منابع و مأخذ:
1- R. A. Cutler, “Engineering properties ofborides”, Engineering MaterialsHandbook, Vol. 4, Ceramics and Glasses,
ASM international, The MaterialsInformation Society, New York, 1991.
2- M. F. Ashby, “Materials selection inmechanical design”, 3rd ed., ButterworthHeinemann,London, 2005.
3- S. R, Levine, E. J. Opila, M. C. Halbig,J. D. Kiser, M. Singh and J. A. Salem,“Evaluation of ultra-high temperatureceramics foraeropropulsion use”, Journalof the European Ceramic Society, Vol. 22,pp. 2757-2767, 2002.
4- M. Singh and H. Wiedemeier,“Chemical interactions in diboridereinforcedoxide-matrix composites”,Journal of the American Ceramic Society,Vol. 74, pp. 724-727, 1991.
5- F. Monteverde, “Progress in thefabrication of ultra-high-temperatureceramics: “in situ” synthesis,microstructure and properties of a reactivehot-pressed HfB2–SiC composite”,Composites Science and Technology, Vol.65, pp. 1869-1879, 2005.
6- M.N. Rahaman, “Ceramic Processing”,CRC/Taylor & Francis, New York, 2007.
7- K.V. Logan, “Elastic-plastic behavior ofhot pressed composite titaniumdiboride/alumina powders produced using
self-propagation high temperaturesynthesis”, ph. D. thesis, The GeorgiaInstitute of Technology: Materials Science
and Engineering, Georgia, 1992.
8- W. Stadlbauer, W. Kladnig and G.Gritzner, “Al2O3-TiB2 CompositeCeramics”, Journal of Materials Science,Vol. 8, pp. 1217-1220, 1989.
9- A. R. Keller and M. Zhou, “Effect ofmicrostructure on dynamic failureresistance of titanium diboride/alumina
ceramics”, Journal of the AmericanCeramic Society, Vol. 86, pp. 449-457,
2003.
10- J. W. Adams, G. A. Gilde, M. Burkinsand L. P. Franks, “Microstructuredevelopment of aluminum oxide/titanium
diboride composites for penetrationresistance”, Ceramic Transactions, Vol.134, pp. 629-634, 2002.
11- A. Rabiezadeh, A. Ataie and A. M.Hadian, “Mechano-chemical synthesis ofTiB2-Al2O3 nano-composite by reaction
between TiO2, B2O3 and Al”, AdvancedMaterials Research, Vol. 488-489, pp.955-959, 2012.
12- W. Stadlbauer, W. Kladnig and G.Gritzner, “Al2O3-TiB2 CompositeCeramics”, Journal of Materials Science,Vol. 8, pp. 1217-1220, 1989.
13- M. A. Meyers, “Combustionsynthesis/densification of an Al2O3-TiB2composite”, Materials Science and
Engineering A, Vol. 311, pp. 83-99, 2001.
14- W. Deqing, “Effects of additives oncombustion synthesis of Al2O3-TiB2ceramic composite”, Journal of theEuropean Ceramic Society, Vol. 29, pp.1485-1492, 2009.
15- E. M. Sharif, F. Karimzadeh and M. H.Enayati, “Synthesis of titanium diboridereinforced alumina matrix nanocompositeby mechanochemical reaction of Al-TiO2-B2O3”, Journal of Alloys and Compounds,Vol. 502, pp. 508-512, 2010.
16- E. M. Sharif, F. Karimzadeh, M. H.Enayati, “Preparation of Al2O3-TiB2
nanocomposite powder by mechanochemiclreaction between Al, B2O3 and Ti”, Advanced Powder Technology, Vol. 22, pp. 526-531,2011.
17- L. Guoxi, Y. Dongming and Z. Jinyong,“Microstructure and mechanical properties ofTiB2-Al2O3 composites”, Journal of WuhanUniversity of Technology, Vol. 26, pp. 696-699, 2011.
18- T. Sato, Y. Sasaki and I. Saeki, “Influenceof processing condition of Ti, Al and B2O3mixed powders on the preparation of Al2O3-40.5 mass% TiB2 sintered compact by HIP”,Journal of the Ceramic Society of Japan, Vol.119, pp. 502-506, 2011.
19- R. T. Mousavian, S. Sharafi, M. R. Roshanand M. H. Shariat, “Effect of mechanicalactivation of reagents’ mixture on the hightemperaturesynthesis of Al2O3-TiB2 compositepowder”, Journal of Thermal Analysis andCalorimetry, Vol. 104, pp. 1063-1070, 2011.
20- R. T. Mousavian, S. Sharafi and M. H.Shariat, “Preparation of nano-structural Al2O3-TiB2 in-situ composite using mechanicallyactivated combustion synthesis followed byintensive milling”, Iranian Journal of MaterialsScience & Engineering, Vol. 8, pp. 1-9, 2011.
21- A. Rabiezadeh, A. M. Hadian and A.Ataie, “Preparation of alumina/titaniumdiboride nano-composite powder by millingassisted sol-gel method”, International Journalof Refractory Metals and Hard Materials, Vol.31, pp. 121-124, 2012.
22- A. Rabiezadeh, A. Ataie and A. M.Hadian, “Sintering of Al2O3-TiB2 nanocomposite
derived from milling assisted solglmethod”, International Journal ofRefractory Metals and Hard Materials, Vol. 33,
pp. 58-64, 2012.
23- ح. ر. عزت پور، م. ح. سبزوار، ج. وحدتی خاکی و ح.حمیدی، "تولید در جای نانوکامپوزیت Cu-Cr)-Al2O3) بهروش مکانوشیمیایی"، مجلهی مواد نوین، سال 1، شماره 1، ص.1389 پاییز ،48-39
24- I. Kimura, N. Hotta, Y. Hiraoka, N. Saitoand Y. Yokota, “Sintering and characterizationof Al2O3-TiB2 composites”, Journal of theEuropean Ceramic Society, Vol. 5, pp. 23-27,1989.
25- L. J. Kecskes, A. Niiler, T. Kottke, K. V.Logan and G. R. Villalobos, “Dynamicconsolidation of combustion-synthesizedalumina-titanium diboride compositeceramics”, Journal of the American CeramicSociety, Vol. 79, pp. 2687-2695, 1996.
26- ASTM B 328-96 (Reapproved 2003) –Standard test method for “Density, oil content,and interconnected porosity of sintered metalstructural parts and oil-impregnated bearings”,2003.
27- ASTM C 1327-08 – Standard test methodfor “Vickers indentation hardness of advancesceramics”, 2008.
28- G. R. Anstis, P. Chantikul, B. R. Lawn andD. B. Marshall, “A critical evaluation ofindentation techniques for measuring fracturetoughness: I, direct crack measurements”,Journal of the American Ceramic Society, Vol.64, pp. 533538, 1981.
29- M. P. Hunt, “Pressureless densification ofSHS produced alumina - titanium diborideceramic matrix composite”, M.Sc. Thesis,Virginia Polythechnic Institute and StateUniversity, Virginia, 2009.
30- S. H. Kenawy, “Synthesis andcharacterization of aluminum borate ceramicwhiskers”, International Journal of AppliedCeramic Technology, Vol. 8, pp. 783-792,2011.
31- I. E. Gönenli and A. C. Tas, “Chemicalpreparation of aluminum borate whiskers”,Powder Diffraction, Vol. 15, pp. 104-107,2000.
32- I. Carazeanu, V. Ciupina, G. Prodan and C.Guguta, “Chemical synthesis of Al18B4O33 formetal matrix composites”, 12th RomanianInternational Conference on Chemistry andChemical Engineering, Bucharest, 2001.
33- L. P. Franks, “Colloidal processing oftitanium diboride/alumina (TiB2/Al2O3)”,M.Sc. Thesis, Michigan State University,Michigan, 2001.
34- P. Li, W. Zhou, J. Zhu, F. Luo and D. Zhu,“Influence of TiB2 content and powder size onthe dielectric property of TiB2/Al2O3composites”, Scripta Materialia, Vol. 60, pp.760-763, 2009.
35- V. I. Vershinnikov, S. S. Mamyan and G.Georgiev, “Regularities of the synthesis of theTiB2-Al2O3 composite ceramic powder and thematerial based on it”, Journal of EngineeringPhysics and Thermophysics, Vol. 65, pp.1030-1033, 1993.
36- D. Jianxin, C. Tongkun and L. Lili, “Selflubricatingbehaviors of Al2O3/TiB2 ceramictools in dry high-speed machining of hardened steel”, Journal of the European CeramicSociety, Vol. 25, pp. 1073-1079, 2005.
37- D. Jianxin and A. Xing, “Wear resistanceof Al2O3/TiB2 ceramic cutting tools in slidingwear tests and in machining processes”,Journal of Materials Processing Technology,Vol. 72, pp. 249-255, 1997.
38- S. H. Kang, D. J. Kim, E. S. Kang and S.S. Baek, “Pressureless sintering and propertiesof titanium diboride ceramics containingchromium and iron”, Journal of the AmericanCeramic Society, Vol. 84, pp. 893-895, 2001.
39- M. Einarsrud, E. Hagen, G. Pettersen andT. Grande, “Pressureless sintering of titaniumdiboride with nickel, nickel boride, and ironadditives”, Journal of the American CeramicSociety, Vol. 80, pp. 3013-3020, 1997.
40- J. I. Goldstein, C. E. Lyman, D. E.Newbury, E. Lifshin, P. Echlin, L. Sawyer, D.C. Joy and J. R. Michael, “Scanning electronmicroscopy and x-ray microanalysis”, 3rdedition, Kluwer Academic/Plenum Publishers,
New York, 2003.