Методы аддитивных технологий для производства керамических изделий (обзор)

В. Ю. КРАХМАТОВА, канд. техн. наук А. И. ЗАХАРОВ, канд. техн. наук Д. В. АНДРЕЕВ (e-mail: Адрес электронной почты защищен от спам-ботов. Для просмотра адреса в вашем браузере должен быть включен Javascript.), канд. хим. наук А. Ф. КРИВОЩЕПОВ; ФГБОУ ВО «Российский химико-технологический университет имени Д. И. Менделеева» (РХТУ им. Д. И. Менделеева) (Россия, г. Москва)

Филатов C. А. Аддитивные технологии: современное состояние и перспективы // Перспективы развития аддитивных технологий в Республике Беларусь. Минск, 2017. С. 115 ? 117. Faes M., Ferraris E., Vleugels J., Vogeler F. Extrusion-based additive manufacturing of ZrO2 using photoinitiated polymerization // CIRP Journal of Manufacturing Science and Technology. 2016. V. 14. P. 28 ? 34. Sardarian M., Mirzaee O., Habibolahzadeh A. Numerical simulation and experimental investigation on jetting phenomenon in low pressure injection molding (LPIM) of alumina // Journal of Materials Processing Technology. 2017. V. 243. P. 374 ? 380. Gonzalez J. A., Lin Y., Mireles J., Wicker R. B. Characterization of ceramic components fabricated using binder jetting additive manufacturing technology // Original Research Article Ceramics International. 2016. V. 42. Is. 9. P. 10559 ? 10564. Tempelman E., Shercliff H., Ninaber B. Additive Manufacturing // Manufacturing and Design. 2014. V. 11. P. 187 ? 200. Shipin Q., Dunbar A., Panagiotis M. Characterization of the strength of support structures used in powder bed fusion additive manufacturing of Ti-6Al-4V // Additive Manufacturing. 2017. V. 14. P. 60 ? 68. Bimber B., Hamilton R., Keist J. Anisotropic microstructure and superelasticity of additive manufactured NiTi alloy bulk builds using laser directed energy deposition // Materials Science and Engineering. 2016. V. 674. P. 125 ? 134. Zocca A., Colombo P., Gomes C. M. Additive Manufacturing of Ceramics // Potentialities, and Opportunities. 2015. V. 9. P. 637 ? 643. Промахов В. В., Жуков И. А., Ворожцов С. А. Аддитивный способ формования изделий из порошков тугоплавких соединений // Ползуновский вестник. 2016. Т. 1. ? 4. С. 59 ? 63. Ringeisen B. R., Chrisey D. B., Pique A. Generation of Mesoscopic Patterns of Viable Escherichia coli by Ambient Laser Transfer // Biomaterials. 2002. V. 23. Р. 161 ? 166. Yoo J., Cima M. J., Khanuja S. Structural ceramic components by 3D printing // Solid Freeform Fabr. Symp. 1995. P. 479 ? 488. Krieger I. M., Dougherty T. J. A mechanism for non-Newtonian flow insuspensions of rigid spheres // Rheology (N. Y.). 1959. No. 3. P. 137. Rueschhoff L., Costakis W., Michie M. Additive manufacturing of dense ceramic parts via direct ink writing of aqueous alumina suspensions // Ceramic Technology. 2016. V.13. P. 821 ? 830. Kokkinis D., Schaffner M., Studart A. Multimaterial magnetically assisted 3D printing of composite materials // Nat. Commun. 2015. V. 6. P. 8643. Schlordt T., Keppner F., Travitzky N. Robocasting of alumina lattice truss structures // Ceram. Sci. Technol. 2012. V. 3. P. 81 ? 88. Rao R. B., Krafcik K. L., Morales A. M. Microfabricated deposition nozzles for direct-write assembly of three-dimensional periodic structures // Adv. Mater. 2005. V. 17. P. 289 ? 293. Bastian E. Plateau-Raileigh Instability, Microfluidics // Mo-delling, Mechanics and Mathematics in Micro and Nano Technologies. 2017. V. 12. P. 467 ? 477. Hon K., Li L. Hutchings Direct writing technology-Advances and developments // Materials science and technology.1999. V. 5. P. 71 ? 76. Cesarano J., Baer T., Calvert P. Recent developments in freeform fabrication of dense ceramics from slurry deposition // Solid Freeform Fabrication Symposium Proceedings. 1997. P. 25 ? 32. Tang H.-H., Chiu M.-L., Yen H.-C. Slurry-based selective laser sintering of polymer-coated ceramic powders to fabricate high strength alumina parts // Eur. Ceram. Soc. 2011. V. 31. P. 1383 ? 1388. Basaran O. A. Small-Scale Free Surface Flows with Breakup: Drop Formation and Emerging Applications // AIChemE Journal. 2012. V. 48. No. 9. P. 1842 ? 1848. Stow C. D., Hadfield M. G. An experimental investigation of fluid-flow resulting from the impact of a water drop with an unyielding dry surface // Proc. R Soc. Lond. Ser. A. 1981. V. 373. P. 419 ? 41. Wilkes J., Hagedorn Y.-C., Meiners W. Additive manufacturing of ZrO2Al2O3 ceramic components by selective laser melting // Rapid Prototyp. 2013. V. 19. P. 51 ? 57. Cima M. J., Oliveira M., Wang H. R. Slurrybase 3DP and fine ceramic components // Solid Freeform Fabrication Symposium Proceedings. 2001. P. 216 ? 223. Fromm J. E. Numerical-calculation of the fluid-dynamics of drop-ondemand jets // IBM J. Res. Dev. 1984. V. 28. P. 322 ? 330. Reis N., Derby B. Ink-jet deposition of ceramic suspensions: modelling and experiments of droplet formation // Materials development for direct write technologies/ MRS symposium proceedings. 2000. V. 624. P. 65 ? 70. Jang D., Kim D., Moon J. Influence of fluid physical properties on ink-jet printability // Langmuir. 2009. V. 25. P. 2629 ? 2635. Duineveld P. C., Kok M. A., Buechel M. et al. Ink-jet printing of polymer light-emitting devices // Proceedings of the conference on organic light-emitting materials and devices. 2001. V. 4464. P. 59 ? 67. Stow C. D., Hadfield M. G. An experimental investigation of fluid-flow resulting from the impact of a water drop with an unyielding dry surface // Proc. R Soc. Lond. Ser. A. 1981. V. 373. P. 419 ? 41. Colombo P., Mera G., Riedel R. Polymer-Derived Ceramics // 40 Years of Research and Innovation in Advanced Ceramics / J. Am. Ceram. Soc. 2010. V. 93. P. 1805 ? 1837. Colombo P., Schmidt J., Franchin G. Additive manufacturing techniques for fabricating complex ceramic components from preceramic polymers // American Ceramic Society Bulletin. 2011. V. 96. No. 3. P. 16 ? 23. Зленко М., Забеднов П. Аддитивные технологии в опытном литейном производстве. Ч. I. Литье металлов и пластмасс с использованием синтез-моделей и синтез-форм // Металлургия машиностроения. 2013. ? 2. С. 45 ? 54. Xiaoqin Z., Yihong H., Jieqiong L. A review on the processing accuracy of two-photon polymerization // AIP Advances. 2015. V. 5. P. 83.