Progression to the next industrial revolution: Industry 4.0 for composites
2019; Elsevier BV; Volume: 63; Issue: 3 Linguagem: Inglês
10.1016/j.repl.2019.04.001
ISSN1873-1694
Autores Tópico(s)Manufacturing Process and Optimization
ResumoReinforced PlasticsVol. 63, No. 3 FeatureProgression to the next industrial revolution: Industry 4.0 for compositesJamie SnuddenJamie SnuddenJamie SnuddenPublished Online:7 Nov 2021https://doi.org/10.1016/j.repl.2019.04.001AboutSectionsView articleView Full TextPDF/EPUB ToolsAdd to favoritesDownload CitationsTrack CitationsPermissions ShareShare onFacebookTwitterLinked InEmail View article References [1] Klitou, D., Conrads, J., Rasmussen, M., Probst, L., Pedersen, B., 2017. Germany: Industrie 4.0 January 2017. Digital Transformation Monitor [online]. Available from: https://ec.europa.eu/growth/tools-databases/dem/monitor/sites/default/files/DTM_Industrie%204.0.pdf [accessed 24/03/19]. Google Scholar[2] Hermann, M., Pentek, T., Otto, B., 2016. Design Principles for Industrie 4.0 Scenarios [online]. 49th Hawaii International Conference on System Sciences (HICSS) 5th-8th January 2016 Hawaii: Koloa. Available from: https://ieeexplore.ieee.org/document/7427673/authors#authors [accessed 24/03/19]. Google Scholar[3] Victoria and Albert Museum. Industrial Revolution [online]. London: Victoria and Albert Museum. Available from: http://www.vam.ac.uk/page/i/industrial-revolution/ [accessed 24/03/19]. Google Scholar[4] S. McGarry Moving the Millions: How Henry Ford made the automobile affordable for every American [online] Available from: https://www.autodesk.com/products/fusion-360/blog/moving-millions-henry-ford-made-automobile-affordable-every-american/ 2018 accessed 24/03/19. Google Scholar[5] Anon. Unimate, The First Industrial Robot [online]. Available from: https://www.robotics.org/joseph-engelberger/unimate.cfm [accessed 24/03/19]. Google Scholar[6] Anon Making an impact in the real world with digital twins [online] Available from: http://connectedtechnologysolutions.co.uk/making-an-impact-in-the-real-world-with-digital-twins/ 2018 accessed 24/03/19. Google Scholar[7] K. Schwab The Fourth Industrial Revolution; London: Portfolio Penguin; 2016. Google Scholar[8] Anon. Embracing Industry 4.0 and Rediscovering Growth [online]. Available from: https://www.bcg.com/en-gb/capabilities/operations/embracing-industry-4.0-rediscovering-growth.aspx [accessed 24/03/19]. Google Scholar[9] Anon, 2016. Industry 4.0 for carbon composites – Cevotex raises €1.75m seed financing [online]. Available from: https://www.cevotec.com/en/industry-4-0-for-carbon-composites-cevotec-raises-seed-financing/ [accessed 24/03/19]. Google Scholar[10] Snudden, J.P., Horn, B., Ward, C., Potter, K., Drechsler, K., 2016. Effects of Automated Patch Placement on the Mechanical Performance of Reformed NCF Carbon Fibre. 17th European Conference on Composite Materials Munich, Germany, 26th -30th June 2016. Google Scholar[11] F. Van der Klift Y. Koga A. Todoroki M. Ueda Y. Hirano R. Matsuzaki 3D printing of continuous carbon fibre reinforced thermo-plastic (CFRTP) tensile test specimens; Open J. Compos. Mater.; 6: 2016: 18–27 Google Scholar[12] J. Justo L. Távara L. García – Guzmán F. París Characterization of 3D printed long fibre reinforced composites; Compos. Struct.; 185: 2018: 537–548 Google Scholar[13] Zympeloudis, E, Potter, K, Weaver, P & Kim, BC 2017, Advanced automated tape laying with fibre steering capability using continuous tow shearing mechanism, in: 21st International Conference on Composites Materials. Google Scholar[14] Anon Interactive Drape [online]. Bristol: LMAT ltd. Available from [accessed 2016 24/03/19]. Google Scholar[15] Anon. Composites Spring – in [online]. Paris: ESI. Available from: https://www.esi-group.com/software-solutions/virtual-manufacturing/composites/composites-spring [accessed 24/03/19]. Google Scholar[16] Anon. Digital Twin [online]. Plano: Siemens. Available from: https://www.plm.automation.siemens.com/global/en/our-story/glossary/digital-twin/24465 [accessed 24/03/19]. Google Scholar[17] Anon. LayupRITE [online]. London: Ufi Charitable Trust. Available from: https://www.ufi.co.uk/projects/layuprite [accessed 24/03/19]. Google Scholar[18] Airbus, Future Factory of Airbus [video, online] Available from: https://www.youtube.com/watch?v=CIAijpyN3_4 2018 accessed 24/03/19. Google Scholar[19] G. Michalos P. Karagiannis S. Makris O. Tokcalar G. Chryssolouris Augmented Reality (AR) applications for supporting human-robot interactive cooperation; Proc. CIRP; 41: 2016: 370–375 Google Scholar[20] Palladino, T., 2018. Toyota Begins Testing HoloLens for Production Process Improvements [online]. Available from: https://hololens.reality.news/news/toyota-begins-testing-hololens-for-production-process-improvements-0189907/ [accessed 24/03/19]. Google Scholar[21] Anon. Laserguide [online]. USA: Aligned Vision. Available from: https://aligned-vision.com/laserguide/ [accessed 24/03/19] Google Scholar[22] Anon. Plymatch [online]. London: Anaglyph. Available from: http://www.anaglyph.co.uk/plymatch.htm [accessed 24/03/19]. Google Scholar[23] Anon, 2017. Comelz, Industry 4.0 [online]. Milan: Arsutoria Magazine. Available from: http://arsutoriamagazine.com/comelz-industry-4-0/ [accessed 24/03/19]. Google Scholar[24] Wright, B., 2018. Lectra reveals cloud-connected digital cutting concept [online]. Bromsgrove: just-style. Available from: https://www.just-style.com/news/lectra-reveals-cloud-connected-digital-cutting-concept_id133435.aspx [accessed 24/03/19] Google Scholar[25] Anon. CIJECT™ Five – Infusion Machine [online]. Saltash: Composites Integration. Available from: http://composite-integration.co.uk/products/ciject-five/ [accessed 24/03/19]. Google Scholar[26] Anon. US-Plus process control [online]. Berlin: Grasse Zur Composite Testing. Available from: http://grassezur.de/prozesskontrolle [accessed 24/03/19] Google Scholar[27] Anon. Material State Management [online]. Available from: http://avproinc.com/msm.htm [accessed 24/03/19]. Google Scholar[28] M.L. Jay Rise of the Robots [online]; Arlington, VA: American Composites Manufacturers Association; 2017; Available from: http://compositesmanufacturingmagazine.com/2017/09/composites-industry-will-benefit-from-robotics-and-automation/ [accessed 24/03/19] Google Scholar[29] R. Devleig High-accuracy robotic drilling/milling of 737 inboard flaps; SAE Int. J. Aerosp.; 4: (2)2011: 1373–1379https://doi.org/10.4271/2011-01-2733 Google Scholar[30] Anon. Senesye: Scalable Predictive Maintenance [online]. Southampton: Senseye. Available from: https://www.senseye.io/ [accessed 24/03/19]. Google Scholar[31] Anon. Axiom [online]. Available from: https://www.axiomlaw.com/ [accessed 24/03/19]. Google Scholar[32] Anon. Shyp [online]. Available from: https://shyp.com/ [accessed 24/03/19]. Google Scholar[33] Anon. Factory Automation [online]. The Netherlands: 247tailorsteel. Available from: https://www.247tailorsteel.com/nl/over-247tailorsteel/fabrieksautomatisering [accessed 24/03/19]. Google Scholar[34] A. Van Mourik The Need for Speed: Why the Composites Industry Should Radically Change. Now. [online]; The Netherlands: Airborne International; 2018; Available from: https://www.airborne.com/the-need-for-speed-why-the-composites-industry-should-radically-change-now/ [accessed 24/03/19] Google Scholar[35] Anon. Optiware i4.0 Solutions [online]. Denmark: Optiware. Available from: https://optiware.com/i4-0-solutions/ [accessed 24/03/19]. Google Scholar[36] Simio LLC, 2018. Simio's 8 Reasons to Adopt Industry 4.0 [online]. Available from: https://www.prnewswire.com/news-releases/simios-8-reasons-to-adopt-industry-4-0--300629039.html [accessed 24/03/19] Google Scholar[37] R. Geissbauer J. Vedso S. Schrauf Industry 4.0: Building the digital enterprise [online]; Germany: PWC; 2016. Google Scholar FiguresReferencesRelatedDetails 1 June 2019Volume 63Issue 3ISSN (print): 0034-3617ISSN (online): 1873-1694 Metrics History Published online 7 November 2021 Published in print 1 June 2019 Information© MA Business Ltd.PDF download
Referência(s)