Abstract
This chapter examines how industrial design has influenced and been influenced by additive manufacturing, viewed in the context of the major technological breakthroughs of the last century, and the different views of the user brought about by societal change, a key factor for industrial designers.
Access this chapter
Tax calculation will be finalised at checkout
Purchases are for personal use only
Similar content being viewed by others
References
Vries JD (2009) The industrial revolution and the industrious revolution. J Econ Hist 54(2):21
Klingenberg C (2017) Industry 4.0: what makes it a revolution?
Easterlin RA (2019) Three revolutions of the modern era. Comp Econ Stud 61(4):521–530
Markillie P (2012) A third industrial revolution. The Economist
da Silva Bartolo PJ et al (2020) Industry 4.0–shaping the future of the digital world. In: Proceedings of the 2nd international conference on sustainable smart manufacturing (S2M 2019), April 2019.CRC Press, Manchester, UK, pp 9–11
Philbeck T, Davis N (2018) The fourth industrial revolution. J Int Aff 72(1):17–22
Mohajan HK (2019) The first industrial revolution: creation of a new global human era. J Soc Sci Humanit 5(4):10
Foster J (2003) Class struggle and the industrial revolution: early industrial capitalism in three English towns. Routledge, London
Mokyr J, Strotz RH (2000) The second industrial revolution, 1870–1914. Northwestern University
Lee J, Lee K (2021) Is the fourth industrial revolution a continuation of the third industrial revolution or something new under the sun? Analyzing technological regimes using US patent data. Ind Corp Chang 30(1):22
Lees-Maffei G, Houze R (eds) (2010) The design history reader. Berg, New York
Hounshell D (1984) From the American system to mass production, 1800–1932: the development of manufacturing technology in the United States. Johns Hopkins University Press, Baltimore
Frayling C (1993) Research in art and design. Royal College of Art Research Papers (1:1), pp 1–5
Cross N (2000) Engineering design methods, 3rd edn. Wiley, Chichester
Schön DA (1998) Toward a marriage of artistry and applied science in the architectural design studio. J Archit Educ 41:6
Slappendel C (1994) Ergonomics capability in product design and development: an organizational analysis. Appl Ergon 25(5):266–274
Huston RL (1994) The measure of man and woman—human factors in design Alvin R. Tilley, Henry Dreyfuss associates 1993, 96 pages, $60.00. Whitney Library of Design Watson-Guptill, New York ISBN 0–8230–3031–8. Ergon Des 2(2):37–39
Meister D (1999) The history of human factors and ergonomics. Lawrence Erlbaum Associates, Mahwah, New Jersey
Rong W (2012) Study of the availability of product design based on users perception [J]. Machinery
Liu S-F et al (2013) Applying quality function deployment in industrial design curriculum planning. Int J Technol Des Educ 23(4):1147–1160
Waterson P, Sell R (2006) Recurrent themes and developments in the history of the ergonomics society. Ergon 49(8):743–799
Batchelor R (1994) Henry Ford, mass production, modernism and design. Manchester University Press, Manchester
Crowther S (1922) My life and work: an autobiography of Henry Ford. William Heinemann Ltd
Weber NF (2009) The Bauhaus group: six masters of modernism. Alfred A Knopf, London, p 544
Clarke AJ (1999) Tupperware: the promise of plastics in 1950s America. Smithsonian Books, London
Clarke AJ (2014) Tupperware: the promise of plastic in 1950s America. Smithsonian Institution, London
Greenwood J (1997) The third industrial revolution: technology, productivity, and income inequality. American Enterprise Institute, Washington, DC
Jordan PW (2020) An introduction to usability. CRC Press, London
Atkinson P (2007) The best laid plans of mice and men: the computer mouse in the history of computing. Des Issues 23(3):16
Hornbaek K, Stage J (2006) The interplay between usability evaluation and user interaction design. Intern J Hum-Comput Interact 21(2):117–123
Tumminelli P (2004) Car design. Te Neues Verlag GmbH
Dowlen C, Shackleton J (2003) Design history of the car: an empirical overview of the development of layout and form. In: DS 31: Proceedings of ICED 03, the 14th international conference on engineering design, Stockholm
Raun C, Kirkegaard P (2015) Adaptive mould-A cost-effective mould system linking design and manufacturing of double-curved GFRC panels. In: 17th international congress of GRCA-GRC, Dubai
Simondetti A (2002) Computer-generated physical modelling in the early stages of the design process. Autom Constr 11(3):303–311
Barber C (2003) Birth of the Beetle: the development of the Volkswagen by Ferdinand Porsche. Haynes Publishing, Sparkford
Tovey M, Owen J (2000) Sketching and direct CAD modelling in automotive design. Des Stud 21(6):569–588
Micheli P et al (2012) Perceptions of industrial design: the “means” and the “ends.” J Prod Innov Manag 29(5):687–704
Green WS, Jordan PW (2002) Pleasure with products: beyond usability. CRC press, London
Story MF (2001) Principles of universal design: universal design handbook. McGraw-Hill, New York, NY
Carr K et al (2013) Universal design: a step toward successful aging. J Aging Res 2013:324624–324624
Bergman E et al (1996) Universal design: everyone has special needs. In: Conference companion on human factors in computing systems
Mustaquim MM (2015) A study of universal design in everyday life of elderly adults. Procedia Comput Sci 67:57–66
Hopkinson N, Hague RMJ, Dickens PM (2005) Rapid manufacturing: an industrial revolution for the digital age. Wiley, Chicheste, West Sussex, p 285
Pham DT, Dimov SS (2001) Rapid manufacturing: the technologies and applications of rapid prototyping and rapid tooling. Springer Verlag, London
Capjon J (2004) Trial and error based innovation. In: Institute of industrial design. Oslo School of Architecture and Design, Oslo
Killi S (ed) (2017) Additive manufacturing: design, methods andf processes, 1st edn. Pan Stanford, Singapore
Reeves P, Tuck C, Hague R (2011) Additive manufacturing for mass customization. Mass customization. Springer, London, pp 275–289
Campbell RI, Jee H, Kim YS (2013) Adding product value through additive manufacturing. In: DS 75–4: Proceedings of the 19th international conference on engineering design (ICED13), Design for Harmonies, vol 4: product, service and systems design. Seoul, Korea, 19–22 August
Singh S, Ramakrishna S, Singh R (2017) Material issues in additive manufacturing: a review. J Manuf Process 25:185–200
Maidin SB, Campbell I, Pei E (2012) Development of a design feature database to support design for additive manufacturing. Assembly Automation
Yang H, Luo D (2019) A study of additive manufacturing technology’s development and impact through the multi-level perspective framework and the case of Adidas
Galantucci LM et al (2019) Additive manufacturing: new trends in the 4 th industrial revolution. In: International conference on the industry 4.0 model for advanced manufacturing. Springer
Bardakci A, Whitelock J (2004) How “ready” are customers for mass customisation? An exploratory investigation. Eur J Mark
Alford D, Sackett P, Nelder G (2000) Mass customisation—an automotive perspective. Int J Prod Econ 65(1):99–110
Killi S (2010) Form follows algorithm: computer derived design for rapid manufacturing. In: Innovative developments in design and manufacturing: advanced research in virtual and rapid prototyping: proceedings of the 4th international conference on advanced research and rapid prototyping, Leiria, Portugal, 6–10 October 2009, pp 575–590
Page T (2011) Design for additive manufacturing. LAP Lambert Academic Publishing, Saarbrucken
Maleki E et al (2021) Surface post-treatments for metal additive manufacturing: progress, challenges, and opportunities. Addit Manuf 37:101619
Nazir A, Jeng J-Y (2020) A high-speed additive manufacturing approach for achieving high printing speed and accuracy. Proc Inst Mech Eng C J Mech Eng Sci 234(14):2741–2749
Schwab K, Davis N (2018) Shaping the future of the fourth industrial revolution. Currency
Aylward K et al (2021) Using operational scenarios in a virtual reality enhanced design process. Educ Sci 11(8):448
Silver N (2017) Finance, society and sustainability: how to make the financial system work for the economy, people and planet. Springer, Berlin, Germany
Author information
Authors and Affiliations
Corresponding author
Editor information
Editors and Affiliations
Rights and permissions
Copyright information
© 2022 The Author(s), under exclusive license to Springer Nature Switzerland AG
About this chapter
Cite this chapter
Killi, S.W. (2022). Industrial Design: Shaped by Technology and Users. Past, Present, AM, and the Future. In: Kyratsis, P., Efkolidis, N., Davim, J.P. (eds) Advances in Product Design Engineering. Management and Industrial Engineering. Springer, Cham. https://doi.org/10.1007/978-3-030-98124-2_1
Download citation
DOI: https://doi.org/10.1007/978-3-030-98124-2_1
Published:
Publisher Name: Springer, Cham
Print ISBN: 978-3-030-98123-5
Online ISBN: 978-3-030-98124-2
eBook Packages: EngineeringEngineering (R0)