Scientific papers
Papers on Lithography-based additive manufacturing of ceramics and metals
The synergy between substrate architecture of 3D-printed catalytic converters and hydrogen for low-temperature aftertreatment systems
by Nikolina Kovacev, Omid Doustdar, Sheng Li, Athanasios Tsolakis, Jose Martin Herreros, Khamis Essa (2023)
DLP of Translucent Alumina: In-Depth Investigation on Slurry Development and Debinding Regimes
by Michele De Lisi, Chang Shu, Usama M. Attia, Khamis Essa (2023)
Additive Manufacturing of Novel Hybrid Monolithic Ceramic Substrates
by Nikolina Kovacev, Sheng Li, Weining Li, Soheil Zeraati-Rezaei, Athanasios Tsolakis, Khamis Essa (2022)
Numerical Simulation of Sintering of DLP Printed Alumina Ceramics
by Michele De Lisi, Nikolina Kovacev, Usama M. Attia, Khamis Essa (2022)
Effect of the preparation techniques of photopolymerizable ceramic slurry and printing parameters on the accuracy of 3D printed lattice structures
by Nikolina Kovacev, Sheng Li, Khamis Essa (2021)
Effects of the internal structures of monolith ceramic substrates on thermal and hydraulic properties: additive manufacturing, numerical modelling and experimental testing
by Nikolina Kovacev, Sheng Li, Soheil Zeraati-Rezaei, Hassan Hemida, Athanasios Tsolakis, Khamis Essa (2020)
Designing alumina-zirconia composites by DLP-based stereolithography: Microstructural tailoring and mechanical performances
by Bartolomeo Coppola, Laura Montanaro and Paola Palmero of Politecnico di Torino, Italy, and Tanguy Lacondemine and Caroline Tardivat of Saint-Gobain Cavaillon, France (2021)
Development of calcium phosphate suspensions suitable for the Stereolithography process
by Chloé Goutagny, Stéphane Hocquet, Dominique Hautcoeur, Marie Lasgorceix, Nicolas Somers, Anne Leriche of Belgian Ceramic Research Centre, Mons and University Polytechnique Hauts-de-France, Valenciennes (2021)
Rheology and Curability Characterization of Photosensitive Slurries for 3D Printing of Si3N4 Ceramics
by Xingbang Li, Jingxian Zhang, Yusen Duan, Ning Liu, Jinhua Jiang, Ruixin Ma, Hongan Xi and Xiaoguang Li, Shanghai Institute of Ceramics, Chinese Academy of Sciences (2020)
Additive Manufacturing of Functionally Graded Ceramic Materials by Stereolithography
by Gonzalez, P., Schwarzer, E., Scheithauer, U., Kooijmans, N., Moritz, T., Admatec and Fraunhofer Institute for Ceramic Technology and Systems IKTS Dresden (2019)
Powder metallurgical steel quality by additive manufacturing using VAT polymerisation technology
by J.J. Saurwalt, J. Opschoor, L. Berkeveld, Energy Research Center The Netherlands (2017)
Design for Additive Manufacture of Fine Medical Instrumentation—DragonFlex Case Study
by Jelınek, F. and Breedveld, P., Austrian Center for Medical Innovation and Technology and University Delft
Additive Manufacturing of Ceramics: A Review
by J. Deckers, J. Vleugels, J.-P.b Kruth, KU Leuven Belgium
3D-printing zirconia implants; a dream or a reality? An in-vitro study evaluating the dimensional accuracy, surface topography and mechanical properties of printed zirconia implant and discs
by Reham B. Osmana, Albert J. van der Veen, Dennis Huiberts, Daniel Wismeijer, Nawal Alharbib.
3D printed ceramic phosphor and the photoluminescence property under blue laser excitation
by Song Hua, Yingli Liua, Yunli Zhanga, Zhenhai Xuea, Zhengjuan Wanga,Guohong Zhoua, Chunhua Lud, Hongshu Lie, Shiwei Wanga, Shanghai, China (2019)
SiC and SiOC ceramic articles produced by stereolithography of acrylate modified polycarbosilane systems
by D. Penner, Y. de Hazan, Zurich University of Applied Sciences, Institute of Materials and Process Engineering, Winterthur, Switzerland, Journal of the European Ceramic Society.
A trade-off analysis of recoating methods for vat photopolymerization of ceramics
by Hafkamp, T. M., van Baars, G. E., de Jager, A. G., & Etman, L. F. P. (2017). Austin, Texas (pp. 687-711).
Critical energy for photopolymerization of ceramic suspensions in acrylate monomers
by Vladislava Tomeckova, John W. Halloran (2010). University of Michigan, Ann Arbor, MI 48109-2136, USA. Journal of the European Ceramic Society.
Cure depth for photopolymerization of ceramic suspensions
by Vladislava Tomeckova, John W. Halloran (2010). University of Michigan, Ann Arbor, MI 48109-2136, USA. Journal of the European Ceramic Society.
Photopolymerization of powder suspensions for shaping ceramics
by John W. Halloran, Vladislava Tomeckova, Susan Gentry et al.. University of Michigan, Ann Arbor, MI 48109-2136, USA. Journal of the European Ceramic Society.
Dimensional Changes and Creep of Silica Core Ceramics Used in Investment Casting of Superalloys
by A. A. Wereszczak, E. A. Payzant, K. Breder, C. J. Rawn, M. K. Ferber, T.P. Kirkland (2014).
Dispersion and properties of zirconia suspensions for stereolithography
by Xingbang Li, He Zhong, Jingxian Zhang, Yusen Duan, Hainan Bai, Jingjing Li, Dongliang Jiang (2019)
Review of additive manufacturing methods for high-performance ceramic materials
by Jia-Chang Wang, Hitesh Dommati and Sheng-Jen Hsieh. Received: 27 November 2018/ Accepted: 29 March 2019
Wear of structural oxide ceramics produced through additive manufacturing
by Jessica Schiltz, Andrew Rosenberger, Todd Render, Bernice Aboud Gatrell, Haibo Qu, Colton Steiner, Paul McGinn and Steven Schmid. Volume 34, 2019, Pages 780-788