References
- M. Liewald, J. H. C. de Souza, New developments on the use of polymeric materials in sheet metal forming, Production Engineering Research and Development, (2008), 63-72.
- A. G. Leacock, The Future of Sheet Metal Forming Research, Materials and Manufacturing Processes, (2012), 366–369.
- K. Chil-Chyuan, L. Ming-Ren, A cost-effective method for rapid manufacturing sheet metal forming dies, The International Journal of Advanced Manufacturing Technology, (2016), 2651–2656.
- G. Bergweiler, F. Fiedler, A. Shaukat, B. Loffler, Experimental Investigation of Dimensional Precision of Deep Drawn Cups Using Direct Polymer Additive Tooling, Manufacturing and Materials Processing, (2021), 3.
- M. Kirchfeld, K. Kardos, J.H.C. de Souza, S. Wagner, M. Liewald, Applicability of polymeric materials for rapid tooling in sheet metal forming, w IDDRG International Conference, Győr, Hungary, 2007.
- G. Schuh, G. Bergweiler, F. Fiedler, P. Bickendorf, C. Colag, A Review on Flexible Forming of Sheet Metal Parts, IEEE International Conference on Industrial Engineering and Engineering Management (IEEM), Macao, China, 2019.
- I. Durgun, S. A. Altınel, A. Sakin, E. Aybaraz, E. Polat, Prototype Tooling of Sheet Metal Components of Car Body, 7th International Conference and Exhibition on Design and Production of machines and dies/molds, Antalya, Turkey, 2013.
- G. Schuha, G. Bergweilera, P. Bickendorfa, F. Fiedlera, C. Colaga, Sheet Metal Forming Using Additively Manufactured Polymer Tools, Procedia CIRP, (2020), 20-25.
- C.-C. Kuo, H.-Y. Liao, Enhancing the Mechanical Properties of EpoxyResin Mold by Adding Zirconia Particles, Materials and Manufacturing Processes, (2014), 840-847.
- J. Domitner, Z. Silvayeh, A. Shafiee Sabet, K.I. Oksüz, L. Pelcastre, J. Hardell, Characterization of wear and friction between tool steel and aluminum alloys in sheet forming at room temperature, Journal of Manufacturing Processes, (2021), 774-784.
- D. Schmoeckel, H. Frontzek, E. von Finckenstein, Reduction of Wear on Sheet Metal Forming Tools, CIRP Annals, (1986), 195-198.
- M. Hamaguchi, M. Cardoso, E. Vakkilainen, Alternative Technologies for Biofuels Production in Kraft Pulp Mills—Potential and Prospects, Energies, 2012.
- A. Shojaei, R. Arefinia, Analysis of the sedimentation process in reactive polymeric suspensions, Chemical Engineering Science, (2006), 7565-7578.
- K. Balani [ed.], V. Verma, A. Agarwal, R. Narayan, Biosurfaces: A Materials Science and Engineering Perspective, First Edition, John Wiley & Sons, Inc., 2014.
- S. Bridges, L. Robinson, A Practical Handbook for Drilling Fluids Processing, Elsevier, 2020.
- J.L. Leite, M. g. Rasteiro, G. V. Salmoria, C. H. Ahrens, A. S. Pouzada, Epoxy/steel fiber composites—A simple model to predict the fiber sedimentation, Polymer Composites, (2010), 1378-1386.
- K. Żaba, Ł. Kuczek, S. Puchlerska, M. Wiewióra, M. Góral, T. Trzepieciński, Analysis of Tribological Performance of New Stamping Die Composite Inserts Using Strip Drawing Test, Advances in Mechanical and Materials Engineering, (2023), 55-62.
- C.-C. Kuo, M.-R. Li, Development of sheet metal forming dies with excellent mechanical properties using additive manufacturing and rapid tooling technologies, The International Journal of Advanced Manufacturing Technology, (2017), 21-25.
- C. C. Kuo, Y. J. Wang, H. Y. Liao, H. J. Hsu, T. S. Chiang, The evolution of manufacturing processesfor micro-featured epoxy resin mold, Materials science & engineering technology, pp. 341-350, 2016.
- B. Wetzel, F. Haupert, K. Friedrich, M. Qiu Zhang, M. Zhi Rong, Impact and wear resistance of polymer nanocomposites at low filler content, Polymer Engineering and Science, (2002), 1919-1927.
- I. N. Burmistrov, N. V. Shatrova, A. S. Mostovoy, I. N. Mazov, D. V. Kuznetsov, L. G. Panova, A. V. Gorokhovsky, A. G. Yudin, Mechanical properties of (surface-modified potassium polytitanate small additives)/epoxy composite materials, Polymer Engineering and Science, 2012.
- M. K. Mohamed, G. T. Abdel-Jaber, W. Y. Ali, Abrasive wear of epoxy composites filled by abrasive particles and reinforced by polyamide fibres, Materials Science & Engineering Technology, (2014), 123-129.
- A. Khattab, Adhesive Wear of Polymeric Coatings, Proceedings of the Fourth Conf. of the Egyptian Society of Tribology, EGTRIB’95, Cairo, Egypt, 1995.
- A. Nassar, M. Younis, M. Ismail, E. Nassar, Improved Wear-Resistant Performance of Epoxy Resin Composites Using Ceramic Particles, Polymers, 2022.
- L. Kirkhorn, V. Bushlya, M. Andersson, J. E. Stahl, The influence of tool steel microstructure on friction in sheet, Wear, (2013), 1268-1278.
- A. M. Murtagh, J. J. Lennon, P. J. Mallon, Surface friction effects related to pressforming of continuous fibre thermoplastic composites, Composites Manufacturing, (1995), 169-175.
- B. Leszczyńska-Madej, M. Madej, A. Wąsik, D. Garbiec, Spark plasma sintering of Al–SiC composites with high SiC content: study of microstructure and tribological properties, Archives of Civil and Mechanical Engineering, (2023), 1-13.
- K. Kumar, J. Kumar, V. Kumar Singh, R. Kumar Verma, An integrated module for machinability evaluation and correlated response optimization during milling of carbon nanotube/glass fber modifed polymer composites, Multiscale and Multidisciplinary Modeling, Experiments and Design (2021) 4:303–318.
- P. Pratap, J. Kumar, R Kumar Verma, Experimental investigation and optimization of process parameters during electric discharge machining of Inconel X-750, Multiscale and Multidisciplinary Modeling, Experiments and Design (2020) 3:161–171.
- J. Kumar, R. Kumar Verma, P. Khare, Chapter THREE - Graphene-functionalized carbon/glass fiber reinforced polymer nanocomposites: fabrication and characterization for manufacturing applications, Handbook of Functionalized Nanomaterials Environmental Health and Safety Micro and Nano Technologies 2021, 57-78.