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Автор: Grafiati
Опубліковано: 20 червня 2021
Оновлено: 9 лютого 2022

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1

Corbin, Normand D. "Aluminum oxynitride spinel: A review." Journal of the European Ceramic Society 5, no. 3 (January 1989): 143–54. http://dx.doi.org/10.1016/0955-2219(89)90030-7.

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2

Dravid, V. P., J. A. Sutliff, A. D. Weslwood, M. R. Nolts, and C. E. Lyman. "Centrosymmetric and nonsymmorphic aluminum oxynitride spinel." Proceedings, annual meeting, Electron Microscopy Society of America 47 (August 6, 1989): 512–13. http://dx.doi.org/10.1017/s0424820100154536.

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There is considerable controversy concerning the point and space group of crystals based on the spinel structure. The debated question is whether the space group of spinel crystals is or . has noncentrosymmetric point group and is symmorphic; has centrosymmetric point group and is nonsymmorphic. One characteristic of the space group that distinguishes it from is that reflections hkl such that h+k, k+l, h+l ≠ 4n, for example {200}, are kinematically forbidden.MgAl2O4 spinel was studied by Steeds and Evans whose observations of {200} reflections in {001} ZAPs lead them to conclude that the space group of this crystal was . de Coomen and Carter also investigated MgAl2O4 spinel and came to the same conclusion. Although these authors do emphasize the importance of a HOLZ contribution to double diffraction, they do not show the effect of changes in accelerating voltage on the HOLZ segment responsible for double diffraction. To clearly show that {200} reflections appear only as a result of double diffraction via HOLZ, it is essential to observe both the {200} reflections and the HOLZ segment as a function of accelerating voltage.
3

Okeke, Onyekwelu U., and J. E. Lowther. "Elastic constants of oxynitride aluminum spinel phases." Chemical Physics Letters 494, no. 4-6 (July 2010): 323–25. http://dx.doi.org/10.1016/j.cplett.2010.06.015.

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4

Hirai, Shinji, Hideaki Murakami, Hiroshi G. Katayama, Yoichiro Uemura, and Mamoru Mitomo. "Formation of Aluminum Oxynitride Spinel from Alumina and Aluminum Nitride." Journal of the Japan Institute of Metals 58, no. 6 (1994): 648–53. http://dx.doi.org/10.2320/jinstmet1952.58.6_648.

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5

TAKEBE, Hiromichi, Tsuneji KAMEDA, Michiyasu KOMATSU, Katsutoshi KOMEYA, and Kenji MORINAGA. "Fabrication of Translucent Sintered Aluminum Oxynitride Spinel (AlON)." Journal of the Ceramic Society of Japan 97, no. 1122 (1989): 166–73. http://dx.doi.org/10.2109/jcersj.97.166.

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6

KIM, IL-UNG, and VON L. RICHARDS. "High-Temperature Electrical Conductivity of Aluminum Oxynitride Spinel." Journal of the American Ceramic Society 68, no. 8 (August 1985): C—210—C—212. http://dx.doi.org/10.1111/j.1151-2916.1985.tb10187.x.

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7

Ruan, Guozhi, Haisen Xu, Zhihui Zhang, Mingqiang Yin, Guogang Xu, and Xiaoyuan Zhan. "New Method of Synthesizing Aluminum Oxynitride Spinel Powders." Journal of the American Ceramic Society 96, no. 6 (April 29, 2013): 1706–8. http://dx.doi.org/10.1111/jace.12366.

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8

Granon, Arielle, Patrice Goeuriot, and François Thevenot. "Aluminum magnesium oxynitride: A new transparent spinel ceramic." Journal of the European Ceramic Society 15, no. 3 (January 1995): 249–54. http://dx.doi.org/10.1016/0955-2219(95)93946-z.

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9

GRANON, A., P. GOEURIOT, and F. THEVENOT. "ChemInform Abstract: Aluminum Magnesium Oxynitride: A New Transparent Spinel Ceramic." ChemInform 26, no. 33 (August 17, 2010): no. http://dx.doi.org/10.1002/chin.199533022.

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10

Sun, Cheng Gong, Jin Ye Niu, Chong Hai Wang, Chang Ling Zhou, Bao Lin Feng, Jie Fan, Yan Yan Wang та Jian Shan Hao. "Preparation of Aluminum Oxynitride Spinel γ-ALON Powders and Transparent Ceramics". Advanced Materials Research 105-106 (квітень 2010): 582–84. http://dx.doi.org/10.4028/www.scientific.net/amr.105-106.582.

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With AlN, Al2O3 and Al powders as starting materials, ALON powders were prepared by high temperature solid state reaction at 1650°C, 1750°C and 1850°C respectively. Nitrogen gas at 1atm was selected as reaction atmosphere. X-ray diffraction analysis and scanning electron microscope analysis were carried out for the as-prepared ALON powders. In this paper, single-component γ-ALON porous materials were obtained at temperatures below 1800 degree with void ratio more than 75%, which is prone to be grinded to powders less than 1μm and applicable for the preparation of transparent ceramics. Aluminum oxynitride spinel γ-ALON transparent ceramics were successfully obtained with the as-prepared ALON powders. The volume density of the transparent ceramics was 3.67g/cm2, which is 99.3 percent of the theoretical density of γ-ALON materials. The bending strength of the transparent ceramics was 296MPa and the transmittance was about 75% in the wavelength range of 1.2 to 5.3μm.
11

Bućko, Mirosław M., Jakub Domagała, and Radosław Lach. "Consolidation of Aluminium Oxynitride Powders Using Hydrolysis of Aluminium Nitride." Key Engineering Materials 602-603 (March 2014): 170–74. http://dx.doi.org/10.4028/www.scientific.net/kem.602-603.170.

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One of the materials with high potential for application as a refractory material is aluminum oxynitride with spinel-type structure, γ-alon. Alon materials, single-phase or composites, are characterized by good mechanical properties, high thermal shock resistance and a high corrosion and erosion resistance. Another advantage is possibility of usage of SHS method for producing of relatively good sinterable powders of γ-alon, however, are characterized by poor compressibility. This paper describes a method of compaction of SHS-derived γ-alon powder using the hydrolysis reaction of aluminum nitride, which is one of the products of SHS synthesis. The green bodies made from the powder with addition of 10 mas.% of water after two weeks of storage reach a strength level up to 30 MPa and an open porosity of less than 30%. Pressureless sintering of the such compacts allows to achieve 95% of theoretical density at 1700°C in less than one minute.
12

GRAHAM, EARL K., W. C. MUNLY, JAMES W. McCAULEY, and NORMAN D. CORBIN. "Elastic Properties of Polycrystalline Aluminum Oxynitride Spinel and Their Dependence on Pressure, Temperature, and Composition." Journal of the American Ceramic Society 71, no. 10 (October 1988): 807–12. http://dx.doi.org/10.1111/j.1151-2916.1988.tb07527.x.

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13

Bodhak, Subhadip, Vamsi Krishna Balla, Susmita Bose, Amit Bandyopadhyay, Uday Kashalikar, Santosh K. Jha, and Suri Sastri. "In vitro biological and tribological properties of transparent magnesium aluminate (Spinel) and aluminum oxynitride (ALON®)." Journal of Materials Science: Materials in Medicine 22, no. 6 (May 12, 2011): 1511–19. http://dx.doi.org/10.1007/s10856-011-4332-5.

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14

Jinlin, Yang, and Xiao Hanxin. "Preparation and Oxidation Behavior of Metallic Nickel Containing MgAlON Composite." High Temperature Materials and Processes 37, no. 6 (June 26, 2018): 563–69. http://dx.doi.org/10.1515/htmp-2016-0097.

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AbstractTo survey the probability of the re-utilization of nickel containing slag corroded magnesia and alumina-graphite refractories, different amounts of nickel oxide (NiO) were used as one of raw materials to synthesize nickel containing magnesium aluminum oxynitride (MgAlON) composites, and the sintering and oxidation behavior have been explored in this work. The results reveal that with the increasing NiO additive, submicron metallic Ni grains are segregated from the (Ni,Mg)AlON spinel, and these grains are beneficial to improve thermal shock resistance of MgAlON. Though the oxidation reaction of (Ni,Mg)AlON starts at lower temperature than MgAlON, the metallic Ni grains in the plate can improve the oxidation resistance. Hence, the metallic nickel containing (Ni,Mg)AlON composite has not only superior thermal shock resistance but also excellent oxidation resistance, and it is of great potential to utilize in plant. So, the fabrication of metallic nickel containing (Ni,Mg)AlON composite should be a feasible way to reuse the nickel slag corroded magnesia and alumina graphite refractories.
15

Dravid, Vinayak P., John A. Sutliff, Alistair D. Westwood, M. R. Notis, and C. E. Lyman. "On the space group of aluminium oxynitride spinel." Philosophical Magazine A 61, no. 3 (March 1990): 417–34. http://dx.doi.org/10.1080/01418619008231925.

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16

Lefebvre, A., D. Jacob, and Y. Androussi. "Periodic antiphase boundary spinel-based structures in aluminates, gallates, aluminium oxynitrides and transition aluminas." Philosophical Magazine 85, no. 20 (July 11, 2005): 2211–25. http://dx.doi.org/10.1080/14786430500079504.

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17

Zientara, Dariusz, Mirosław M. Bućko та Jerzy Lis. "Dense γ-Alon Materials Derived from SHS Synthesized Powders". Advances in Science and Technology 45 (жовтень 2006): 1052–57. http://dx.doi.org/10.4028/www.scientific.net/ast.45.1052.

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Dense polycrystalline aluminium oxynitride with spinel structure, γ-alon, is noted for its excellent thermal properties, high-temperature mechanical properties, low dielectric constant, thermal expansion coefficients and intrinsic transparency extending from ultraviolet to mid-infrared wavelengths. The conventional way for synthesis of γ-alon powder is high-temperature reaction of aluminium nitride and corundum in pure nitrogen or a vacuum. The dense materials are made by reactive pressureless sintering or hot-pressing of a powder compact. This work is focused on preparation of γ-alon materials derived from SHS synthesized powders. The powders for sintering were synthesized from mixtures of aluminium and corundum powders of different proportions. The products of the SHS synthesis were composed mostly of γ-alon and aluminium nitride with small amount of non-reacted substrates. Ground powders were hot-pressed at 1750, 1850 and 1950°C for 1 h under 25 MPa in nitrogen flow. Such procedure allowed dense material composed of pure γ-alon with good mechanical properties to obtain.
18

Zientara, Dariusz, Mirosław M. Bućko та Jerzy Lis. "Investigation of γ-Alon Structural Evolution during Sintering and Hot-Pressing". Key Engineering Materials 409 (березень 2009): 313–16. http://dx.doi.org/10.4028/www.scientific.net/kem.409.313.

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Dense polycrystalline aluminium oxynitride with spinel structure, -alon, is noted for its excellent thermal properties, high-temperature mechanical properties, low dielectric constant, thermal expansion coefficients and intrinsic transparency extending from ultraviolet to mid-infrared wavelengths. The dense materials were made by reactive pressureless sintering or hot-pressing of the SHS derived powders. Powders were synthesized from mixtures of aluminium and corundum powders of different proportions. The products of the SHS synthesis were composed mostly of -alon and in lesser extend of aluminium nitride. Ground powders were pressureless sintered at temperatures of 1800-2100°C for 2-6hs as well as hot-pressed at 1750-1950°C for 1 h under 25 MPa in nitrogen flow. The present work is focused on phase evolution of -alon materials during pressureless sintering and hot-pressing. The structural changes of -alon, a Al2O3 and AlN were also examined.
19

Parker, C. A., L. W. Hobbs, K. C. Russell, and F. W. Clinard. "Damage structures in fast neutron irradiated magnesium aluminate and electron irradiated aluminum oxynitride spinels." Journal of Nuclear Materials 133-134 (August 1985): 741–44. http://dx.doi.org/10.1016/0022-3115(85)90248-x.

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20

Clayton, J. D. "A Nonlinear Thermomechanical Model of Spinel Ceramics Applied to Aluminum Oxynitride (AlON)." Journal of Applied Mechanics 78, no. 1 (October 20, 2010). http://dx.doi.org/10.1115/1.4002434.

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A continuum model is developed for describing deformation and failure mechanisms in crystalline solids (ceramics and minerals) with the cubic spinel structure. The constitutive model describes the response under conditions pertinent to impact loading: high pressures, high strain rates, and, possibly, high temperatures. Nonlinear elasticity, anisotropy, thermoelastic coupling, dislocation glide, twinning, shear-induced fracture, and pressure-induced pore collapse are addressed. The model is applied to enable an improved understanding of transparent ceramic aluminum oxynitride (AlON). Calculations demonstrate an accurate depiction of hydrostatic and shear stresses observed experimentally in shock-loaded polycrystalline AlON. Various choices of initial resistances to slip, twinning, or shear fracture that result in similar predictions for average stresses in polycrystals but different predictions for defect densities (accumulated dislocations and twin volume fractions) are investigated. Predictions for single crystals provide insight into grain orientation effects not available from previous experimental investigations.
21

GRAHAM, E. K., W. C. MUNLY, J. W. MCCAULEY, and N. D. CORBIN. "ChemInform Abstract: Elastic Properties of Polycrystalline Aluminum Oxynitride Spinel and Their Dependence on Pressure, Temperature, and Composition." ChemInform 19, no. 52 (December 27, 1988). http://dx.doi.org/10.1002/chin.198852014.

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