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Ca_(0.6)Mg_(0.4)Zr_4(PO_4)_6涂层改善堇青石陶瓷耐碱腐蚀性能的研究(英文) 被引量:1

Enhancement of Alkali Corrosion Resistance of Cordierite Ceramic by Deposition Ca_(0.6)Mg_(0.4)Zr_4(PO_4)_6 Coating
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摘要 本文采用溶胶-凝胶法和浸渍涂覆技术在致密堇青石陶瓷表面制备了Ca0.6Mg0.4Zr4(PO4)6(C0.6M0.4ZP)涂层,采用XRD、SEM等分析手段研究了涂层的相组成和微观结构,并通过分别测定涂覆和未涂覆涂层试样在1000℃下受腐蚀后的质量损失和强度变化,对涂层的耐碱腐蚀性能进行了表征。结果表明,在堇青石表面制备的涂层均匀致密,由单相的C0.6M0.4ZP组成。SEM分析表明涂层与堇青石基体间结合良好。C0.6M0.4ZP涂层具有较好的耐碱腐蚀性能,可显著提高堇青石陶瓷的高温耐碱腐蚀性能。 Ca0. 6 Mg0. 4Zr4 ( PO4 ) 6 ( C0. 6 M0. 4 ZP) coating on dense cordierite ceramic was prepared through sol-gel method and dip-coating technique. The phase composition and microstructure of the coating were characterized by XRD and SEM. The assessment of coating alkali corrosion resistance was done through the measurements of weight loss and flexural strength degradation after 48h and longer exposure time in alkali vapor corrosion at 1000℃. It is found that homogeneous, dense and single-phase C0.6M0.4ZP coating was successfully deposited on cordierite ceramic. SEM microstructural examination also reveals the excellent bonding between C0.6M0.4ZP coating and cordierite matrix. C0.6 M0.4ZP coating has good alkali corrosion resistance property and can greatly improve the high temperature alkali corrosion resistance of the cordierite.
出处 《人工晶体学报》 EI CAS CSCD 北大核心 2007年第1期184-190,共7页 Journal of Synthetic Crystals
基金 The project supported by the China International Science and Technology Corporation Program(2005DFA50450) Torch Program in Jiangxi province(20031C0200600)
关键词 溶胶-凝胶法 涂层 显微结构 耐碱腐蚀 sol-gel method coating microstructure alkali corrosion resistance
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  • 1Roode M V,Price J R.Comparative Evaluation of High Temperature Coatings for Corrosion Protection of Fuel Injector Tips[J].Ceram.Eng.Sci.Proc.,1988,9(9-10):1245.
  • 2Alvin M A,Lippert T E,Lane J E.Assessment of Porous Ceramic Materials for Hot Gas Filtration Applications[J].Am.Ceram.Soc.Bull.,1991,70(9):1491.
  • 3Higashi K,Maeno H.The Latest Status of the Development of the Advanced Ceramic Tube Filters[J].Reports Res.Lab.Asahi Glass Co.,Ltd,1992,42(1):81.
  • 4Bianco R,Jacobson N.Corrosion of Cordierite Ceramics by Sodium Sulphate at 1000℃[J].J.Mater.Sci.,1989,(24):2903.
  • 5Takahashi J,Kawai Y,Shimada S.Hot Corrosion of Cordierite Ceramics by Na-and k-salts[J].J.Euro.Ceram.Soc.,1998,(18):1121.
  • 6Jacobson N S,Opila E J,Lee K N.Oxidation and Corrosion of Ceramics and Ceramic Matrix Composites[J].Current Opinion in Solid State and Materials Science.2001,(5):301.
  • 7Li T K,Hirschfeld D A,Vanaken S,et al.The Synthesis,Sintering,and Thermal Properties of Ca1-xMgxZr4(PO4)6 (CMZP) Ceramics[J].J.Mater.Res.,1993,8(11):2954.
  • 8Russ W M,Structure,Property,and Processing Relationship of Ca0.6Mg0.4Zr4(PO4)6 (D)[M].Master's Thesis,Dept.,Materials Science and Engineering,Virginia Tech.,1994.
  • 9Breval E,Mckinstry H A,Agrawal D K.New[NZP] Materials for Protection Coatings-Tailoring of Thermal Expansion[J].J.Mater.Sci.,2000,(35):3359.
  • 10Pickrell G R,Sun T.High Temperature Alkali Corrosion Resistance of SiC and Si3N4[J].Fuel Processing Technology,1995,(44):213-216.

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