Design-driven innovation of bio-based circular materials. Design strategies and skills

Marinella Ferrara; Alessandro Squatrito

doi:10.19229/2464-9309/11262022

Autori

Marinella Ferrara Politecnico di Milano (Italia)
Alessandro Squatrito Politecnico di Milano (Italia)

DOI:

https://doi.org/10.19229/2464-9309/11262022

Parole chiave:

economia circolare, materiali circolari a base biologica, design sostenibile, design circolare, industrie creative

Abstract

Negli ultimi anni il design ha rivolto l’attenzione all’Economia Circolare (EC) in cui le questioni relative ai materiali sono fondamentali. Sempre più aziende e designer rivolgono la propria ricerca verso i ‘materiali circolari’ provenienti dal riciclo di ‘materiali tecnici’ o creati da una base organica di scarti di lavorazione/produzione o consumo e reintegrabili nel ciclo biologico. L’articolo, focalizzato sui ‘materiali circolari a base biologica’, presenta la prima fase di una ricerca in corso di sviluppo, con l’obiettivo di mappare e sistematizzare le strategie utilizzate per l’ideazione, lo sviluppo, la progettazione, la produzione e la distribuzione dei nuovi materiali e dei relativi prodotti.

Downloads

I dati di download non sono ancora disponibili.

##plugins.generic.articleMetricsGraph.articlePageHeading##

Chart Graph | Range Graph

Biografie autore

Marinella Ferrara, Politecnico di Milano (Italia)

PhD, è Professore Associato di Disegno Industriale e Responsabile del MADEC, il Centro di Ricerca sulla Cultura del Design dei Materiali. La sua ricerca mira a chiarire il rapporto tra design e materiali e a contribuire alle teorie del design e alle metodologie di insegnamento. È caporedattrice della rivista scientifica online PAD.
E-mail: marinella.ferrara@polimi.it

Alessandro Squatrito, Politecnico di Milano (Italia)

Designer, è Dottorando presso il Dipartimento di Design. Oltre all’attività progettuale, svolge attività di ricerca, nel campo del design dei materiali e dell’economia circolare e affianca attività di insegnamento.
E-mail: alessandro.squatrito@polimi.it

Riferimenti bibliografici

Asbjørn Sörensen, C. and Thyni, E. (2020), “A qualitative study of the challenges faced by material designers when developing DIY-materials”, in Lyndon, B. Bohemia, E. and Grierson, H. (eds), The Value of Design & Engineering Education in a Knowledge Age – Proceedings of the 22nd International Conference on Engineering and Product Design Education, VIA Design, VIA University in Herning, Denmark, 10th-11th September 2020, pp. 1-6. [Online] Available at: doi.org/10.35199/EPDE.2020.76 [Accessed 15 April 2022].

Ayala-Garcia, C. and Rognoli, V. (2017), “The new aesthetic of DIY-materials”, in The Design Journal, vol. 20, issue sup. 1, pp. S375-S389. [Online] Available at: doi.org/10.1080/14606925.2017.1352905 [Accessed 15 April 2022].

Ayres, R. U. (1998), “Industrial metabolism – Work in progress”, in Bergh J. C. J. M. and Hofkes M. W. (eds), Theory and Implementation of Economic Models for Sustainable Development, Springer, Netherlands, pp. 195-228. [Online] Available at: doi.org/10.1007/978-94-017-3511-7_10 [Accessed 15 April 2022].

Bakker, C. A., den Hollander, M., van Hinte, E. and Zijlstra, Y. (2014), Products that last – Product design for circular business models, TU Delft Library, Delft. [Online] Available at: research.tudelft.nl/en/publications/products-that-last-product-design-for-circular-business-models [Accessed 15 April 2022].

Bocken, N. M. P., de Pauw, I., Bakker, C. and van der Grinten, B. (2016), “Product design and business model strategies for a circular economy”, in Journal of Industrial and Production Engineering, vol. 33, issue 5, pp. 308-320. [Online] Available at: doi.org/10.1080/21681015.2016.1172124 [Accessed 15 April 2022].

Camere, S. and Karana, E. (2018), “Fabricating materials from living organisms – An emerging design practice”, in Journal of Cleaner Production, vol. 186, pp. 570-584. [Online] Available at: doi.org/10.1016/j.jclepro.2018.03.081 [Accessed 15 April 2022].

Ceschin, F. and Gaziulusoy, I. (2016), “Evolution of design for sustainability – From product design to design for system innovations and transitions”, in Design Studies, vol. 47, pp. 118-163. [Online] Available at: doi.org/10.1016/j.destud.2016.09.002 [Accessed 15 April 2022].

Chapman, J. (2009), “Design for (Emotional) Durability”, in Design Issues, vol. 25, issue 4, pp. 29-35. [Online] Available at: doi.org/10.1162/desi.2009.25.4.29 [Accessed 15 April 2022].

Crabbé, A., Jacobs, R., Van Hoof, V., Bergmans, A. and Van Acker, K. (2013), “Transition towards sustainable material innovation – Evidence and evaluation of the Flemish case”, in Journal of Cleaner Production, vol. 56, pp. 63-72. [Online] Available at: doi.org/10.1016/j.jclepro.2012.01.023 [Accessed 15 April 2022].

De los Rios, I. C. and Charnley, F. J. S. (2017), “Skills and capabilities for a sustainable and circular economy – The changing role of design”, in Journal of Cleaner Production, vol. 160, pp. 109-122. [Online] Available at: doi.org/10.1016/j.jclepro.2016.10.130 [Accessed 15 April 2022].

Dumée, L. F. (2022), “Circular Materials and Circular Design – Review on Challenges Towards Sustainable Manufacturing and Recycling”, in Circular Economy and Sustainability, vol. 2, pp. 9-23. [Online] Available at: doi.org/10.1007/s43615-021-00085-2 [Accessed 15 April 2022].

Eisenhardt, K. M. (1989), “Building Theories from Case Study Research”, in The Academy of Management Review, vol. 14, n. 4, pp. 532-550. [Online] Available at: doi.org/10.2307/258557 [Accessed 15 April 2022].

ENEL and Symbola (2021), 100 Italian Circular Economy Stories 2021. [Online] Available at: bit.ly/3Iq5b5y [Accessed 15 April 2022].

European Commission (2020), Communication from the Commission to the European Parliament, the Council, the European Economic and Social Committee and the Committee of the Regions – A new EU Circular Economy Action Plan for a cleaner and more competitive Europe, document 52020DC0098, 98 final. [Online] Available at: eur-lex.europa.eu/legal-content/EN/TXT/?qid=1583933814386&uri=COM:2020:98:FIN [Accessed 15 April 2022].

Ferrara, M. (2021), “Circular Material for Creative Industries – The Emerging Bioplastics”, in Clèries, L., Rognoli, V., Solanki, S. and Llorach, P. (eds), Material Designers – Boosting talent towards circular economies, pp. 52-59. [Online] Available at: materialdesigners.org/wp-content/uploads/2021/03/MaDe-Book-1.pdf [Accessed 15 April 2022].

Ferrara, M. (2017), “Shifting to Design-Driven Material Innovation”, in Ferrara, M. and Ceppi, G. (eds), Ideas and the Matter – What will we made of and will the world be made of?, ListLab, Trento, pp. 173-185. [Online] Available at: researchgate.net/publication/328874643_SHIFTING_TO_DESIGN-DRIVEN_MATERIAL_INNOVATION [Accessed 15 April 2022].

Kottaridou, A. and Bofylatos, S. (2019), “Design out waste methodology for circular economy”, in Markoupoulou, A. (ed.), Responsive Cities – Disrupting through circular desing – Symposium Proceedings 2019, Institut d’Arquitectura Avançada de Catalunya, Barcelona, pp. 204-217. [Online] Available at: iaac.net/wp-content/uploads/pdf/RCS_19_Proceedings.pdf [Accessed 15 April 2022]. [Accessed 15 April 2022].

Kumar, M. and Noble, C. H. (2016), “Beyond form and function – Why do consumers value product design?”, in Journal of Business Research, vol. 69, issue 2, pp. 613-620. [Online] Available at: doi.org/10.1016/j.jbusres.2015.05.017 [Accessed 15 April 2022].

Liedtke, C., Baedeker, C. and Borrelli, L. M. (2015), “Transformation Towards a Sustainable Society – Key Intervention Areas”, in Innovative Energy Policies, vol. 4, issue 2, article 1000117, pp. 1-10. [Online] Available at: doi.org/10.4172/ier.1000117 [Accessed 15 April 2022].

Mesa, J., Esparragoza, I. and Maury, H. (2018), “Developing a set of sustainability indicators for product families based on the circular economy model”, in Journal of Cleaner Production, vol. 196, pp. 1429-1442. [Online] Available at: doi.org/10.1016/j.jclepro.2018.06.131 [Accessed 15 April 2022].

Milios, L. (2018), “Advancing to a Circular Economy – Three essential ingredients for a comprehensive policy mix”, in Sustainability Science, vol. 13, issue 3, pp. 861-878. [Online] Available at: doi.org/10.1007/s11625-017-0502-9 [Accessed 15 April 2022].

Montalti, M. (2017), “The growing lab – Fungal futures”, in Ferrara, M. and Ceppi, G. (eds), Ideas and the Matter – What will we be made of and what will the world be made of?, ListLab, Trento, pp. 71-90.

Moreno, M., De los Rios, C., Rowe, Z. and Charnley, F. (2016), “A Conceptual Framework for Circular Design”, in Sustainability, vol. 8, issue 9, article 937, pp. 1-15. [Online] Available at: doi.org/10.3390/su8090937 [Accessed 15 April 2022].

Morreale, M., Scaffaro, R., Maio, A. and La Mantia, F. P. (2008), “Mechanical behaviour of Mater-Bi®/wood flour composites – A statistical approach”, in Composites Part A – Applied Science and Manufacturing, vol. 39, issue 9, pp. 1537-1546. [Online] Available at: doi.org/10.1016/j.compositesa.2008.05.015 [Accessed 15 April 2022].

Murray, A., Skene, K. and Haynes, K. (2017), “The Circular Economy – An Interdisciplinary Exploration of the Concept and Application in a Global Context”, in Journal of Business Ethics, vol. 140, pp. 369-380. [Online] Available at: doi.org/10.1007/s10551-015-2693-2 [Accessed 15 April 2022].

Nigten, A. and Beekman, N. (2015), A sense of green. [Online] Available at: researchgate.net/publication/277917455_A_Sense_of_Green [Accessed 15 April 2022].

Rognoli, V., Bianchini, M., Maffei, S. and Karana, E. (2015), “DIY materials”, in Materials & Design, vol. 86, pp. 692-702. [Online] Available at: doi.org/10.1016/j.matdes.2015.07.020 [Accessed 15 April 2022].

Singh, J. and Ordoñez, I. (2016), “Resource recovery from post-consumer waste – Important lessons for the upcoming circular economy”, in Journal of Cleaner Production, vol. 134, part. A, pp. 342-353. [Online] Available at: doi.org/10.1016/j.jclepro.2015.12.020 [Accessed 15 April 2022].

Smith, A. M., Moxon, S., and Morris, G. A. (2016), “Biopolymers as wound healing materials”, in Wound Healing Biomaterials, vol. 2, pp. 261-287. [Online] Available at: doi.org/10.1016/B978-1-78242-456-7.00013-1 [Accessed 15 April 2022].

Throsby, D. (2008), “From cultural to creative industries – The specific characteristics of the creative industries”, in Troisème Journèes d’Economie de La Culture – Nouvelles Frontieres de l’Economie de La Culture – Conference Held at Musèe Du Quai Branly, Paris, 2-3 October 2008, pp. 1-11. [Online] Available at: jec.culture.fr/Throsby.doc [Accessed 15 April 2022].

Wilson, C. (2014), Interview Techniques for UX Practitioners, Elsevier. [Online] Available at: doi.org/10.1016/C2012-0-06209-6 [Accessed 15 April 2022].

World Economic Forum, Ellen MacArthur Foundation and McKinsey & Company (2016), The new plastics economy – Rethinking the future of plastics. [Online] Available at: emf.thirdlight.com/link/faarmdpz93ds-5vmvdf/@/preview/1?o [Accessed 15 April 2022].

	Tutte	Dal 2019
Citazioni	8146	5629
Indice H	34	29
i10-index	205	123

L' innovazione design-driven dei materiali circolari a base biologica. Strategie e competenze per la progettazione

Autori

DOI:

Parole chiave:

Abstract

Downloads

##plugins.generic.articleMetricsGraph.articlePageHeading##

Biografie autore

Marinella Ferrara, Politecnico di Milano (Italia)

Alessandro Squatrito, Politecnico di Milano (Italia)

Riferimenti bibliografici

##submission.downloads##

Pubblicato

Come citare

Fascicolo

Sezione

Licenza

Related Article based on the article keywords

Riuso di componenti edilizi – Sistema di valutazione a supporto delle decisioni negli interventi di ridistribuzione interna

Servizi per il riuso e il riparo – L’allestimento tra touchpoints e infrastrutture relazionali

Micro-reti locali per la transizione verde della filiera della lana

Il design modulare verso l’economia circolare – Dal ‘fare per disfare’ al ‘fare per rifare’

Digitale e circolarità in edilizia. Le KETs per la gestione degli scarti nell'Unione Europea

Transizione ecologica e digitale. Il Design Sistemico nei processi di innovazione aperta delle PMI

Gestione delle foreste urbane. Percorsi tecnologici design-driven per la valorizzazione dei rifiuti da potatura

Resilienza e circolarità nel progetto edilizio sostenibile. Strumenti di valutazione integrata preliminare

Verso un progetto circolare, tra architettura e allestimento. Piattaforme digitali per il riuso

La prototipizzazione pedagogica di edifici ecologici avanzati e biocittà presso il Valldaura Labs

open_access_logo

Lingua

information

##plugins.block.browse##

Flag counter since 2023/01/11

##plugins.generic.googleScholarCitation.blockTitle##

Citata da

##plugins.generic.mostCited.blockTitle##

indexing

Ultimo numero

L' innovazione design-driven dei materiali circolari a base biologica. Strategie e competenze per la progettazione

Autori

DOI:

Parole chiave:

Abstract

Downloads

##plugins.generic.articleMetricsGraph.articlePageHeading##

Biografie autore

Marinella Ferrara, Politecnico di Milano (Italia)

Alessandro Squatrito, Politecnico di Milano (Italia)

Riferimenti bibliografici

##submission.downloads##

Pubblicato

Come citare

Fascicolo

Sezione

Licenza

Related Article based on the article keywords

open_access_logo

Lingua

information

##plugins.block.browse##

Flag counter since 2023/01/11

##plugins.generic.googleScholarCitation.blockTitle##

Citata daVisualizza tutto

##plugins.generic.mostCited.blockTitle##

indexing

Ultimo numero

Citata da