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 [1] POPPER P, RUDDLESDEN S N. The preparation, properties, and structure of silicon nitride[J]. Trans Br Ceram Soc, 1961, 10: 603–626.

[2] 袁磊. 利用反应烧结法制备Si3N4复合材料及其多孔材料的研究. 东北大学博士论文2008.
YUAN Lei. Fabrication of Si3N4 composites and porous ceramics with reaction-sintering method (in Chinese, dissertation). Shenyang: Northeastern University, 2008.
[3] YAO D X, XIA Y F, ZENG Y P, et al. Porous Si3N4 ceramics prepared via slip casting of Si and reaction bonded silicon nitride[J]. Ceram Inter 2011, 37(8): 3071–3076.
[4] YAO D X, XIA Y F, ZUO K H, et al. The effect of fabrication parameters on the mechanical properties of sintered reaction bonded porous Si3N4 ceramics[J]. J Eur Ceram Soc 2014, 34(15): 3461–3467.
[5] CHEN D Y, ZHANG B L, ZHUANG H R, et al. Combustion synthesis of network silicon nitride porous ceramics[J]. Ceram Inter, 2003, 29(4): 363–364.
[6] SHAN S Y, YANG J F, LU Y, et al. Effects of carbon source on microstructural evolution and sintering behavior of porous silicon nitride ceramics[J]. Scripta Mater, 2007, 56(3): 193–196.
[7] KAWAI C, YAMAKAWA A. Effect of porosity and microstructure on the strength of Si3N4: Designed microstructure for high strength, high thermal shock resistance, and facile machining[J]. J Am Ceram Soc, 1997, 80(10): 2705–2708.
[8] WAN T, YAO D X, HU H L, et al. Fabrication of porous Si3N4 ceramics through a novel gelcasting method[J]. Mater Lett, 2014, 133: 190–192.
[9] YANG J F, ShAN S Y, JANSSEN R, et al. Synthesis of fibrous beta-Si3N4 structured porous ceramics using carbothermal nitridation of silica[J]. Acta Mater, 2005, 53(10): 2981–2990.
[10] YAO D X, ZENG Y P, ZUO K H, et al. The effects of BN addition on the mechanical properties of porous Si3N4/BN ceramics prepared via nitridation of silicon powder[J]. J Am Ceram Soc, 2011, 94(3): 666–670.
[11] DING S Q, ZENG Y P, JIANG D L. Oxidation bonding of porous silicon nitride ceramics with high strength and low dielectric constant[J]. Mater Lett, 2007, 61(11–12): 2277–2280.
[12] XIA Y F, ZENG Y P, JIANG D L. Dielectric and mechanical properties of porous Si3N4 ceramics prepared via low temperature sintering[J]. Ceram Inter, 2009, 35(4): 1699–1703.
[13] 夏咏锋, 曾宇平, 江东亮. 原位反应结合多孔Si3N4陶瓷的制备及其介电性能[J]. 无机材料学报 2008, 23(4): 705–709.
XIA Yongfeng, ZENG Yuping, JIANG Douling. J Inorg Mater (in Chinese), 2008, 23(4): 705–709.
[14] CHEN F, SHEN Q, YAN F Q, et al. Pressureless sintering of alpha-Si3N4 porous ceramics using a H3PO4 pore-forming agent[J]. J Am Ceram Soc, 2007, 90(8): 2379–2383.
[15] PENG H. Spark plasma sintering of Si3N4-based ceramics: Sintering mechanism, tailoring microstructure, evaluating properties (dissertation). Stockholm: Stockholm University, 2004.
[16] KRAMER M, WITTMUSS D, KUPPERS H, et al. Relations between crystal structure and growth morphology of beta-Si3N4[J]. J Cryst Growth, 1994, 140(1–2): 157–166.
[17] KRAMER M, HOFFMANN M J, PETZOW G. Grain-growth studies of silicon-nitride dispersed in an oxynitride glass[J]. J Am Ceram Soc, 1993, 76(11): 2778–2784.
[18] OHJI T. Microstructural design and mechanical properties of porous silicon nitride ceramics[J]. Mater Sci Eng a-Struct, 2008, 498(1–2): 5–11.
[19] KITAYAMA M, HIRAO K, TORIYAMA M, et al. Modeling and simulation of grain growth in Si3N4-I. Anisotropic Ostwald ripening[J]. Acta Mater 1998, 46(18): 6541–6550.
[20] KITAYAMA M, HIRAO K, TORIYAMA M, et al. Modeling and simulation of grain growth in Si3N4 - II. The alpha-beta transformation[J]. Acta Mater 1998, 46(18): 6551–6557.
[21] SHEN Z, ZHAO Z, PENG H, et al. Formation of tough interlocking microstructures in silicon nitride ceramics by dynamic ripening[J]. Nature, 2002, 417(6886): 266–269.
[22] GLEITER H. Theory of grain boundary migration rate[J]. Acta Metall 1969, 17(7): 853–862.
[23] EMOTO H, MITOMO M. Control and characterization of abnormally grown grains in silicon nitride ceramics[J]. J Eur Ceram Soc, 1997, 17(6): 797–804.
[24] SHIBATA N, PENNYCOOK S J, GOSNELL T R, et al. Observation of rare-earth segregation in silicon nitride ceramics at subnanometre dimensions[J]. Nature, 2004, 428(6984): 730–733.
[25] ZIEGLER A, KISIELOWSKI C, HOFFMANN M J, et al. Atomic resolution transmission electron microscopy of the intergranular structure of a Y2O3-containing silicon nitride ceramic[J]. J Am Ceram Soc, 2003, 86(10): 1777–1785.
[26] ZIEGLER A, IDROBO J C, CINIBULK M K, et al. Interface structure and atomic bonding characteristics in silicon nitride ceramics[J]. Science, 2004, 306(5702): 1768–1770.
[27] YANG J, YANG J F, SHAN S Y, et al. Effect of sintering additives on microstructure and mechanical properties of porous silicon nitride ceramics[J]. J Am Ceram Soc, 2006, 89(12): 3843–3845.
[28] LI Y, CHEN F, LI L, et al. Gas pressure sintering of arbitrary porous silicon nitride ceramics with high mechanical strength[J]. J Am Ceram Soc, 2010, 93(6): 1565–1568.
[29] YIN X W, LI X M, ZHANG L T, et al. Microstructure and mechanical properties of Lu2O3-doped porous silicon nitride ceramics using phenolic resin as pore-forming agent[J]. Inter J Appl Ceram Tech, 2010, 27(3): 529–533.
[30] XIA Y F, ZENG Y P, JIANG D L. Mechanical and dielectric properties of porous Si3N4 ceramics using PMMA as pore former[J]. Ceram Inter, 2011, 37(8): 3775–3779.
[31] WANG F, YIN J , YAO D X, et al. Effects of oil on gelcasting of oil-in-water Si3N4 suspensions[J]. J Alloys Compd, 2017, 699: 268–273.
[32] FUKUSAWA T, ANDO M, OHJI T. Fabrication of porous ceramics with the complex pore structure by freeze drying process[J]. Ceram Trans, 2000, 115: 217–226.
[33] YAO D X, XIA Y F, ZENG Y P, et al. Fabrication porous Si3N4 ceramics via starch consolidation-freeze drying process[J]. Mater Lett, 2012, 68: 75–77.
[34] YU J L, YANG J L, LI S, et al. Preparation of Si3N4 foam ceramics with nest-like cell structure by particle-stabilized foams[J]. J Am Ceram Soc, 2012, 95(4): 1229–1233.
[35] DENG J, YAO D X, XIA Y F, et al. Gradient porous silicon nitride by slip casting and vacuum foaming[J]. J Inorg Mater (in Chinese), 2016, 31(8): 865–868.
[36] YAO D X, XIA Y F, ZUO K H, et al. Gradient porous silicon nitride prepared via vacuum foaming and freeze drying[J]. Mater Lett, 2015, 141: 138–140.
[37] WAN T, YAO D X, YIN J W, et al. A novel method for preparing Si3N4 ceramics with unidirectional oriented pores from silicon aqueous slurries[J]. J Euro Ceram Soc, 2017, 37(10): 3285–3291.
[38] MA N, DU L J, LIU W T, et al. Preparation of porous Si3N4 ceramics with unidirectionally aligned channels[J]. Ceram Inter, 2016, 42(7): 9145–9151.
[39] COBLE R L, KINGERY W D. Effect of porosity on physical properties of sintered alumina[J]. J Am Ceram Soc, 1956, 39(11): 377–385.
[40] SPRINGGS R M. Expression for Effect of Porosity on elastic modulus of polycrystalline refractory materials, particularly aluminum oxide[J]. J Am Ceram Soc, 1961, 44(12): 628–629.
[41] WANG HJ, YU JL, ZHANG J, et al. Preparation and properties of pressureless-sintered porous Si3N4[J]. J Mater Sci, 2010, 45(13): 3671–3676.
[42] ZHANG RB, FANG DN, PEI YM, et al.  Microstructure, mechanical and dielectric properties of highly porous silicon nitride ceramics produced by a new water-based freeze casting[J]. Ceram Inter, 2012, 38(5): 4373–4377.
[43] KAWAI C, MATSUURA T, YAMAKAWA A. Separation-permeation performance of porous Si3N4 ceramics composed of columnar beta-Si3N4 grains as membrane filters for microfiltration[J]. J Mater Sci, 1999, 34(5): 893–896.
[44] TOPATES G, MAMMITZSCH L, PETASCH U, et al. Microstructure permeability relation of porous beta-Si3N4 ceramics[J]. J Euro Ceram Soc, 2013, 33(9): 1545–1551.
[45] GULSUM T, JOERG A, FERHAT K, et al. Production and permeability of porous Si3N4 ceramics produced by starch addition[J]. J Asian Ceram Soc, 2013, 1(3): 257–261.
[46] 于方丽, 白宇, 杜军, 等. 多孔氮化硅陶瓷的微观结构、力学性能和气体透气性的研究[J]. 人工晶体学报 2012, 41(3): 656–660.
YU Fangli, BAI Yu, DU Jun, et al. J Synth Cryst (in Chinese), 2012, 41(3): 656–660.
[47] YU F L, Wang H R, Bai Y, et al. Preparation and characterization of porous Si3N4 ceramics prepared by compression molding and slip casting methods[J]. Mater Sci Bull, 2010, 33(5): 619–624.
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