Analysis of Zero Waste Patternmaking Approaches for Application to Apparel

Part of the Sustainable Textiles: Production, Processing, Manufacturing & Chemistry book series (STPPMC)


The apparel industry is a major contributor to environmental problems from textile manufacturing through garment production and distribution to consumer discard—donation, landfill, reuse, or otherwise (Gam et al., Int J Clothing Sci Technol 21(4):166–179, 2009). In 2015, there were estimated 400 billion square meters of fabrics produced worldwide and 60 billion square meters wasted during apparel production. Vennström (2012) stated that in the United Kingdom, around 2.35 million tons of waste comes from the clothing and textile industry per year, which estimates about 40 kilograms (kg) per person each year. Of the 40 kg (88 lbs) of apparel waste each year, 74% ends up in landfills (Vennström, 2012). Even though the fashion industry applies a variety of technologies to minimize the fabric waste in pursuit of cost reductions, it is still far from eliminating the waste of fabric during the cutting process. On average, 15% of fabric is wasted during the cut-and-sew garment production process (Rissanen & McQuillan, 2016). Professionals and researchers in apparel design and product development discipline are facing a tremendous challenge of combining the innovative patternmaking methods, aesthetics of apparel design, and fabric waste reduction.

Zero waste patternmaking offers a solution by utilizing the entire yardage of fabric, leaving no scrap left after the garment completion (Carrico and Kim, Int J Fashion Des Technol Educ 7(1):58–64, 2014). Further, zero waste has been touted as a means to more creative apparel design outcomes (Townsend & Mills, 2013). Many approaches to zero waste patternmaking have been proposed through a range of sources—blogs, websites, books, and articles (e.g., Townsend & Mills, 2013; Carrico and Kim, Int J Fashion Des Technol Educ 7(1):58–64, 2014; Fletcher, 2013; Antanavičiūtė & Dobilaitė, 2015). Unfortunately, many of these approaches are tied to the particular fabric width and finished garment size they are presented in.

The aim of this chapter is to conduct a systematic review of these approaches. In so doing, we may understand the key principles and be able to apply them across a range of fabric widths and garment sizes. The main method will be to collect a representative sample of zero waste patternmaking approaches and analyze them. Approaches will be analyzed through visually for their pattern shapes, garment components, and three-dimensional finished garment shapes. Selected approaches will also be drafted, cut, and sewn to further understand the outcomes. Research questions include the following: (1) What are the major pattern design principles? (2) What outcomes do these results in? (3) What challenges exist with these approaches? These findings will provide information that will help designers successfully apply zero waste patternmaking methods in apparel design. Further, the research findings will provide focus for needed areas of future research.


Zero waste Patternmaking Garment Design Apparel Fabric Production Apparel industry 


  1. Almond K (2010) Insufficient allure: the luxurious art and cost of creative pattern cutting. Int J Fashion Des Technol Educ 3(1):15–24. Scholar
  2. Antanavičiūtė A, Dobilaitė V (2015) “Principles of slow fashion application in clothing collection creation.” Environ Res Eng Manag 71.2 :54–59Google Scholar
  3. Ataniyazova OA (2003) Health and ecological consequences of the Aral Sea crisis. In: 3rd World Water Forum, Regional Cooperation in Shared Water Resources in Central Asia, KyotoGoogle Scholar
  4. Bye E (2010) A direction for clothing and textile design research. Clothing Text Res J 28(3):205–217. Scholar
  5. Carrico M, Kim V (2014) Expanding zero-waste design practices: a discussion paper. Int J Fashion Des Technol Educ 7(1):58–64CrossRefGoogle Scholar
  6. Creswell JW (2014) Research design: qualitative, quantitative, and mixed methods approaches, 4th edn. SAGE, Thousand OaksGoogle Scholar
  7. Delong M, Goncu-Berk G, Bye E, Wu J (2013) Apparel sustainability from a local perspective. Res J Text Apparel 17(1):59–69. Scholar
  8. Fletcher KT (1999) Environmental improvement by design: an investigation of the UK textile industry. (Doctoral dissertation, Open University)Google Scholar
  9. Fletcher K (2012) Fashion & sustainability, 1st edn. Laurence King, LondonGoogle Scholar
  10. Fletcher K (2013) Sustainable fashion and textiles: design journeys, Routledge.Google Scholar
  11. Gam HJ, Cao H, Farr C, Heine L (2009) C2CAD: a sustainable apparel design and production model. Int J Clothing Sci Technol 21(4):166–179. Scholar
  12. Gwilt A (2013) A practical guide to sustainable fashion. Fairchild Books, LondonGoogle Scholar
  13. Hamre I, Meedom H, Artman I (1980) Tyg och funktion:[att skapa kläder av raka tygstycken]. Wahlström & Widstrand, StockholmGoogle Scholar
  14. Hatch KL (1993) Textile science. West Pub, St. PaulGoogle Scholar
  15. Hollander A (1994) Sex and suits, 1st edn. Knopf, New YorkGoogle Scholar
  16. Joseph-Armstrong H (2010) Patternmaking for fashion design. Pearson Education/Prentice Hall, Upper Saddle RiverGoogle Scholar
  17. Krippendorff K (2019) Content analysis: an introduction to its methodology, 4th edn. Los Angeles, SAGEGoogle Scholar
  18. Lawless E, Medvedev K (2016) Assessment of sustainable design practices in the fashion industry: experiences of eight small sustainable design companies in the Northeastern and Southeastern United States. Int J Fashion Des Technol Educ 9(1):41–50. Scholar
  19. Leonie B (2017). Is cotton conquering its chemical addiction?,, Oct 11, 2017Google Scholar
  20. Lindqvist R (2015) Kinetic garment construction: Remarks on the foundations of pattern cutting. University of Boras, BorasGoogle Scholar
  21. Lumsden, J (2010) A garment for the upper body with a collar and sleeves and buttons down the front: shirts designed through patternmaking: an essay presented in partial fulfilment of the requirements for the degree of Master of Design at Massey University, Wellington, New Zealand. Diss. Massey UniversityGoogle Scholar
  22. McKinney E, Bennet S (2015) Sparkling socialite. a snow-dyed silk gown using inventive patternmaking and construction techniques for minimal fabric waste. International Textile and Apparel Association, ITAA 2015 Design CatalogGoogle Scholar
  23. McKinney E, Wei B (2019) Patternmaking methods for creating size-adjustable garments. In: Moore JG (ed) Patternmaking history and theory. Bloomsbury Visual Arts, LondonGoogle Scholar
  24. McKinney E, Stanley AE, Plummer B, Thompson K, Rorah W (2016) Tacit magic: understanding the principles behind Nakamichi’s creative pattern cutting. Int J Fashion Des Technol Educ 9(2):130–141. Scholar
  25. McQuillan H, Rissanen T (2011) YIELD: Making fashion without making waste. Twinset, The DowseGoogle Scholar
  26. McQuillan H, Archer-Martin J, Menzies G, Bailey J, Kane K, Fox Derwin E (2018) Make/use: a system for open source, user-modifiable, zero waste fashion practice. Fashion Pract 10(1):7–33CrossRefGoogle Scholar
  27. Mullet KK (2009) Concepts of pattern grading: techniques for manual and computer grading. Fairchild Books, New YorkGoogle Scholar
  28. Neuendorf KA (2002) The content analysis guidebook. Sage, Thousand OaksGoogle Scholar
  29. Pedersen EL (2007) Theory is everywhere: a discourse on theory. Clothing Text Res J 25(1):106–128CrossRefGoogle Scholar
  30. Quinn S (2015) Fibers: exploring healthy and clean fiber. In: Hethorn J, Ulasewicz C (eds) Sustainable fashion: what’s next? A conversation about issues, practices, and possibilities. Fairchild Books, New York, pp 148–206Google Scholar
  31. Reynolds PD (2007) A primer in theory construction. Pearson/A and B, BostonGoogle Scholar
  32. Rissanen T (2008) Creating fashion without the creation of fabric waste. In: Hethorn J, Ulasewicz C (eds) Sustainable fashion: why now? A conversation exploring issues, practices, and possibilities. Fairchild Books, New York, pp 148–206Google Scholar
  33. Rissanen T (2016) Zero waste fashion design. London: Fairchild Books, an imprint of Bloomsbury PublishingGoogle Scholar
  34. Rissanen T, McQuillan H (2016) Zero waste fashion design. Vol. 57. Bloomsbury PublishingGoogle Scholar
  35. Rorah W (2016) Laser cutting and etching textiles and apparel design: an experimental study on the implementation and documentation of laser cutting and etching in the apparel design creative process. Iowa State University, AmesGoogle Scholar
  36. Saeidi E, Wimberley VSJI (2018) Precious cut: exploring creative pattern cutting and draping for zero-waste design. J Fashion Des Technol Educ 11(2):243–253CrossRefGoogle Scholar
  37. Townsend K, Mills F (2013) “Mastering zero: how the pursuit of less waste leads to more creative pattern cutting.” International journal of fashion design, technology and education 6.2: 104–111Google Scholar
  38. Vennström K (2012) Sustainable fashion consumption: An interactive system between consumers and institutions. Stockholm UniversityGoogle Scholar

Copyright information

© Springer Nature Switzerland AG 2020

Authors and Affiliations

  1. 1.Department of Apparel, Events, and Hospitality ManagementIowa State UniversityAmesUSA

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