[1] Y YANG, S SHIMAI, S WANG. Room-temperature gelcasting of alumina with a water-soluble copolymer. Journal of Materials Research, 1512(2013).
[2] H CHEN, S SHIMAI, J ZHAO et al. Hydrophobic coagulation of alumina slurries. Journal of the American Ceramic Society, 284(2021).
[3] Y SUN, S SHIMAI, X PENG et al. A method for gelcasting high-strength alumina ceramics with low shrinkage. Journal of Materials Research, 247(2014).
[4] C WU, Z YU, A S SOKOLOV et al. Tailoring magnetic properties of self-biased hexaferrites using an alternative copolymer of isobutylene and maleic anhydride. AIP Advances, 221(2018).
[5] F WANG, J YIN, D YAO et al. Fabrication of porous SiC ceramics through a modified gelcasting and solid state sintering. Materials Science and Engineering A--Structural Materials Properties Microstructure and Processing(2016).
[6] L WANG, L AN, J ZHAO et al. High-strength porous alumina ceramics prepared from stable wet foams. Journal of Advanced Ceramics, 852(2021).
[7] Y SUN, S SHIMAI, X PENG et al. Fabrication of transparent Y2O3 ceramics via aqueous gelcasting. Ceramics International, 8841(2014).
[8] P ZHANG, P LIU, Y SUN et al. Aqueous gelcasting of the transparent MgAl2O4 spinel ceramics. Journal of Alloys and Compounds, 646: 833(2015).
[9] J WANG, F ZHANG, F CHEN et al. Fabrication of aluminum oxynitride (c-AlON) transparent ceramics with modified gelcasting. Journal of the American Ceramic Society, 1353(2014).
[10] H CHEN, J ZHAO, S SHIMAI et al. High transmittance and grain-orientated alumina ceramics fabricated by adding fine template particles. Journal of Advanced Ceramics, 582(2022).
[11] A C YOUNG, O O OMATETE, M A JANNEY et al. Gelcasting of alumina. Journal of the American Ceramic Society, 612(1991).
[12] F H BAADER, T J GRAULE, L J GAUCKLER. Direct coagulation casting-a new green shape technique. 2. Application to alumina. Industrial Ceramics, 36(1996).
[13] T J GRAULE, L J GAUCKLER, F H BAADER. Direct coagulation casting-a new green shaping technique. 1. Processing principles. Industrial Ceramics, 31(1996).
[14] G W SCHERER. Theory of drying. Journal of the American Ceramic Society, 3(1990).
[15] O O OMATETE, R A STREHLOW, C A WALLS. Drying of gelcast ceramics. United States, 101(1991).
[16] L G MA, Y HUANG, J L YANG et al. Control of the inner stresses in ceramic green bodies formed by gelcasting. Ceramics International, 93(2006).
[17] A BARATI, M KOKABI, M H N FAMILI. Drying of gelcast ceramic parts via the liquid desiccant method. Journal of the European Ceramic Society, 2265(2003).
[18] C BILBAO-SAINZ, A ANDRES, P FITO. Hydration kinetics of dried apple as affected by drying conditions. Journal of Food Engineering, 369(2005).
[19] T SHIRAI, M YASUOKA, Y HOTTA et al. Rapid microwave drying for slip cast bodies. Journal of the Ceramic Society of Japan, 217(2006).
[20] I A OZKAN, B AKBUDAK, N AKBUDAK. Microwave drying characteristics of spinach. Journal of Food Engineering, 577(2007).
[21] S VONGPRADUBCHAI, P RATTANADECHO. Microwave and hot air drying of wood using a rectangular waveguide. Drying Technology, 451(2011).
[22] C H CHONG, A FIGIEL, C L LAW et al. Combined drying of apple cubes by using of heat pump, vacuum-microwave, and intermittent techniques. Food and Bioprocess Technology, 975(2014).
[23] Y ITAYA, K OKOUCHI, S MORI. Effect of heating modes on internal strain-stress formation during drying of molded ceramics. Drying Technology, 1491(2001).
[24] A ESIN, N MAHMUTYAZICIOGLU, S ALTINTAS. Drying and sintering of ceramic based parts using microwave heating. Key Engineering Materials, 731(2004).
[25] T SHIRAI, T ISOBE, M YASUOKA et al. Rapid microwave drying for wet green body using nanosized particles. Journal of the Ceramic Society of Japan, 440(2007).
[26] P N HEMANTHAKUMARI, L N SATAPATHY. A comparison of the effects of microwave versus conventional drying on the mechanical properties distribution of dried green porcelains. International Journal of Applied Ceramic Technology, 94(2008).
[27] L ZHANG, M J MCCARTHY. NMR study of hydration of navy bean during cooking. Lwt-Food Science and Technology, 402(2013).
[28] L BORISJUK, H ROLLETSCHEK, T NEUBERGER. Surveying the plant's world by magnetic resonance imaging. Plant Journal, 129(2012).
[29] N ISHIDA, M KOIZUMI, H KANO. The NMR microscope: a unique and promising tool for plant science. Annals of Botany, 259(2000).
[30] G DADALI, D K APAR, B OZBEK. Microwave drying kinetics of okra. Drying Technology, 917(2007).
