[1] JI-HONG SHE, T OHJI, ZHEN-YAN DENG. Thermal shock behavior of porous silicon carbide ceramics. Journal of the American Ceramic Society, 85, 2125-2127(2002).

[2] SHI-FENG LIU, YU-PING ZENG, DONG-LIANG JIANG. Effects of CeO₂ addition on the properties of cordierite-bonded porous SiC ceramics. Journal of the European Ceramic Society, 29, 1795-1802(2009).

[3] P H PASTILA, V HELANTI, A P NIKKILA et al. Environmental effects on microstructure and strength of SiC-based hot gas filters. Journal of the European Ceramic Society, 21, 1261-1268(2001).

[4] D DAS, N KAYAL, G A MARSOLA et al. Recycling of coal fly ash for fabrication of elongated mullite rod bonded porous SiC ceramic membrane and its application in filtration. Journal of the European Ceramic Society, 40, 2163-2172(2020).

[5] U BETKE, A LIRB. Micro-macroporous composite materials- preparation techniques and selected applications: a review. Advanced Engineering Materials, 20, 1800252(2018).

[6] V S DESHPANDE, M F ASHBY, N A FLECK. Foam topology bending versus stretching dominated architectures. Acta Materialia, 49, 1035-1040(2001).

[7] M F ASHBY. The properties of foams and lattices. Philosophical Transactions of the Royal Society A, 364, 15-30(2006).

[8] J BAUER, S HENGSBACH, I TESARI et al. High-strength celluar ceramic composites with 3D microarchitecture. PNAS, 111, 2453-2458(2014).

[9] M KAUR, T G YUN, S M HAN et al. 3D printed stretching- dominated micro-trusses. Materials and Design, 134, 272-280(2017).

[10] C FERRARO, E GARCIA-TUNON, V G ROCHA et al. Light and strong SiC networks. Advanced Functional Materials, 26, 1636-1645(2016).

[11] CHANG-AN WANG, YONG HUANG, HONG-XIANG ZHAI. The effect of whisker orientation in SiC whisker-reinforced Si₃N₄ ceramic matrix composites. Journal of the European Ceramics Society, 19, 1903-1909(1999).

[12] M A MEYERS, PO-YU CHEN, YU-MIN LIN et al. Biological materials: structure and mechanical properties. Progress in Materials Science, 53, 1-206(2008).

[13] QUAN ZHU, XIANG DONG, JIAN-BAO HU et al. High strength aligned SiC nanowire reinforced SiC porous ceramics fabricated by 3D printing and chemical vapor infiltration. Ceramics International, 46, 6978-6983(2020).

[14] M NADER, F ALDINGER, M J HOFFMANN. Influence of the α/β SiC phase transformation on microstructural development and mechanical properties of liquid phase sintered silicon carbide. Journal of Materials Science, 34, 1197-1204(1999).

[15] J H EOM, Y W KIM, I H SONG. Microstructure and properties of porous silicon carbide ceramics fabricated by carbothermal reduction and subsequent sintering process. Materials Science and Engineering: A, 464, 129-134(2007).

[16] Y W KIM, J H EOM, YAN-TING GUO et al. Processing of open-cell silicon carbide foams by steam chest molding and carbothermal reduction. Journal of the American Ceramics Society, 94, 344-347(2011).

[17] J H EOM, Y W KIM, I H SONG et al. Processing and properties of polysiloxane-derived porous silicon carbide ceramics using hollow microspheres as templates. Journal of the European Ceramics of Society, 28, 1029-1035(2008).

[18] J H EOM, Y W KIM. Effect of additive composition on microstructure and strength of porous silicon carbide ceramics. Journal of Materials Science, 44, 4482-4486(2009).

[19] A SHIMAMURA, M FUKUSHIMA, M HOTTA et al. New approach for macro porous RB-SiC derived from SiC/Novolac- type phenolic composite. Journal of the American Ceramics Society, 99, 440-444(2016).

[20] F M VARELA-FERIA, J MARTINEZ-FERNANDEZ, LOPEZ A R ARELLANO- et al. Low density biomorphic silicon carbide: microstructure and mechanical properties. Journal of the European Ceramics Society, 22, 2719-2725(2002).

[21] L J GIBSON, M F ASHBY. Cellular Solids: Structure and Properties, 2ed. Cambridge University(1997).

[22] DONG-CHAN JANG, L R MEZA, F GREER et al. Fabrication and deformation of three-dimensional hollow ceramic nanostructures. Nature Materials, 12, 893-898(2013).

[23] P MIRANDA, A PAJARE, E SAIZ et al. Fracture mode under uniaxial compression in hydroxyapatite scaffolds fabricated by robocasting. Journal of Biomedial Materials Research Part A, 83, 646-655(2007).