Transparent ceramics: Processing, materials and applications
暂无分享,去创建一个
Dingyuan Tang | Tianshu Zhang | Ling Bing Kong | Feng Gu | Shufen Wang | Wenxiu Que | Jian Zhang | D. Luo | L. Kong | W. Que | Tianshu Zhang | Sean Li | Jian Zhang | Z. Dong | D. Tang | F. Gu | Shufen Wang | G. Tan | Sean Li | Zhili Dong | Dewei Luo | Geoffrey E.B. Tan
[1] Jingxian Zhang,et al. Synthesis of mono-dispersed spherical Nd:Y2O3 powder for transparent ceramics , 2011 .
[2] Y. Fujimoto,et al. Properties of transparent Ce:YAG ceramic phosphors for white LED , 2011 .
[3] K. Morita,et al. Microstructure and optical properties of transparent alumina , 2009 .
[4] R. Feigelson,et al. Effect of Europium Concentration on Densification of Transparent Eu:Y2O3 Scintillator Ceramics Using Hot Pressing , 2010 .
[5] J. Ballato,et al. Submicrometer Grain-Sized Transparent Erbium-Doped Scandia Ceramics , 2010 .
[6] Akio Ikesue,et al. Fabrication of Polycrystal line, Transparent YAG Ceramics by a Solid‐State Reaction Method , 1995 .
[7] R. Chaim,et al. Optically transparent ceramics by spark plasma sintering of oxide nanoparticles , 2010 .
[8] Moon J. Kim,et al. Retention of nanostructure in aluminum oxide by very rapid sintering at 1150 °C , 1995 .
[9] S. Prochazka,et al. Infrared-transparent mullite ceramic , 1983 .
[10] Ken-ichi Ueda,et al. Yb3+:Y2O3 Ceramics – a Novel Solid-State Laser Material , 2002 .
[11] Shengming Zhou,et al. White light emission in Tm3+/Er3+/Yb3+ tri-doped Y2O3 transparent ceramic , 2011 .
[12] E. Djurado,et al. Influence of green state processes on the sintering behaviour and the subsequent optical properties of spark plasma sintered alumina , 2009 .
[13] D. Jiang,et al. Fabrication of transparent La2Hf2O7 ceramics from combustion synthesized powders , 2005 .
[14] Wenbin Liu,et al. Fabrication, microstructure and optical properties of polycrystalline Er3+:Y3Al5O12 ceramics , 2011 .
[15] Georges Boulon,et al. Overview of the best Yb3+-doped laser crystals , 2001 .
[16] You Zhou,et al. Densification and grain growth in pulse electric current sintering of alumina , 2004 .
[17] T. Goto,et al. Two-step pressure sintering of transparent lutetium oxide by spark plasma sintering , 2011 .
[18] Jasbinder S. Sanghera,et al. VIS-IR transmitting windows , 2005, SPIE Defense + Commercial Sensing.
[19] Yoichi Sato,et al. Absorption, emission spectrum properties, and efficient laser performances of Yb:Y3ScAl4O12 ceramics , 2004 .
[20] R. Newnham,et al. Electrostriction in Pb (Zn13Nb23)O3 , 1979 .
[21] Shengming Zhou,et al. Effect of Nd concentration on structural and optical properties of Nd:Y2O3 transparent ceramic , 2011 .
[22] Qi-Wen Chen,et al. Processing and scintillation properties of Eu3+ doped Lu2O3 transparent ceramics , 2009 .
[23] K. Morita,et al. Fabrication of transparent MgAl2O4 spinel polycrystal by spark plasma sintering processing , 2008 .
[24] Jing Sun,et al. Highly Transparent Alumina Spark Plasma Sintered from Common-Grade Commercial Powder: The Effect of Powder Treatment , 2010 .
[25] I. Cutler,et al. Preparation of Sinterable Cubic Aluminum Oxynitride by the Carbothermal Nitridation of Aluminum Oxide , 1981 .
[26] Yucheng Wang,et al. Fabrication of transparent AlN ceramics , 2006 .
[27] G. Gilde,et al. Spinel Armor ‐ Clearly the Way to Go , 2012 .
[28] F. W. Vahldiek. Translucent ZrO2 prepared at high pressures , 1967 .
[29] Hongwei Ma,et al. Transparent Sintered Corundum with High Hardness and Strength , 2003 .
[30] S. Jacobs,et al. Effect of LiAl5O8 additions on the sintering and optical transparency of LiAlON , 2006 .
[31] C. T. Moynihan,et al. Chemical Durability of Fluoride Glasses , 1991 .
[32] Zhe Zhao,et al. Transparent polycrystalline alumina using spark plasma sintering: Effect of Mg, Y and La doping , 2010 .
[33] Christopher E. Cooper,et al. The Production of Transparent MgAl2O4 Ceramic Using Calcined Powder Mixtures of Mg(OH)2 and γ‐Al2O3 or AlOOH , 2011 .
[34] D. He,et al. High-pressure sintering mechanism of yttrium aluminum garnet (Y3Al5O12) transparent nanoceramics , 2012 .
[35] Stephen A. Payne,et al. Cerium-doped single crystal and transparent ceramic lutetium aluminum garnet scintillators , 2007 .
[36] V. Gopalan,et al. Three-dimensional grain boundary spectroscopy in transparent high power ceramic laser materials. , 2008, Optics express.
[37] K. Morita,et al. Optimization of high-pressure sintering of transparent zirconia with nano-sized grains , 2010 .
[38] A. Bhalla,et al. Piezoelectric and dielectric properties of transparent Pb(Ni1/3Nb2/3)1−x−yZrxTiyO3 ceramics prepared by hot isostatic pressing , 2001 .
[39] Di Zhang,et al. Influence of pH values on (Nd + Y):Al molar ratio of Nd:YAG nanopowders and preparation of transparent ceramics , 2010 .
[40] Nerine J. Cherepy,et al. Transparent Lu2O3:Eu ceramics by sinter and HIP optimization , 2011 .
[41] Zhe Zhao,et al. Transparent MgAl2O4 ceramic produced by spark plasma sintering , 2009 .
[42] Hayashi Koichi,et al. Transmission Optical Properties of Polycrystalline Alumina with Submicron Grains , 1991 .
[43] N. Frage,et al. Spark plasma sintering (SPS) of transparent magnesium-aluminate spinel , 2007 .
[44] Anthony A. DiGiovanni,et al. Hard transparent domes and windows from magnesium aluminate spinel , 2005, SPIE Defense + Commercial Sensing.
[45] Ken-ichi Ueda,et al. Neodymium doped yttrium aluminum garnet (Y3Al5O12) nanocrystalline ceramics—a new generation of solid state laser and optical materials , 2002 .
[46] D. Luo,et al. Fabrication and plasma resistance properties of transparent YAG ceramics , 2012 .
[47] Klaus Petermann,et al. New Oxide Crystals for Solid State Lasers , 1999 .
[48] Zhe Zhao,et al. Preparation and properties of lead zirconate stannate titanate sintered by spark plasma sintering , 2004 .
[49] G. C. Wei,et al. Transparent ceramic lamp envelope materials , 2005 .
[50] Jimei Ma,et al. Preparation and characterization of translucent PLZT8/65/35 ceramics from nano-sized powders produced by a high-energy ball-milling process , 2001 .
[51] M. Kalina,et al. Transparent yttrium aluminum garnet (YAG) ceramics by spark plasma sintering , 2007 .
[52] J. A. Pask,et al. Effect of LiF on Creep of MgO , 1971 .
[53] Ishwar D. Aggarwal,et al. Transparent ceramics for high-energy laser systems , 2011 .
[54] H. Dammak,et al. Freeze-dried nanometric neodymium-doped YAG powders for transparent ceramics , 2008 .
[55] A. Krell,et al. Transparent ceramics for structural applications: Part 2: Fields of applications , 2007 .
[56] T. Kusunose,et al. Transparent 8 mol% Y2O3–ZrO2 (8Y) Ceramics , 2008 .
[57] T. Mori,et al. Solution-based processing of Sc2O3 nanopowders yielding transparent ceramics , 2004 .
[58] R. A. Lefever,et al. TRANSPARENT YTTRIUM OXIDE CERAMICS. , 1967 .
[59] X. F. Yang,et al. Fabrication of injection moulded translucent alumina ceramics via pressureless sintering , 2011 .
[60] Wei Liu,et al. Injection molding of surface modified powders with high solid loadings: A case for fabrication of translucent alumina ceramics , 2011 .
[61] Ying Shi,et al. Fabrication and Photoluminescence Characteristics of Eu3+‐Doped Lu2O3 Transparent Ceramics , 2006 .
[62] Zhe Zhao,et al. Spark Plasma Sintering of Alumina , 2002 .
[63] X. Zhao,et al. The pressureless sintering and mechanical properties of AlON ceramic , 2011 .
[64] Aurelia Lupei,et al. Crystal field analysis of Er3+ in Sc2O3 transparent ceramics , 2010 .
[65] A. Krell,et al. Fine‐Grained Transparent Spinel Windows by the Processing of Different Nanopowders , 2010 .
[66] Jiangxu Li,et al. Fabrication of Cr4+,Nd3+:YAG transparent ceramics for self-Q-switched laser , 2006 .
[67] Yubai Pan,et al. Optical properties of Er, Yb co-doped YAG transparent ceramics , 2011 .
[68] K. Uematsu,et al. Plasma‐Resistant Dense Yttrium Oxide Film Prepared by Aerosol Deposition Process , 2007 .
[69] A. Azad,et al. Magnesium aluminate (MgAl2O4) spinel produced via self-heat-sustained (SHS) technique , 2001 .
[70] D. Luo,et al. Fabrication and properties of highly transparent Er:YAG ceramics , 2012 .
[71] R. J. Bratton. Translucent Sintered MgAl2O4 , 1974 .
[72] Hong Liu,et al. Novel synthesis of YAG by solvothermal method , 2005 .
[73] R. Roy,et al. Microwave reactive sintering to fully transparent aluminum oxynitride (ALON) ceramics , 2001 .
[74] J. Mccauley,et al. Phase Relations and Reaction Sintering of Transparent Cubic Aluminum Oxynitride Spinel (ALON) , 1979 .
[75] T. Ikoma,et al. Fabrication of Transparent Hydroxyapatite Sintered Body with High Crystal Orientation by Pulse Electric Current Sintering , 2004 .
[76] B. Lu,et al. Synthesis of nanocrystalline Sc2O3 powder and fabrication of transparent Sc2O3 ceramics , 2011 .
[77] Shengming Zhou,et al. Fabrication of Nd:YAG transparent ceramics with TEOS, MgO and compound additives as sintering aids , 2010 .
[78] Jingxian Zhang,et al. Fabrication of Transparent Lanthanum‐Doped Yttria Ceramics by Combination of Two‐Step Sintering and Vacuum Sintering , 2009 .
[79] Shiwei Wang,et al. Transparent Polycrystalline Alumina Ceramics with Orientated Optical Axes , 2008 .
[80] H. Kleebe,et al. Chemical Interaction Between LiF and MgAl2O4 Spinel During Sintering , 2007 .
[81] Rolf Apetz,et al. Transparent Alumina: A Light‐Scattering Model , 2003 .
[82] T. Mori,et al. Fabrication of transparent Sc_2O_3 ceramics with powders thermally pyrolyzed from sulfate , 2003 .
[83] Owen B. Drury,et al. Transparent ceramic scintillators for gamma spectroscopy and radiography , 2010, Optical Engineering + Applications.
[84] Yi-bing Cheng,et al. Microstructural Tailoring and Characterization of a Calcium α‐SiAlON Composition , 2004 .
[85] Gary L. Messing,et al. Solid‐State Reactive Sintering of Transparent Polycrystalline Nd:YAG Ceramics , 2006 .
[86] J. Baumard,et al. Light scattering by pores in transparent Nd:YAG ceramics for lasers: correlations between microstructure and optical properties. , 2010, Optics express.
[87] J. Ballato,et al. Synthesis, Processing, and Properties of Submicrometer-Grained Highly Transparent Yttria Ceramics , 2010 .
[88] Adam J. Stevenson,et al. Effect of Yb3+ concentration on optical properties of Yb:CaF2 transparent ceramics , 2012 .
[89] K. Niihara,et al. Translucent Mg‐α‐Sialon Ceramics Prepared by Spark Plasma Sintering , 2007 .
[90] Adam J. Stevenson,et al. Effect of SiO2 on Densification and Microstructure Development in Nd:YAG Transparent Ceramics , 2011 .
[91] T. Goto,et al. Fabrication of Transparent Lutetium Oxide by Spark Plasma Sintering , 2011 .
[92] Chandra P. Khattak,et al. Development of large-aperture monolithic sapphire optical windows , 2001, SPIE Defense + Commercial Sensing.
[93] M. Enculescu,et al. Intensity parameters of Tm3+ doped Sc2O3 transparent ceramic laser material , 2011 .
[94] N. Roussel,et al. Effects of the nature of the doping salt and of the thermal pre-treatment and sintering temperature on spark plasma sintering of transparent alumina , 2011 .
[95] E. Mix,et al. Spectroscopic properties of Cr-doped Sc2O3 , 2000 .
[96] Yubai Pan,et al. Effect of La2O3 on microstructures and laser properties of Nd:YAG ceramics , 2012 .
[97] Yusuke Moriyoshi,et al. Fabrication of Transparent Yttria Ceramics by the Low Temperature Synthesis of Yttrium Hydroxide , 2004 .
[98] Gary L. Messing,et al. Aqueous slip casting of transparent yttrium aluminum garnet (YAG) ceramics , 2008 .
[99] Masaki Maeda,et al. Preparation of high-strength and translucent alumina by hot isostatic pressing , 1992 .
[100] K. Morita,et al. Optical Properties and Microstructure of Nanocrystalline Cubic Zirconia Prepared by High‐Pressure Spark Plasma Sintering , 2011 .
[101] Yi-bing Cheng,et al. Subsurface Indentation Damage and Mechanical Characterization of α-Sialon Ceramics , 2005 .
[102] Kunio Yoshida,et al. Synthesis of Transparent Nd-doped HfO2-Y2O3 Ceramics Using HIP , 1996 .
[103] A. Krell,et al. Transmission physics and consequences for materials selection, manufacturing, and applications , 2009 .
[104] Rajendran Senthil Kumar,et al. Processing of Aluminum Oxynitride Through Aqueous Colloidal Forming Techniques , 2010 .
[105] Shengming Zhou,et al. Effect of ZrO2 on the sinterability and spectral properties of (Yb0.05Y0.95)2O3 transparent ceramic , 2010 .
[106] Xiangyong Zhao,et al. Field-induced effect in the -oriented 0.70Pb(Mg1/3Nb2/3)O3-0.30PbTiO3 single crystals , 2006 .
[107] G. Bernard-Granger,et al. Influence of graphite contamination on the optical properties of transparent spinel obtained by spark plasma sintering , 2009 .
[108] G. C. Wei. Transparent ceramics for lighting , 2009 .
[109] P. Xiao,et al. Fabrication of Nanostructured Hydroxyapatite via Hydrothermal Synthesis and Spark Plasma Sintering , 2005 .
[110] H. Eilers. Fabrication, optical transmittance, and hardness of IR-transparent ceramics made from nanophase yttria , 2007 .
[111] J. J. D. Groot,et al. The High-Pressure Sodium Lamp , 1986 .
[112] L. Lei,et al. Nanosintering mechanism of MgAl2O4 transparent ceramics under high pressure , 2010 .
[113] F. Sahin,et al. Preparation of AlON ceramics via reactive spark plasma sintering , 2012 .
[114] A. Mukherjee,et al. Alumina-based nanocomposites consolidated by spark plasma sintering , 2002 .
[115] Debdulal Saha,et al. Dependence of moisture absorption property on sol-gel process of transparent nano-structured γ-Al2O3 ceramics , 2005 .
[116] Zhe Zhao,et al. Transparent polycrystalline ruby ceramic by spark plasma sintering , 2010 .
[117] K. Kakegawa,et al. Effects of Preparation Conditions on the Structural and Optical Properties of Spark Plasma‐Sintered PLZT (8/65/35) Ceramics , 2005 .
[118] G. Patriarche,et al. Synthesis and optical characterizations of Yb-doped CaF2 ceramics , 2009 .
[119] A. Boccaccini,et al. Effect of Chemical Composition on the Optical Properties and Fracture Toughness of Transparent Magnesium Aluminate Spinel Ceramics , 2005 .
[120] A. Ikesue,et al. Excited states dynamics of Er3+ in Sc2O3 ceramic , 2008 .
[121] Z. Chlup,et al. Higher fracture toughness of tetragonal zirconia ceramics through nanocrystalline structure , 2009 .
[122] K. Morita,et al. Effects of heating rate on microstructure and transparency of spark-plasma-sintered alumina , 2009 .
[123] A. Piancastelli,et al. Role of powder properties and shaping techniques on the formation of pore-free YAG materials , 2009 .
[124] J. H. Lee,et al. Low-Temperature Fabrication of Transparent Yttrium Aluminum Garnet (YAG) Ceramics without Additives , 2004 .
[125] Dustin M. Hulbert,et al. Spark plasma sintering: A high strain rate low temperature forming tool for ceramics , 2007 .
[126] Guohong Zhou,et al. ZrO2-doped Y2O3 transparent ceramics via slip casting and vacuum sintering , 2010 .
[127] Kunio Yoshida,et al. Synthesis of Nd3+,Cr3+‐codoped YAG Ceramics for High‐Efficiency Solid‐State Lasers , 1995 .
[128] Y. Sakka,et al. Electric current activated/assisted sintering (ECAS): a review of patents 1906–2008 , 2009, Science and technology of advanced materials.
[129] E. Jordan,et al. Pressureless sintering of translucent MgO ceramics , 2008 .
[130] N. Wei,et al. Assessment of light scattering by pores in Nd:YAG transparent ceramics , 2012 .
[131] H. Cai,et al. Optical characteristics of transparent PMNT ceramic and its application at high speed electro-optic switch, , 2011 .
[132] Yehoshua Yeshurun,et al. Transparent MgAl2O4 Spinel from a Powder Prepared by Flame Spray Pyrolysis , 2008 .
[133] J. Lis,et al. Dielectric properties of aluminium nitride–γ-alon materials , 2007 .
[134] E. Longo,et al. Synthesis and characterization of PLZT (9/65/35) by the Pechini method and partial oxalate , 1998 .
[135] T. Goto,et al. Transparent yttria produced by spark plasma sintering at moderate temperature and pressure profiles , 2012 .
[136] Hyoun‐Ee Kim,et al. Microstructural Evolution of Transparent PLZT Ceramics Sintered in Air and Oxygen Atmospheres , 2004 .
[137] Chao‐Nan Xu,et al. Controlled oxygen partial pressure sintering of (Pb, La)(Zr, Ti)O3 ceramics , 2004 .
[138] Taiju Tsuboi,et al. Optical characteristics of Er3+-doped PMN–PT transparent ceramics , 2012 .
[139] Yibing Fu,et al. Preparation and spectroscopic characterization of Lu2O3:Eu3+ nanopowders and ceramics , 2008 .
[140] Ivar E. Reimanis,et al. A new powder production route for transparent spinel windows: powder synthesis and window properties , 2005, SPIE Defense + Commercial Sensing.
[141] D. Jiang,et al. Preparation and optical properties of transparent Eu3+: Y3Al5(1-x)Sc5xO12 ceramics , 2006 .
[142] Shengming Zhou,et al. Investigation of up-conversion luminescence properties of RE/Yb co-doped Y2O3 transparent ceramic (RE=Er, Ho, Pr, and Tm) , 2011 .
[143] X. Tong,et al. Optical properties of PMN–PT thin films prepared using pulsed laser deposition , 2009 .
[144] Lee M. Goldman,et al. ALON optical ceramic transparencies for window, dome, and transparent armor applications , 2011, Defense + Commercial Sensing.
[145] Wei Liu,et al. Fabrication of translucent alumina ceramics from pre-sintered bodies infiltrated with sintering additive precursor solutions , 2012 .
[146] K. Kakegawa,et al. Spark Plasma Sintering of Transparent PbZrO3-PbTiO3-Pb(Zn1/3Nb2/3)O3 Ceramics , 2002 .
[147] C. Brecher,et al. Temperature dependence of host-associated luminescence from YAG transparent ceramic material , 2000 .
[148] A. Krell,et al. Effects of the Homogeneity of Particle Coordination on Solid‐State Sintering of Transparent Alumina , 2006 .
[149] A. Piancastelli,et al. Improvements in the production of Yb:YAG transparent ceramic materials: Spray drying optimisation , 2012 .
[150] I. Chen,et al. Sintering of Fine Oxide Powders: I, Microstructural Evolution , 1996 .
[151] C. Greskovich,et al. Improved polycrystalline ceramic lasers , 1974 .
[152] Jian Zhang,et al. The effect of MgO and SiO2 codoping on the properties of Nd:YAG transparent ceramic , 2012 .
[153] Adolfo Fernández,et al. Grain growth control and transparency in spark plasma sintered self-doped alumina materials , 2009 .
[154] Andreas Krell,et al. Advanced spinel and sub-μm Al2O3 for transparent armour applications , 2009 .
[155] Ken-ichi Ueda,et al. Characterizations and laser performances of highly transparent Nd3+:Y3Al5O12 laser ceramics , 2007 .
[156] A. Krell,et al. Transparent Tetragonal Yttria‐Stabilized Zirconia Ceramics: Influence of Scattering Caused by Birefringence , 2011 .
[157] Y. Sakka,et al. Fabrication of Transparent Yttria by High‐Pressure Spark Plasma Sintering , 2011 .
[158] A. Krell. Improved hardness and hierarchic influences on wear in submicron sintered alumina , 1996 .
[159] I. Aksay,et al. Mullite for Structural, Electronic, and Optical Applications , 1991 .
[160] C. E. Land,et al. Hot‐Pressed (Pb,La)(Zr,Ti)O3 Ferroelectric Ceramics for Electrooptic Applications , 1971 .
[161] Y. Sakka,et al. Effect of sintering temperature on optical properties and microstructure of translucent zirconia prepared by high-pressure spark plasma sintering , 2011, Science and technology of advanced materials.
[162] A. Ding,et al. Large Electro-Optic Effect in La-Doped 0.75Pb(Mg1/3Nb2/3)O3–0.25PbTiO3 Transparent Ceramic by Two-Stage Sintering , 2010 .
[163] H. Hahn,et al. Sintering Behavior of Nanocrystalline Zirconia Prepared by Chemical Vapor Synthesis , 2004 .
[164] Shengming Zhou,et al. Structural and optical properties of Tm:Y2O3 transparent ceramic with La2O3, ZrO2 as composite sintering aid , 2012 .
[165] T. Shrout,et al. Ultrahigh strain and piezoelectric behavior in relaxor based ferroelectric single crystals , 1997 .
[166] J. S. Smith,et al. Cubic Phase Stabilization of Translucent Yttria‐Zirconia at Very Low Temperatures , 1967 .
[167] H. Schneider,et al. Optically Translucent Mullite Ceramics , 1993 .
[168] Christopher E. Cooper,et al. Transparent Solid Solution Magnesium Aluminate Spinel Polycrystalline Ceramic with the Alumina‐Rich Composition MgO·1.2 Al2O3 , 2012 .
[169] R. Chaim,et al. Transparent YAG ceramics by surface softening of nanoparticles in spark plasma sintering , 2006 .
[171] Preparation of translucent mullite ceramics , 1987 .
[172] Hui Lin,et al. Selection of different sintering aids and heat-treatment of Y2O3 raw powders for Yb3+:Y3Al5O12 transparent ceramics , 2012, Other Conferences.
[173] W. H. Rhodes,et al. Controlled Transient Solid Second‐Phase Sintering of Yttria , 1981 .
[174] Y. Yokota,et al. Scintillation properties of transparent ceramic and single crystalline Nd:YAG scintillators , 2011 .
[175] C. Meng,et al. Enhancement of sintering ability of magnesium aluminate spinel (MgAl2O4) ceramic nanopowders by shock compression , 2010 .
[176] N. Wei,et al. Effect of annealing on the optical properties of Nd:YAG transparent ceramics , 2012 .
[177] Wei Liu,et al. Novel Preparation of Translucent Alumina Ceramics Induced by Doping Additives via Chemical Precipitation Method , 2011 .
[178] M. Nygren,et al. Transparent nanocrystalline MgO by rapid and low-temperature spark plasma sintering , 2004 .
[179] Liu Xuejian,et al. Fabrication of Transparent AlON Ceramics by Solid-state Reaction Sintering , 2011 .
[180] H. Yagi,et al. Influence of annealing conditions on the optical properties of chromium-doped ceramic Y3Al5O12 , 2006 .
[181] Richard A. Beyer,et al. Evaluation of ALON for cannon window application , 1999, Defense, Security, and Sensing.
[182] V. B. Kravchenko,et al. Nd:Y2O3 nanopowders for laser ceramics , 2007 .
[183] Javier E. Garay,et al. Transparent/translucent polycrystalline nanostructured yttria stabilized zirconia with varying colors , 2008 .
[184] Ken-ichi Ueda,et al. Highly efficient 2% Nd:yttrium aluminum garnet ceramic laser , 2000 .
[185] H. Schneider,et al. Structure and properties of mullite—A review , 2008 .
[186] J. H. Lee,et al. Fabrication of Translucent Magnesium Aluminum Spinel Ceramics , 2004 .
[187] W. Cao,et al. Preparation and characterization of transparent PZN–PLZT ceramics , 2004 .
[188] M. Nygren,et al. Formidable Increase in the Superplasticity of Ceramics in the Presence of an Electric Field , 2003 .
[189] Shengming Zhou,et al. Synthesis and spectral properties of Yb3+/Ho3+ co-doped yttria 2 μm transparent ceramics , 2010 .
[190] Akio Ikesue,et al. Fabrication and Optical Properties of High‐Performance Polycrystalline Nd:YAG Ceramics for Solid‐State Lasers , 1995 .
[191] Hong Liu,et al. Preparation of highly dispersed YAG nano-sized powder by co-precipitation method , 2006 .
[192] D. Agrawal,et al. Fabrication of translucent MgO ceramics using nanopowders , 2004 .
[193] K. Watari,et al. Effect of oligosaccharide alcohol addition to alumina slurry and translucent alumina produced by slip casting , 2003 .
[194] T. Mori,et al. Sc2O3 nanopowders via hydroxyl precipitation: Effects of sulfate ions on powder properties , 2004 .
[195] M. Odén,et al. Fabrication of transparent yttria by HIP and the glass-encapsulation method , 2009 .
[196] Gary L. Messing,et al. Microwave Sintering of Alumina at 2.45 GHz , 2003 .
[197] T. Shrout,et al. Piezoelectric materials for high power, high temperature applications , 2005 .
[198] K. Uematsu,et al. Transparent Hydroxyapatite Prepared by Hot Isostatic Pressing of Filter Cake , 1989 .
[199] S. E. Hatch,et al. HOT‐PRESSED POLYCRYSTALLINE CaF2:Dy2+ LASER , 1964 .
[200] M. Hefetz,et al. Fabrication of dense nanocrystalline ZrO_2−3 wt. % Y_2O_3 by hot-isostatic pressing , 1998 .
[201] Marina Santo Zarnik,et al. Pb(Mg1/3Nb2/3)O3–PbTiO3 (PMN-PT) Material for Actuator Applications , 2011 .
[202] Andreas Krell,et al. Effects and elimination of nanoporosity in transparent sintered spinel (MgAl2O4) , 2011, Defense + Commercial Sensing.
[203] 孝次 津久間. HIP 法による透明スピネル(MgAl2O4) 焼結体 , 2006 .
[204] K. Morita,et al. Spark plasma sintering of transparent alumina , 2007 .
[205] Min Liu,et al. Sintering of Yb3+:Y2O3 transparent ceramics in hydrogen atmosphere , 2009 .
[206] G. Aguilar,et al. Optical properties of transparent nanocrystalline yttria stabilized zirconia , 2009 .
[207] S. Lambert,et al. Preparation of Yb-Doped Sc 2 O 3 Transparent Ceramics for Laser Applications , 2008 .
[208] K. Morita,et al. Low-Temperature Spark Plasma Sintering of Yttria Ceramics with Ultrafine Grain Size , 2011 .
[209] Yoichi Sato,et al. Spectral Parameters of Nd3+-ion in the Polycrystalline Solid-Solution Composed of Y3Al5O12 and Y3Sc2Al3O12 , 2003 .
[210] Adolfo Fernández,et al. Transparent Alumina/Ceria Nanocomposites By Spark Plasma Sintering , 2010 .
[211] J. Mantese,et al. High‐Density Yttria for Practical Ceramic Applications , 1992 .
[212] S. Kalabukhov,et al. Synthesis and Densification of Transparent Magnesium Aluminate Spinel by SPS Processing , 2009 .
[213] Jun Ma,et al. Transparent Lead Lanthanum Zirconate Titanate Ceramics Derived from Oxide Mixture Via a Repeated Annealing Process , 2002 .
[214] Klaus Petermann,et al. Growth of high-melting sesquioxides by the heat exchanger method , 2002 .
[215] R. Roy,et al. Transparent mullite ceramics from diphasic aerogels by microwave and conventional processings , 1996 .
[216] N. Saito,et al. Fabrication of transparent yttria ceramics at low temperature using carbonate-derived powder , 2005 .
[217] K. Sun,et al. Low-temperature high-pressure preparation of transparent nanocrystalline MgAl2O4 ceramics , 2006 .
[218] Y. Yokota,et al. Optical and scintillation characteristics of Y2O3 transparent ceramic , 2010 .
[219] G. C. Wei,et al. Sintering of Translucent Alumina in a Nitrogen–Hydrogen Gas Atmosphere , 2004 .
[220] Di Zhang,et al. Synthesis of Nd:YAG powders leading to transparent ceramics: The effect of MgO dopant , 2011 .
[221] Georg Grathwohl,et al. Transparent Alumina with Submicrometer Grains by Float Packing and Sintering , 2002 .
[222] D. Tang,et al. Fabrication of yttrium aluminum garnet transparent ceramics from yttria nanopowders synthesized by carbonate precipitation , 2009 .
[223] V. Shvartsman,et al. Fatigue-induced evolution of domain structure in ferroelectric lead zirconate titanate ceramics investigated by piezoresponse force microscopy , 2005 .
[224] K. T. Ramesh,et al. AlON: A brief history of its emergence and evolution , 2009 .
[225] S. Lee,et al. Transparent mullite ceramic from single-phase gel by Spark Plasma Sintering , 2009 .
[226] Dongtao Jiang,et al. Spark plasma sintering and forming of transparent polycrystalline Al2O3 windows and domes , 2007, SPIE Defense + Commercial Sensing.
[227] Jiangong Li,et al. Densification and Grain Growth of Al2O3 Nanoceramics During Pressureless Sintering , 2006 .
[228] H. V. Dijk,et al. Translucent Y3Al5O12 ceramics , 1984 .
[229] M. Nygren,et al. Transparent hydroxyapatite ceramics with nanograin structure prepared by high pressure spark plasma sintering at the minimized sintering temperature , 2011 .
[230] K. Morita,et al. Effects of Preheating of Powder Before Spark Plasma Sintering of Transparent MgAl2O4 Spinel , 2010 .
[231] Zuhair A. Munir,et al. Transparent Nanometric Cubic and Tetragonal Zirconia Obtained by High‐Pressure Pulsed Electric Current Sintering , 2007 .
[232] Yan Lin Aung,et al. Synthesis and Performance of Advanced Ceramic Lasers , 2006 .
[233] Caroline Sunyong Lee,et al. Novel fabrication of pressure-less sintering of translucent powder injection molded (PIM) alumina blocks , 2011 .
[234] R. Chaim,et al. Densification of nanocrystalline Y2O3 ceramic powder by spark plasma sintering , 2009 .
[235] Jianguo Zhu,et al. Optical properties of the polycrystalline transparent Nd:YAG ceramics prepared by two-step sintering , 2012 .
[236] Y. Kagawa,et al. Effect of grain boundary microcracking on the light transmittance of sintered transparent MgAl2O4 , 2003 .
[237] K. S. Mazdiyasni,et al. Synthesis and Mechanical Properties of Stoichiometric Aluminum Silicate (Mullite) , 1972 .
[238] A. Kishimoto,et al. Thermal and optical properties of transparent magnesium oxide ceramics fabricated by post hot-isostatic pressing , 2006 .
[239] K. Morita,et al. Densification of Nanocrystalline Yttria by Low Temperature Spark Plasma Sintering , 2008 .
[240] L. Gheorghe,et al. Spectroscopic properties of Ho3+ doped Sc2O3 transparent ceramic for laser materials , 2009 .
[241] Hasan Mandal,et al. New developments in a-SiAlON ceramics , 1999 .
[242] J. R. Jurado,et al. Preparation, Sintering, and Properties of Translucent Er2O3-Doped Tetragonal Zirconia , 1989 .
[243] H. Ushijima,et al. Fabrication of Optically Transparent Lead Lanthanum Zirconate Titanate ((Pb,La)(Zr,Ti)O3) Ceramics by a Three‐Stage‐Atmosphere‐Sintering Technique , 2004 .
[244] G. Xie,et al. Fabrication and laser performance of highly transparent Nd:YAG ceramics from well-dispersed Nd:Y2O3 nanopowders by freeze-drying , 2011 .
[245] Shiwei Wang,et al. Synthesis of γ‐AlON Powders by a Combinational Method of Carbothermal Reduction and Solid‐State Reaction , 2010 .
[246] Daniel C. Harris,et al. History of development of polycrystalline optical spinel in the U.S. , 2005, SPIE Defense + Commercial Sensing.
[247] Toshiyuki Mori,et al. Fabrication of Transparent, Sintered Sc2O3 Ceramics , 2005 .
[248] G. Patriarche,et al. Origin of light scattering in ytterbium doped calcium fluoride transparent ceramic for high power lasers , 2011 .
[249] Lawrence Fehrenbacher,et al. Spinel: gaining momentum in optical applications , 2003, SPIE Defense + Commercial Sensing.
[250] G. Haertling. Improved Hot-Pressed Electrooptic Ceramics in the (Pb,La)(Zr,Ti)O3 System , 1971 .
[251] Akio Ikesue,et al. Transparent cubic-ZrO2 ceramics for application as optical lenses , 2009 .
[252] K. Morita,et al. Spark-Plasma-Sintering Condition Optimization for Producing Transparent MgAl2O4 Spinel Polycrystal , 2009 .
[253] K. Niihara,et al. Transparent yttria stabilized zirconia from glycine-nitrate process by spark plasma sintering , 2012 .
[254] L. Wen,et al. Synthesis of yttria nanopowders for transparent yttria ceramics , 2006 .
[255] Y. B. Lee,et al. Sintering, microstructure, and mechanical properties of AION-AIN particulate composites , 1998 .
[256] R. Roy,et al. Microwave Synthesis of Aluminum Oxynitride (ALON) , 1999 .
[257] Qingjie Zhang,et al. Rapid Densification of Nano‐Grained Alumina by High Temperature and Pressure with a Very High Heating Rate , 2007 .
[258] Rustum Roy,et al. Revised Phase Diagram for the System Al2O3—SiO2 , 1962 .
[259] Colla,et al. Long-time relaxation of the dielectric response in lead magnoniobate. , 1995, Physical review letters.
[260] N. Wei,et al. Related mechanism of transparency in MgAl2O4 nano-ceramics prepared by sintering under high pressure and low temperature , 2009 .
[261] K. Tsukuma. Transparent titania-yttria-zirconia ceramics , 1986 .
[262] Jun Wang,et al. Preparation and Light Transmission Properties of AlON Ceramics by the Two-Step Method with Nanosized Al2O3 and AlN , 2011 .
[263] J. Petit,et al. Sintering of α-alumina for highly transparent ceramic applications , 2011 .
[264] Y. Sakka,et al. Effects of Pressure Application Method on Transparency of Spark Plasma Sintered Alumina , 2011 .
[265] Jingxian Zhang,et al. Sintering of Transparent Yttria Ceramics in Oxygen Atmosphere , 2010 .
[266] K. Hirao,et al. Optical and Mechanical Properties of a/ Composite Sialons , 2003 .
[267] N. Padture,et al. Strengthening of transparent spinel/Si3N4 nanocomposites , 2012 .
[268] Juan L. Sepulveda,et al. High-performance spinel ceramics for IR windows and domes , 2011, Defense + Commercial Sensing.
[269] I. Chen,et al. Sintering of Fine Oxide Powders: II, Sintering Mechanisms , 1997 .
[270] J. Lis,et al. Alon-based materials prepared by SHS technique , 2007 .
[271] Sang Woo Kim,et al. Improvement of translucency in Al2O3 ceramics by two-step sintering technique , 2007 .
[272] Owen B. Drury,et al. Transparent ceramic scintillator fabrication, properties, and applications , 2008, Optical Engineering + Applications.
[273] H. Hahn,et al. Sintering Behavior of Nanocrystalline Zirconia Doped with Alumina Prepared by Chemical Vapor Synthesis , 2004 .
[274] Yutaka Nigara,et al. Measurement of the Optical Constants of Yttrium Oxide , 1968 .
[275] Yi-bing Cheng,et al. Translucent α‐Sialon Ceramics by Hot Pressing , 2004 .
[276] K. Makishima,et al. Improvement of ceramic YAG(Ce) scintillators to (YGd)3Al5O12(Ce) for gamma-ray detectors , 2007 .
[277] Dustin M. Hulbert,et al. Optically Transparent Polycrystalline Al2O3 Produced by Spark Plasma Sintering , 2007 .