Ensambles digitales de madera: embrión para un diseño de mobiliario sostenible
Palabras clave:
Mobiliario CNC, sostenible
Resumen
En los últimos años la fabricación digital se está convirtiendo en una herramienta de trabajo primordial para diseñadores.
Citas
Armas-Crespo, V. (2023a). Revisión y estudio crítico sobre diseño de ensambles de mobiliario de madera para fresadora CNC de 3 ejes. Estado del artes y propuestas. Universidad Rey Juan Carlos.
Armas-Crespo, V. (2023b). Revisión sistemática de talleres para docencia sobre investigaciones que realizan ensambles digitales en madera con fresadora CNC de tres ejes para mobiliario. Marco base de ayuda para crear talleres para diseño de productos sostenibles. In Dykinson (Ed.), Impulsando las industrias creativas desde la innovación y la investigación: diseño y su proyección social (pp. 196–207). https://www.dykinson.com/libros/impulsando-las-industrias-creativas-desde-la-innovacion-y-la-investigacion-diseno-ysu-proyeccion-social/9788411701761/
Boothroyd, G. (1994). Product design for manufacture and assembly. 26(July), 505–520.
Braungart, M., & McDonough, W. (2002). Cradle to Cradle: Remaking the Way We Make Things. Rodale Press.
Chandel, R. S., Kumar, R., & Kapoor, J. (2022). Proceedings Sustainability aspects of machining operations : A summary of concepts. Materials Today: Proceedings, 50, 716–727. https://doi.org/10.1016/j.matpr.2021.04.624
Demeter, K., & Matyusz, Z. (2011). The impact of lean practices on inventory turnover. International Journal of Production Economics, 133(1), 154–163.
Filson, A., Rohrbacher, G., & Kaziunas France, A. (2017). Design for CNC: Furniture Projects and Fabrication Technique (P. Di Justo (ed.)). Maker Media.
Fleming, E. D. (2010). Ritsy: Flat-Pack Furniture for the Urban Nomad. Interior Design Program: Theses, 1.
Geng, A., Ning, Z., Zhang, H., & Yang, H. (2019). Quantifying the climate change mitigation potential of China’s furniture sector: Wood substitution benefits on emission reduction. Ecological Indicators, 103(159), 363–372. https://doi.org/10.1016/j.ecolind.2019.04.036
Haviarova, E., Uysal, M., Tasdemir, C., & Gazo, R. (2015). Determining Tension and Compression Strength and Basic Manufacturing Feasibility of CNC Router-cut Joints. 5th International Scientific Conference on Hardwood Processing, 53(9), 1689–1699. https://doi.org/10.1017/CBO9781107415324.004
Hoadley, R. B. (2000). Understanding wood: a craftsman’s guide to wood technology. Taunton press.
Iraldo, F., Griesshammer, R., & Kahlenborn, W. (2020). The future of ecolabels. In The International Journal of Life Cycle Assessment (Vol. 25, Issue 5, pp. 833–839). Springer.
Iritani, D. R., Silva, D. A. L., Saavedra, Y. M. B., Grael, P. F. F., & Ometto, A. R. (2015). Sustainable strategies analysis through Life Cycle Assessment: a case study in a furniture industry. Journal of Cleaner Production, 96, 308–318.
Kumar, S., Vichare, P., Nassehi, A., Dhokia, V. G., & Newman, S. T. (2009). Design and implementation of machine tool static error feedback model. 2009 IEEE International Conference on Industrial Engineering and Engineering Management, 660–664.
Linkosalmi, L., Husgafvel, R., Fomkin, A., Junnikkala, H., Witikkala, T., Kairi, M., & Dahl, O. (2016). Main factors influencing greenhouse gas emissions of wood-based furniture industry in Finland. Journal of Cleaner Production, 113, 596–605. https://doi.org/10.1016/j.jclepro.2015.11.091
Lotti, G., Villani, V., Battilani, N., & Fantuzzi, C. (2019). machines interaction for CNC machines interaction for CNC machines. ScienceDirect; IFAC PapersOnLine, 52(19), 31–36. https://doi.org/10.1016/j.ifacol.2019.12.080
Meeker, D. G., & Rousmaniere, A. (1996). DFMA and its role in the integrated product development process. Massachusetts Institute of Technology. http://web.mit.edu/meeker/Public/DFMAandIPDP.pdf
Papanek, V. J. (1972). Design for the Real World: Human Ecology and Social Change (1o ). Pantheon Books.
Postell, C. (2012). Furniture Design (2o ). John Wiley & Sons Inc.
Ross, R. J. (2010). Wood Handbook: Wood as an Engineering Material (Centennial Edition). Forest products Laboratory. United States Department of Agriculture.
Tannert, T., Schmidt, D., Arquitectura, E. De, Mayor, U., & Lam, F. (2008). CNC Timber Processing in Research and Teaching. The 51st International Convention Pf Society of Wood Science and Technology, May, paper WS-52 (1-9).
Uysal, M. (2014). Furniture Design and Product Development Principles Considering Endof-life Options and Design for Environment Strategies. Purdue E-Pubs, 1–120.
Wick, R. (1982). Pedagogía de la Bauhaus. Alianza Forma.
Armas-Crespo, V. (2023b). Revisión sistemática de talleres para docencia sobre investigaciones que realizan ensambles digitales en madera con fresadora CNC de tres ejes para mobiliario. Marco base de ayuda para crear talleres para diseño de productos sostenibles. In Dykinson (Ed.), Impulsando las industrias creativas desde la innovación y la investigación: diseño y su proyección social (pp. 196–207). https://www.dykinson.com/libros/impulsando-las-industrias-creativas-desde-la-innovacion-y-la-investigacion-diseno-ysu-proyeccion-social/9788411701761/
Boothroyd, G. (1994). Product design for manufacture and assembly. 26(July), 505–520.
Braungart, M., & McDonough, W. (2002). Cradle to Cradle: Remaking the Way We Make Things. Rodale Press.
Chandel, R. S., Kumar, R., & Kapoor, J. (2022). Proceedings Sustainability aspects of machining operations : A summary of concepts. Materials Today: Proceedings, 50, 716–727. https://doi.org/10.1016/j.matpr.2021.04.624
Demeter, K., & Matyusz, Z. (2011). The impact of lean practices on inventory turnover. International Journal of Production Economics, 133(1), 154–163.
Filson, A., Rohrbacher, G., & Kaziunas France, A. (2017). Design for CNC: Furniture Projects and Fabrication Technique (P. Di Justo (ed.)). Maker Media.
Fleming, E. D. (2010). Ritsy: Flat-Pack Furniture for the Urban Nomad. Interior Design Program: Theses, 1.
Geng, A., Ning, Z., Zhang, H., & Yang, H. (2019). Quantifying the climate change mitigation potential of China’s furniture sector: Wood substitution benefits on emission reduction. Ecological Indicators, 103(159), 363–372. https://doi.org/10.1016/j.ecolind.2019.04.036
Haviarova, E., Uysal, M., Tasdemir, C., & Gazo, R. (2015). Determining Tension and Compression Strength and Basic Manufacturing Feasibility of CNC Router-cut Joints. 5th International Scientific Conference on Hardwood Processing, 53(9), 1689–1699. https://doi.org/10.1017/CBO9781107415324.004
Hoadley, R. B. (2000). Understanding wood: a craftsman’s guide to wood technology. Taunton press.
Iraldo, F., Griesshammer, R., & Kahlenborn, W. (2020). The future of ecolabels. In The International Journal of Life Cycle Assessment (Vol. 25, Issue 5, pp. 833–839). Springer.
Iritani, D. R., Silva, D. A. L., Saavedra, Y. M. B., Grael, P. F. F., & Ometto, A. R. (2015). Sustainable strategies analysis through Life Cycle Assessment: a case study in a furniture industry. Journal of Cleaner Production, 96, 308–318.
Kumar, S., Vichare, P., Nassehi, A., Dhokia, V. G., & Newman, S. T. (2009). Design and implementation of machine tool static error feedback model. 2009 IEEE International Conference on Industrial Engineering and Engineering Management, 660–664.
Linkosalmi, L., Husgafvel, R., Fomkin, A., Junnikkala, H., Witikkala, T., Kairi, M., & Dahl, O. (2016). Main factors influencing greenhouse gas emissions of wood-based furniture industry in Finland. Journal of Cleaner Production, 113, 596–605. https://doi.org/10.1016/j.jclepro.2015.11.091
Lotti, G., Villani, V., Battilani, N., & Fantuzzi, C. (2019). machines interaction for CNC machines interaction for CNC machines. ScienceDirect; IFAC PapersOnLine, 52(19), 31–36. https://doi.org/10.1016/j.ifacol.2019.12.080
Meeker, D. G., & Rousmaniere, A. (1996). DFMA and its role in the integrated product development process. Massachusetts Institute of Technology. http://web.mit.edu/meeker/Public/DFMAandIPDP.pdf
Papanek, V. J. (1972). Design for the Real World: Human Ecology and Social Change (1o ). Pantheon Books.
Postell, C. (2012). Furniture Design (2o ). John Wiley & Sons Inc.
Ross, R. J. (2010). Wood Handbook: Wood as an Engineering Material (Centennial Edition). Forest products Laboratory. United States Department of Agriculture.
Tannert, T., Schmidt, D., Arquitectura, E. De, Mayor, U., & Lam, F. (2008). CNC Timber Processing in Research and Teaching. The 51st International Convention Pf Society of Wood Science and Technology, May, paper WS-52 (1-9).
Uysal, M. (2014). Furniture Design and Product Development Principles Considering Endof-life Options and Design for Environment Strategies. Purdue E-Pubs, 1–120.
Wick, R. (1982). Pedagogía de la Bauhaus. Alianza Forma.
Publicado
2024-03-27
Cómo citar
Armas Crespo, V. (2024). Ensambles digitales de madera: embrión para un diseño de mobiliario sostenible. Cuadernos Del Centro De Estudios De Diseño Y Comunicación, (216). https://doi.org/10.18682/cdc.vi216.11036
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