[1] MURRT M, GAVRIILIDIS A. Catalytic combustion of methane［J］. Fuel Processing Technol 2003, 42(2/3): 339-359.

[2] NISHLAN Govender. Controlling factors in the selective conversion of n-butane over promoted VPO catalysts at low temperature［J］. Catal Today, 2004, 97(4): 315-324.

[3] ZHANG, Zhixiang, ZHENG Jiang. Low-temperature catalysis for VOCs removal in technology and application: A state-of-the-art review［J］. Catal Today, 2016, 264: 270-278.

[7] ALEXANDER Nijhuis T. Preparation of monolithic catalysts［J］. Catalysis Reviews, 2001, 43(4): 345-380.

[9] MEILLE V. Review on methods to deposit catalysts on structured surfaces［J］. Appl Catal A-Gen, 2006, 315: 1-17.

[11] DUAN R. DeNOx performance of Cu-Mn composite catalysts prepared by the slurry coating method［J］. React Kinet Mech Catal, 2014, 111(1): 235-245

[12] LUCKHAM, P F. The rheology of aqueous alumina suspensions in the presence of hydroxyethylcellulose as binder［J］. J Eur Ceram Soc, 1999, 19(15): 2605-2612.

[13] AVILA P. Monolithic reactors for environmental applications a review on preparation technologies［J］. Chem Eng J, 2005, 109(1-3): 11-36.

[14] LIN Y S. Thermal stability and its improvement of the alumina membrane top-layers prepared by sol-gel methods［J］. J Mater Sci, 1991, 26(3): 715-720.

[15] MITRA B, KUNZRU D. Washcoating of different zeolites on cordierite monoliths［J］. J Am Ceram Soc, 2010, 91(1): 64-70.

[16] AGRAFIOTIS C, TSETSEKOU A. The effect of processing parameters on the properties of γ-alumina washcoats deposited on ceramic honeycombs［J］. J Mater Sci, 2000, 35(4): 951-960.

[17] PALMQVIST L, LYCKFELDT O. Dispersion mechanisms in aqueous alumina suspensions at high solids loadings［J］. Colloids Surf A Physicochem Eng Asp, 2006, 274(1-3): 100-109.

[18] SONG S X, YIN J, ZHU Y Z, et al. Optical coating on Cf/SiC composites via aqueous slurry painting and reaction bonding［J］. J Inorg Mater, 2017, 32(2): 210-214.

[19] ZASPALIS V T, PRAG W V, KEIZER K, et al. Synthesis and characterization of primary alumina, titania and binary membranes［J］. J Mater Sci, 1992, 27(4): 1023-1035.

[20] BINNER J G P, MCDERMOTT. Rheological characterisation of ammonium polyacrylate dispersed, concentrated alumina suspensions［J］. Ceram Int, 2006, 32(7): 803-810.

[21] GERMANI G, STEFANESCU A, SCHUURMAN Y, et al. Preparation and characterization of porous alumina-based catalyst coatings in microchannels［J］. Chem Eng Sci, 2007, 62(18): 5084-5091.

[23] HE L, FAN Y, LUO L, et al. Preparation of Pt/γ-Al2O3 catalyst coating in microreactors for catalytic methane combustion［J］. Chem Eng J, 2019, 380: 122424.

[25] HARRIS J. Rheology and Non-Newtonian Flow［M］. Engineering Applications, 1977.

[26] ADEGBITE S. Coating of catalyst supports-links between slurry characteristics, coating process and final coating quality［D］. 2010.

[27] KENDALL K. Effect of ionic strength on the adsorption of cationic polyelectrolytes onto alumina studied using electroacoustic measurements［J］. Powder Technol, 2000, 113(1/2): 148-157.

[28] DAN L, YAO X, YONG Y, et al. Rheological Properties of SiC-ZrB2 Composite Suspensions［J］. J Inorg Mater, 2013, 28(5): 566-570.

[29] RAO A S. Effect of the surface active agents on the rheology of aqueous alumina slips［J］. Ceram Int, 1988, 14(1): 17-25.

[31] VELAMAKANNI B V, CHANG J C, LANGE F F, et al. New method for efficient colloidal particle packing via modulation of repulsive lubricating hydration forces［J］. Langmuir, 2002, 6(7): 1323-1325.

[33] LI X, ZHONG H, ZHANG J, et al. Powder characteristics on the rheological performance of resin-based zirconia suspension for stereolithography［J］. J Inorg Mater, 2020, 35(2): 5.

[34] MARON S, PIERCE P. Application of ree-eyring generalized flow theory to suspensions of spherical particles［J］. J Colloid Sci, 1956, 11(1): 80-95.

[36] FAN Z, CHEN J Y. Modelling of rheological behaviour of semisolid metal slurries Part 2-Steady state behaviour［J］. Mater Sci Technol, 2013, 18(3): 243-249.