Araştırma Makalesi
BibTex RIS Kaynak Göster

Sürdürülebilirlik İçin Tasarım: Sürdürülebilirlik Kültürü Oluşturmada Endüstriyel Tasarımın ve Tasarımcıların Rolü

Yıl 2024, , 31 - 43, 29.02.2024
https://doi.org/10.51664/artium.1298816

Öz

İnsan faaliyetlerinin çevre üzerindeki olumsuz etkisine ilişkin artan farkındalık, kuruluşların sürdürülebilirliğe proaktif bir yaklaşım benimsemesi ihtiyacını doğurmuştur. Bu yönde atılan önemli bir adım, kuruluşlarda sürdürülebilirlik kültürü oluşturmaktır. Sürdürülebilirlik kültürü, çevresel, sosyal ve ekonomik sürdürülebilirliği destekleyen değerleri, davranışları ve uygulamaları kapsar. Endüstriyel tasarım araştırmacıları, çevreyi büyük ölçüde etkileyen ürün ve sistemler tasarlayıp geliştirirken bu süreçte önemli bir role sahiptir.
Bu araştırmanın amacı, sürdürülebilirlik kültürü oluşturma kavramını bir endüstriyel tasarım araştırmacısının bakış açısıyla incelemektir. Araştırma, kuruluşların sürdürülebilirlik kültürü oluşturmak için benimsediği strateji ve uygulamaları ve bu süreçte endüstriyel tasarım araştırmacılarının rolünü keşfetmeyi amaçlamaktadır. Ayrıca araştırma, bu stratejilerin örgütler üzerindeki etkisini ve sonuçlarını incelemeyi amaçlamaktadır.
Bu amaca ulaşmak için araştırma, araştırmaya teorik çerçeve sağlayan mevcut literatür taramasına dayandırılacaktır. Literatür taraması, endüstriyel tasarımda sürdürülebilirliğin mevcut durumunu, sürdürülebilirlik kültürünün çeşitli bileşenlerini ve endüstriyel tasarım araştırmacılarının bir sürdürülebilirlik kültürü yaratmada oynadıkları özel rolü araştırdı.
Sonuç olarak, bir sürdürülebilirlik kültürü oluşturmak, kuruluşların ve toplulukların çevresel etkilerini azaltmaları ve uzun vadeli sürdürülebilirliklerini geliştirmeleri için elzemdir. Endüstriyel tasarım araştırmacılarının bu süreçte oynayacağı benzersiz bir rol olduğundan, bunların çevre üzerindeki etkilerini göz önünde bulundurmaları ve sürdürülebilir ve kapsayıcı ürünler, sistemler ve süreçler tasarlamaları önemlidir. Çalışma, kuruluşların sürdürülebilirlik kültürü oluşturmak için benimseyebilecekleri strateji ve uygulamaları ve bu süreçte endüstriyel tasarım araştırmacılarının rolünü tartışıyor.

Kaynakça

  • Ahmad, S., Wong, K. Y., Tseng, M. L., & Wong, W. P. (2018). Sustainable product design and development: A review of tools, applications, and research prospects. Resources, Conservation and Recycling, 132, 49-61.
  • Armstrong, C. M., & LeHew, M. L. (2011). Sustainable apparel product development: In search of a new dominant social paradigm using sustainable approaches. Fashion Practice, 3(1), 29–62.
  • Ayeyemi, L. (2013). Industrial Development in Developing Nations: A case study of Nigerian Small and medium business enterprises.
  • Bakker, C. A., Wever, R., Teoh, C., & De Clercq, S. (2010). Designing cradle-to-cradle products: a reality check. International Journal of Sustainable Engineering, 3(1), 2-8.
  • Bhatnagar, R., Keskin, D., Kirkels, A., Romme, A. G. L., & Huijben, J. C. C. M. (2022). Design principles for sustainability assessments in the business model innovation process. Journal of Cleaner Production, 377, 134313.
  • Blizzard, J. L., & Klotz, L. E. (2012). A framework for sustainable whole systems design. Design Studies, 33(5), 456-479.
  • Bocken, N. M., De Pauw, I., Bakker, C., & Van Der Grinten, B. (2016). Product design and business model strategies for a circular economy. Journal of Industrial and production engineering, 33(5), 308-320.
  • Bracquene, E., Peeters, J. R., Burez, J., De Schepper, K., Duflou, J. R., & Dewulf, W. (2019). Repairability evaluation for energy-related products. Procedia CIRP, 80, 536-541.
  • Bulei, C., Todor, M. P., Heput, T., & Kiss, I. (2018). Directions for material recovery of used tires and their use in the production of new products intended for the industry of civil construction and pavements. In IOP Conference Series: Materials Science and Engineering (Vol. 294, No. 1, p. 012064). IOP Publishing.
  • Byggeth, S., Broman, G., & Robèrt, K. H. (2007). A method for sustainable product development based on a modular system of guiding questions. Journal of cleaner production, 15(1), 1-11.
  • Camilleri, M. A. (2019). The circular economy's closed loop and product service systems for sustainable development: A review and appraisal. Sustainable Development, 27(3), 530-536.
  • Ceschin, F., & Gaziulusoy, I. (2016). Evolution of design for sustainability: From product design to design for system innovations and transitions. Design studies, 47, 118-163.
  • Chandrasegaran, S. K., Ramani, K., Sriram, R. D., Horváth, I., Bernard, A., Harik, R. F., & Gao, W. (2013). The evolution, challenges, and future of knowledge representation in product design systems. Computer-aided design, 45(2), 204-228.
  • Cherian, J., & Jacob, J. (2012). Green marketing: A study of consumers' attitude towards environment-friendly products.
  • Cherrier, H. (2007). Ethical consumption practices: co‐production of self‐expression and social recognition. Journal of Consumer Behaviour: An International Research Review, 6(5), 321–335.
  • Clark, G., Kosoris, J., Hong, L. N., & Crul, M. (2009). Design for sustainability: current trends in sustainable product design and development. Sustainability, 1(3), 409-424.
  • Cordella, M., Alfieri, F., Clemm, C., & Berwald, A. (2021). The durability of smartphones: A technical analysis of reliability and repairability aspects. Journal of Cleaner Production, 286, 125388.
  • Dangelico, R. M., & Pujari, D. (2010). Mainstreaming green product innovation: Why and how companies integrate environmental sustainability. Journal of business ethics, 95, 471-486.
  • De Pauw, I., Karana, E., & Kandachar, P. (2013). Cradle to cradle in product development: A case study of closed-loop design. In Re-engineering Manufacturing for Sustainability: Proceedings of the 20th CIRP International Conference on Life Cycle Engineering, Singapore 17-19 April 2013 (pp. 47-52). Springer Singapore.
  • Design Council, [Accessed 10 March 2023] https://www.designcouncil.org.uk/who-we-are/about-us/sustainability/
  • Elkington, J. (1997). The triple bottom line. Environmental management: Readings and cases, pp. 2, 49–66.
  • Elkington, J. (2013). Enter the triple bottom line. In The triple bottom line: Does it all add up? (pp. 1–16). Routledge.
  • Eriksen, M. K., Christiansen, J. D., Daugaard, A. E., & Astrup, T. F. (2019). Closing the loop for PET, PE and PP waste from households: Influence of material properties and product design for plastic recycling. Waste management, 96, 75-85.
  • Ferranti, P. (2019). The united nations sustainable development goals. Encyclopedia of Food Security and Sustainability, pp. 6–8.
  • He, L., Wang, M., Chen, W., & Conzelmann, G. (2014). Incorporating social impact on new product adoption in choice modeling: A case study in green vehicles. Transportation Research Part D: Transport and Environment, 32, 421-434.
  • Ilieva, L., Ursano, I., Traista, L., Hoffmann, B., & Dahy, H. (2022). Biomimicry as a sustainable design methodology—Introducing the 'Biomimicry for Sustainability framework. Biomimetics, 7(2), 37. Johnson, E. W., & Greenberg, P. (2017). The US environmental movement of the 1960s and 1970s: Building frameworks of sustainability. In Routledge Handbook of the History of Sustainability (pp. 137–150). Routledge.
  • Keitsch, M. (2012). Sustainable design: A brief appraisal of its central concepts. Sustainable Development, 20(3), 180–188.
  • Kopnina, H. (2018). Circular Economy and Cradle to Cradle in educational practice. Journal of integrative environmental sciences, 15(1), 119–134.
  • Lofthouse, V., & Prendeville, S. (2018). Human-centered design of products and services for the circular economy–a review. The Design Journal, 21(4), 451-476.
  • Mazar, N., & Zhong, C. B. (2010). Do green products make us better people? Psychological science, 21(4), 494–498.
  • McDonough, W., & Braungart, M. (2002). Design for the triple top line: new tools for sustainable commerce. Corporate Environmental Strategy, 9(3), 251–258.
  • Melles, G., de Vere, I., & Misic, V. (2011). Socially responsible design: thinking beyond the triple bottom line to socially responsive and sustainable product design. CoDesign, 7(3-4), pp. 143–154.
  • Meuer, J., Koelbel, J., & Hoffmann, V. H. (2020). On the nature of corporate sustainability. Organization & Environment, 33(3), 319-341.
  • Meyer, M. W., & Norman, D. (2020). Changing design education for the 21st century. She Ji: The Journal of Design, Economics, and Innovation, 6(1), 13–49.
  • Newell, A. F., & Gregor, P. (2000, November). "User sensitive, inclusive design"—in search of a new paradigm. In Proceedings on the 2000 conference on Universal Usability (pp. 39–44).
  • Norgate, T., & Haque, N. (2010). Energy and greenhouse gas impacts of mining and mineral processing operations. Journal of cleaner production, 18(3), 266-274.
  • Li, J., Li, Y., Song, H., & Fan, C. (2021). Sustainable value creation from a capability perspective: How to achieve sustainable product design. Journal of Cleaner Production, 312, 127552.
  • Ramirez, M. (2006). Sustainability in the education of industrial designers: the case for Australia. International Journal of Sustainability in Higher Education, 7(2), 189–202.
  • Romli, A., Prickett, P., Setchi, R., & Soe, S. (2015). Integrated eco-design decision-making for sustainable product development. International Journal of Production Research, 53(2), 549-571.
  • Russell, D. A. (2014). Sustainable (food) packaging–an overview. Food additives & contaminants: Part A, 31(3), 396–401.
  • Schaltegger, S., Hansen, E. G., & Lüdeke-Freund, F. (2016). Business models for sustainability: Origins, present research, and future avenues. Organization & Environment, 29(1), 3-10.
  • Seow, Y., Rahimifard, S., & Woolley, E. (2013). Simulation of energy consumption in the manufacture of a product. International Journal of Computer Integrated Manufacturing, 26(7), 663–680.
  • Siegford, J. M., Powers, W., & Grimes-Casey, H. G. (2008). Environmental aspects of ethical animal production. Poultry Science, 87(2), 380–386.
  • Stevens, C. V. (2021). Bio-Based Packaging: Material, Environmental and Economic Aspects. John Wiley & Sons.
  • Taylor, D. (2017). A brief history of (un) sustainable design. In Routledge Handbook of Sustainable Product Design (pp. 11–24). Routledge.
  • Tischner, U., & Charter, M. (2017). Sustainable product design. In Sustainable Solutions (pp. 118-138). Routledge.
  • Tukker, A., & Jansen, B. (2006). Environmental impacts of products: A detailed review of studies. Journal of Industrial Ecology, 10(3), 159-182.
  • Trevisan, L., Lelah, A., Zwolinski, P., & Brissaud, D. (2013). Design buckles to facilitate eco-design of product-service systems. In Product-Service Integration for Sustainable Solutions: Proceedings of the 5th CIRP International Conference on Industrial Product-Service Systems, Bochum, Germany, March 14th-15th, 2013 (pp. 203-214). Springer Berlin Heidelberg.
  • Tseng, M. L., Tan, R. R., & Siriban-Manalang, A. B. (2013). Sustainable consumption and production for Asia: sustainability through green design and practice. Journal of Cleaner Production, 40, 1-5.
  • Waage, S. A. (2007). Reconsidering product design: a practical "road-map" for integrating sustainability issues. Journal of Cleaner Production, 15(7), 638–649.
  • Wang, H. M., Yuan, T. Q., Song, G. Y., & Sun, R. C. (2021). Advanced and versatile lignin-derived biodegradable composite film materials toward a sustainable world. Green Chemistry, 23(11), 3790-3817.
  • Wang, Y. Y., & Yin, H. (2014). Analysis of the significance of bamboo products based on sustainable development. In Advanced Materials Research (Vol. 1010, pp. 1944-1948). Trans Tech Publications Ltd.
  • Watz, M., & Hallstedt, S. I. (2022). Towards sustainable product development–Insights from testing and evaluating a profile model for management of sustainability integration into design requirements. Journal of Cleaner Production, 346, 131000.
  • Vezzoli, C., Ceschin, F., Diehl, J. C., & Kohtala, C. (2015). New design challenges to widely implement 'Sustainable Product–Service Systems.' Journal of Cleaner Production, 97, 1-12.
  • Yang, W. G., Lu, H., Huang, W. M., Qi, H. J., Wu, X. L., & Sun, K. Y. (2014). Advanced shape memory technology to reshape product design, manufacturing, and recycling. Polymers, 6(8), 2287-2308.

Designing for Sustainability: The Role of Industrial Design and Designers in Creating a Culture of Sustainability

Yıl 2024, , 31 - 43, 29.02.2024
https://doi.org/10.51664/artium.1298816

Öz

Organizations need to adopt a proactive stance toward sustainability due to the growing knowledge that human activity negatively impacts the environment. Developing a sustainable culture within organizations is a crucial step in this approach. A culture of sustainability includes beliefs and actions, and we should adopt practices that promote the concept of sustainability encompasses the economy, society, and environment. Since they develop and produce systems and products that substantially impact the environment, industrial design, and designers have an essential role in this process.
This research aims to examine the subject of developing a sustainable culture from the perspective of an industrial design researcher. This research investigates how organizations develop a sustainability culture and how industrial design contributes to this process. The research is constructed on a current literature review that has provided the study's theoretical foundation to accomplish this goal. The literature review explored the present state of sustainability in industrial design, the several components that comprise a culture of sustainability, and the particular part that industrial design and designers have played in promoting this culture.
In order to lessen their environmental effect and increase their long-term sustainability, businesses and communities should cultivate a culture of sustainability. Due to their particular position in this process, industrial designers should consider their environmental impact and create sustainable, inclusive products, systems, and processes. The review examines the strategies and practices businesses may employ to develop a sustainable culture and the part industrial design has in it.

Kaynakça

  • Ahmad, S., Wong, K. Y., Tseng, M. L., & Wong, W. P. (2018). Sustainable product design and development: A review of tools, applications, and research prospects. Resources, Conservation and Recycling, 132, 49-61.
  • Armstrong, C. M., & LeHew, M. L. (2011). Sustainable apparel product development: In search of a new dominant social paradigm using sustainable approaches. Fashion Practice, 3(1), 29–62.
  • Ayeyemi, L. (2013). Industrial Development in Developing Nations: A case study of Nigerian Small and medium business enterprises.
  • Bakker, C. A., Wever, R., Teoh, C., & De Clercq, S. (2010). Designing cradle-to-cradle products: a reality check. International Journal of Sustainable Engineering, 3(1), 2-8.
  • Bhatnagar, R., Keskin, D., Kirkels, A., Romme, A. G. L., & Huijben, J. C. C. M. (2022). Design principles for sustainability assessments in the business model innovation process. Journal of Cleaner Production, 377, 134313.
  • Blizzard, J. L., & Klotz, L. E. (2012). A framework for sustainable whole systems design. Design Studies, 33(5), 456-479.
  • Bocken, N. M., De Pauw, I., Bakker, C., & Van Der Grinten, B. (2016). Product design and business model strategies for a circular economy. Journal of Industrial and production engineering, 33(5), 308-320.
  • Bracquene, E., Peeters, J. R., Burez, J., De Schepper, K., Duflou, J. R., & Dewulf, W. (2019). Repairability evaluation for energy-related products. Procedia CIRP, 80, 536-541.
  • Bulei, C., Todor, M. P., Heput, T., & Kiss, I. (2018). Directions for material recovery of used tires and their use in the production of new products intended for the industry of civil construction and pavements. In IOP Conference Series: Materials Science and Engineering (Vol. 294, No. 1, p. 012064). IOP Publishing.
  • Byggeth, S., Broman, G., & Robèrt, K. H. (2007). A method for sustainable product development based on a modular system of guiding questions. Journal of cleaner production, 15(1), 1-11.
  • Camilleri, M. A. (2019). The circular economy's closed loop and product service systems for sustainable development: A review and appraisal. Sustainable Development, 27(3), 530-536.
  • Ceschin, F., & Gaziulusoy, I. (2016). Evolution of design for sustainability: From product design to design for system innovations and transitions. Design studies, 47, 118-163.
  • Chandrasegaran, S. K., Ramani, K., Sriram, R. D., Horváth, I., Bernard, A., Harik, R. F., & Gao, W. (2013). The evolution, challenges, and future of knowledge representation in product design systems. Computer-aided design, 45(2), 204-228.
  • Cherian, J., & Jacob, J. (2012). Green marketing: A study of consumers' attitude towards environment-friendly products.
  • Cherrier, H. (2007). Ethical consumption practices: co‐production of self‐expression and social recognition. Journal of Consumer Behaviour: An International Research Review, 6(5), 321–335.
  • Clark, G., Kosoris, J., Hong, L. N., & Crul, M. (2009). Design for sustainability: current trends in sustainable product design and development. Sustainability, 1(3), 409-424.
  • Cordella, M., Alfieri, F., Clemm, C., & Berwald, A. (2021). The durability of smartphones: A technical analysis of reliability and repairability aspects. Journal of Cleaner Production, 286, 125388.
  • Dangelico, R. M., & Pujari, D. (2010). Mainstreaming green product innovation: Why and how companies integrate environmental sustainability. Journal of business ethics, 95, 471-486.
  • De Pauw, I., Karana, E., & Kandachar, P. (2013). Cradle to cradle in product development: A case study of closed-loop design. In Re-engineering Manufacturing for Sustainability: Proceedings of the 20th CIRP International Conference on Life Cycle Engineering, Singapore 17-19 April 2013 (pp. 47-52). Springer Singapore.
  • Design Council, [Accessed 10 March 2023] https://www.designcouncil.org.uk/who-we-are/about-us/sustainability/
  • Elkington, J. (1997). The triple bottom line. Environmental management: Readings and cases, pp. 2, 49–66.
  • Elkington, J. (2013). Enter the triple bottom line. In The triple bottom line: Does it all add up? (pp. 1–16). Routledge.
  • Eriksen, M. K., Christiansen, J. D., Daugaard, A. E., & Astrup, T. F. (2019). Closing the loop for PET, PE and PP waste from households: Influence of material properties and product design for plastic recycling. Waste management, 96, 75-85.
  • Ferranti, P. (2019). The united nations sustainable development goals. Encyclopedia of Food Security and Sustainability, pp. 6–8.
  • He, L., Wang, M., Chen, W., & Conzelmann, G. (2014). Incorporating social impact on new product adoption in choice modeling: A case study in green vehicles. Transportation Research Part D: Transport and Environment, 32, 421-434.
  • Ilieva, L., Ursano, I., Traista, L., Hoffmann, B., & Dahy, H. (2022). Biomimicry as a sustainable design methodology—Introducing the 'Biomimicry for Sustainability framework. Biomimetics, 7(2), 37. Johnson, E. W., & Greenberg, P. (2017). The US environmental movement of the 1960s and 1970s: Building frameworks of sustainability. In Routledge Handbook of the History of Sustainability (pp. 137–150). Routledge.
  • Keitsch, M. (2012). Sustainable design: A brief appraisal of its central concepts. Sustainable Development, 20(3), 180–188.
  • Kopnina, H. (2018). Circular Economy and Cradle to Cradle in educational practice. Journal of integrative environmental sciences, 15(1), 119–134.
  • Lofthouse, V., & Prendeville, S. (2018). Human-centered design of products and services for the circular economy–a review. The Design Journal, 21(4), 451-476.
  • Mazar, N., & Zhong, C. B. (2010). Do green products make us better people? Psychological science, 21(4), 494–498.
  • McDonough, W., & Braungart, M. (2002). Design for the triple top line: new tools for sustainable commerce. Corporate Environmental Strategy, 9(3), 251–258.
  • Melles, G., de Vere, I., & Misic, V. (2011). Socially responsible design: thinking beyond the triple bottom line to socially responsive and sustainable product design. CoDesign, 7(3-4), pp. 143–154.
  • Meuer, J., Koelbel, J., & Hoffmann, V. H. (2020). On the nature of corporate sustainability. Organization & Environment, 33(3), 319-341.
  • Meyer, M. W., & Norman, D. (2020). Changing design education for the 21st century. She Ji: The Journal of Design, Economics, and Innovation, 6(1), 13–49.
  • Newell, A. F., & Gregor, P. (2000, November). "User sensitive, inclusive design"—in search of a new paradigm. In Proceedings on the 2000 conference on Universal Usability (pp. 39–44).
  • Norgate, T., & Haque, N. (2010). Energy and greenhouse gas impacts of mining and mineral processing operations. Journal of cleaner production, 18(3), 266-274.
  • Li, J., Li, Y., Song, H., & Fan, C. (2021). Sustainable value creation from a capability perspective: How to achieve sustainable product design. Journal of Cleaner Production, 312, 127552.
  • Ramirez, M. (2006). Sustainability in the education of industrial designers: the case for Australia. International Journal of Sustainability in Higher Education, 7(2), 189–202.
  • Romli, A., Prickett, P., Setchi, R., & Soe, S. (2015). Integrated eco-design decision-making for sustainable product development. International Journal of Production Research, 53(2), 549-571.
  • Russell, D. A. (2014). Sustainable (food) packaging–an overview. Food additives & contaminants: Part A, 31(3), 396–401.
  • Schaltegger, S., Hansen, E. G., & Lüdeke-Freund, F. (2016). Business models for sustainability: Origins, present research, and future avenues. Organization & Environment, 29(1), 3-10.
  • Seow, Y., Rahimifard, S., & Woolley, E. (2013). Simulation of energy consumption in the manufacture of a product. International Journal of Computer Integrated Manufacturing, 26(7), 663–680.
  • Siegford, J. M., Powers, W., & Grimes-Casey, H. G. (2008). Environmental aspects of ethical animal production. Poultry Science, 87(2), 380–386.
  • Stevens, C. V. (2021). Bio-Based Packaging: Material, Environmental and Economic Aspects. John Wiley & Sons.
  • Taylor, D. (2017). A brief history of (un) sustainable design. In Routledge Handbook of Sustainable Product Design (pp. 11–24). Routledge.
  • Tischner, U., & Charter, M. (2017). Sustainable product design. In Sustainable Solutions (pp. 118-138). Routledge.
  • Tukker, A., & Jansen, B. (2006). Environmental impacts of products: A detailed review of studies. Journal of Industrial Ecology, 10(3), 159-182.
  • Trevisan, L., Lelah, A., Zwolinski, P., & Brissaud, D. (2013). Design buckles to facilitate eco-design of product-service systems. In Product-Service Integration for Sustainable Solutions: Proceedings of the 5th CIRP International Conference on Industrial Product-Service Systems, Bochum, Germany, March 14th-15th, 2013 (pp. 203-214). Springer Berlin Heidelberg.
  • Tseng, M. L., Tan, R. R., & Siriban-Manalang, A. B. (2013). Sustainable consumption and production for Asia: sustainability through green design and practice. Journal of Cleaner Production, 40, 1-5.
  • Waage, S. A. (2007). Reconsidering product design: a practical "road-map" for integrating sustainability issues. Journal of Cleaner Production, 15(7), 638–649.
  • Wang, H. M., Yuan, T. Q., Song, G. Y., & Sun, R. C. (2021). Advanced and versatile lignin-derived biodegradable composite film materials toward a sustainable world. Green Chemistry, 23(11), 3790-3817.
  • Wang, Y. Y., & Yin, H. (2014). Analysis of the significance of bamboo products based on sustainable development. In Advanced Materials Research (Vol. 1010, pp. 1944-1948). Trans Tech Publications Ltd.
  • Watz, M., & Hallstedt, S. I. (2022). Towards sustainable product development–Insights from testing and evaluating a profile model for management of sustainability integration into design requirements. Journal of Cleaner Production, 346, 131000.
  • Vezzoli, C., Ceschin, F., Diehl, J. C., & Kohtala, C. (2015). New design challenges to widely implement 'Sustainable Product–Service Systems.' Journal of Cleaner Production, 97, 1-12.
  • Yang, W. G., Lu, H., Huang, W. M., Qi, H. J., Wu, X. L., & Sun, K. Y. (2014). Advanced shape memory technology to reshape product design, manufacturing, and recycling. Polymers, 6(8), 2287-2308.
Toplam 55 adet kaynakça vardır.

Ayrıntılar

Birincil Dil İngilizce
Konular Mimarlık
Bölüm Makaleler
Yazarlar

Hatice Merve Demirci 0000-0002-0315-5898

Yayımlanma Tarihi 29 Şubat 2024
Kabul Tarihi 27 Kasım 2023
Yayımlandığı Sayı Yıl 2024

Kaynak Göster

APA Demirci, H. M. (2024). Designing for Sustainability: The Role of Industrial Design and Designers in Creating a Culture of Sustainability. Artium, 12(1), 31-43. https://doi.org/10.51664/artium.1298816

Artium is an OAJ supported by Hasan Kalyoncu University

Open access articles in Artium are licensed under a Creative Commons Attribution-NonCommercial-NoDeriatives 4.0 International License (CC BY-NC-ND 4.0). 

28842https://creativecommons.org/licenses/by-nc-nd/4.0/