analysis of human body deformations during motion.[5] Open access journal as source for reading the latest research in the area clothing development, related to soft avatars,[6] protective clothing,[7] comfort[8] and other topics is the CDATP journal.

See also edit

References edit

  1. ^ "Industrial Revolution". www.britannica.com. 8 February 2024.
  2. ^ Cutsey, Mike. "What's New In Apparel Manufacturing Technology?". FDM4. Retrieved 15 April 2022.
  3. ^ Gill, Simeon; Ahmed, Maryam; Parker, Christopher J.; Hayes, Steven G. (2017-10-11). "Not All Body Scanning Measurements Are Valid: Perspectives from Pattern Practice". Proceedings of 3DBODY.TECH 2017 - 8th International Conference and Exhibition on 3D Body Scanning and Processing Technologies, Montreal QC, Canada, 11-12 Oct. 2017. Montreal QC, Canada: Hometrica Consulting - Dr. Nicola D'Apuzzo. pp. 43–52. doi:10.15221/17.043. ISBN 978-3-033-06436-2.
  4. ^ "4D scanner analyses interactions between body and textile". Textile Technology. 2020-12-09. Retrieved 2023-01-21.
  5. ^ Kyosev, Yordan; Tomanova, Vanda; Schmidt, Ann-Malin (2022-10-25). "Method for Automatic Analysis of the Clothing Related Body Dimension Changes During Motion Using High-Speed (4D) Body Scanning". 3D Body Tech. doi:10.15221/22.24. ISBN 978-3-033-09520-5.
  6. ^ Brake, Elena; Kyosev, Yordan; Rose, Katerina (2022-09-03). "3D garment fit on solid and soft digital avatars – preliminary results". Communications in Development and Assembling of Textile Products. 3 (2): 97–103. doi:10.25367/cdatp.2022.3.p97-103. ISSN 2701-939X.
  7. ^ Muenks, Dominik; Pilgrim, Jasmin; Yordan, Kyosev (2022-09-03). "Possibilities for qualitative evaluation of the protection area of protective clothing". Communications in Development and Assembling of Textile Products. 3 (2): 156–162. doi:10.25367/cdatp.2022.3.p156-162. ISSN 2701-939X.
  8. ^ Cubric, Ivana Salopek; Cubric, Goran; Matkovic, Vesna Marija Potocic; Cuden, Alenka Pavko (2021-07-08). "The comfort of knitted fabrics: interaction of sportswear and athlete's body". Communications in Development and Assembling of Textile Products. 2 (1): 70–79. doi:10.25367/cdatp.2021.2.p70-79. ISSN 2701-939X.