A Review on Si-Based Ceramic Matrix Composites and their Infiltration Based Techniques

[1]  Shanhua Liu,et al.  Effect of processing technology on structural stability of SiC/SiBCZr ceramic matrix composites , 2021, Ceramics International.

[2]  Qiang He,et al.  Study on the friction and wear properties of zinc oxide/silicon dioxide composite coated paper mulch film , 2021, Journal of King Saud University - Engineering Sciences.

[3]  T. B. Rao,et al.  Mechanical and Tribological Properties of 3D printed Al-Si alloys and composites: a Review , 2021, Silicon.

[4]  H. Bang,et al.  Influence of pyrolysis and melt infiltration temperatures on the mechanical properties of SiCf/SiC composites , 2021, Ceramics International.

[5]  Faiz Shaikh,et al.  Effect of nano SiO2 on mechanical properties of micro-steel fibers reinforced geopolymer composites , 2021, Ceramics International.

[6]  Q. Deng,et al.  Thermal shock response behaviour of carbon fibre reinforced silicon carbide matrix composites prepared by chemical vapour infiltration at different heating rates , 2021, Ceramics International.

[7]  Jiaping Zhang,et al.  Effects of CVI SiC amount and deposition rates on properties of SiCf/SiC composites fabricated by hybrid chemical vapor infiltration (CVI) and precursor infiltration and pyrolysis (PIP) routes , 2021 .

[8]  B. Dabade,et al.  Effect Of Sea Water On Mechanical Properties Of Glass Fiber Reinforced Polymer With Silicon Dioxide & Silicon Oil Fillers , 2021, Materials Today: Proceedings.

[9]  P. Bradford,et al.  Fabrication of scalable, aligned and low density carbon nanotube/silicon carbide hybrid foams by polysilazane infiltration and pyrolysis , 2021 .

[10]  S. Vijayakumar,et al.  Reinforcements, Manufacturing Techniques, and Respective Property Changes of Al2O3/SiC Based Composites: A Review , 2021, Silicon.

[11]  B. Han,et al.  The strength of the ceramic matrix composites under the influence of pore is reviewed , 2021 .

[12]  J. Danet,et al.  TEM characterization of turbostratic and rhombohedral BN interphases synthesized by chemical vapour infiltration in SiC/SiC-Si composites , 2021, Materials Characterization.

[13]  G. Vignoles,et al.  Complex geometry macroporous SiC ceramics obtained by 3D-printing, polymer impregnation and pyrolysis (PIP) and chemical vapor deposition (CVD) , 2021, Journal of the European Ceramic Society.

[14]  M. Galano,et al.  Effects of polymer infiltration processing (PIP) temperature on the mechanical and thermal properties of Nextel 312 fibre SiCO ceramic matrix composites , 2021 .

[15]  S. Nagendran,et al.  Investigating the effect of reinforcing SiC and graphite on aluminium alloy brake rotor using plasma spray process , 2020 .

[16]  P. Švec,et al.  Microstructure and Selected Properties of Si3N4 + SiC Composite , 2020, Manufacturing Technology.

[17]  N. Radhika,et al.  Comparative Study on Reciprocal Tribology Performance of Mono-Hybrid Ceramic Reinforced Al-9Si-3Cu Graded Composites , 2020, Silicon.

[18]  H. Fang,et al.  Fabrication of improved flexural strength C/SiC composites via LA-CVI method using optimized spacing of mass transfer channels , 2020 .

[19]  J. Dusza,et al.  Silicon Nitride-Based Composites with the Addition of CNTs—A Review of Recent Progress, Challenges, and Future Prospects , 2020, Materials.

[20]  Yuxi Yu,et al.  Fabrication of high‐fracture‐strength and gas‐tightness PDC films via PIP process for pressure sensor application , 2020 .

[21]  D. Sciti,et al.  Development of UHTCMCs via water based ZrB2 powder slurry infiltration and polymer infiltration and pyrolysis , 2020 .

[22]  N. Radhika,et al.  Effect of Grain Modifier on Mechanical and Tribological Properties of Al-Si Alloy and Composite , 2020, Silicon.

[23]  V. Mechtcherine,et al.  Plasma-generated silicon oxide coatings of carbon fibres for improved bonding to mineral-based impregnation materials and concrete matrices , 2020 .

[24]  D. Mondal,et al.  Significance of modification of slurry infiltration process for the precursor impregnation and pyrolysis process of SiCf/SiC composites , 2020 .

[25]  Jing Li,et al.  SiBCN ceramic aerogel/graphene composites prepared via sol-gel infiltration process and polymer-derived ceramics (PDCs) route , 2020 .

[26]  N. C. Ramos,et al.  Strength and bondability of a dental Y-TZP after silica sol-gel infiltrations , 2020 .

[27]  S. Sakthivelu,et al.  A primary study of density and compressive strength of the silicon nitride and titanium nitride ceramic composite , 2020 .

[28]  Chenggang Zhou,et al.  Encapsulating tin oxide nanoparticles into holey carbon nanotubes by melt infiltration for superior lithium and sodium ion storage , 2020 .

[29]  K. Rajaguru,et al.  Processing of Cf/SiC composites by hot pressing using polymer binders followed by polymer impregnation and pyrolysis , 2020 .

[30]  N. Radhika,et al.  Taguchi’s technique in optimization of process parameters on Wear behaviour of Cu/Si3N4Metal Matrix Composite , 2020 .

[31]  K. Sridhar,et al.  Effect of nano SiO2 on properties of natural fiber reinforced epoxy hybrid composite: A review , 2020 .

[32]  J. Zou,et al.  Selection, processing, properties and applications of ultra-high temperature ceramic matrix composites, UHTCMCs – a review , 2019, International Materials Reviews.

[33]  Fei Rao,et al.  Preparation and properties of C/C−ZrB2−SiC composites by high-solid-loading slurry impregnation and polymer infiltration and pyrolysis (PIP) , 2019, Transactions of Nonferrous Metals Society of China.

[34]  Saša Milojević,et al.  APPLICATION OF NANOCOMPOSITES IN THE AUTOMOTIVE INDUSTRY , 2019, Mobility and Vehicle Mechanics.

[35]  C. Yang,et al.  Mechanical and Electromagnetic Shielding Properties of Amorphous FeSiB Ribbon–Reinforced Gypsum Composite Board , 2019, Journal of Materials in Civil Engineering.

[36]  Y. Kogo,et al.  Carbon fiber reinforced ultra-high temperature ceramic matrix composites: A review , 2019, Ceramics International.

[37]  Y. Gong,et al.  Some observations in grinding SiC and silicon carbide ceramic matrix composite material , 2019, The International Journal of Advanced Manufacturing Technology.

[38]  Yuan Cheng,et al.  Structure and performance of Si3N4/SiC/CNT composite fibres , 2019, Ceramics International.

[39]  K. Manigandan,et al.  Thermomechanical Characterization of SiC/SiC Ceramic Matrix Composites in a Combustion Facility , 2019, Ceramics.

[40]  Yong Yang,et al.  The preparation of SiC-based ceramics by one novel strategy combined 3D printing technology and liquid silicon infiltration process , 2019, Ceramics International.

[41]  P. Xiao,et al.  A new slurry infiltration method to enhance the wear resistance of bulk graphite with development of reinforced graphitic composites including SiC or Si3N4 hard particles , 2019, Journal of the European Ceramic Society.

[42]  Zhenzhong Sun,et al.  PIP process greatly influencing the microstructure and electrical conductivity of polymer-derived SiCN ceramics , 2019, Journal of Alloys and Compounds.

[43]  Z. Chai,et al.  A new precursor of liquid and curable polysiloxane for highly cost-efficient SiOC-based composites , 2019, Ceramics International.

[44]  N. Kayal,et al.  Thermal shock and chemical corrosion resistance of oxide bonded porous SiC ceramics prepared by infiltration technique , 2019, Journal of Alloys and Compounds.

[45]  M. Yasseri,et al.  An investigation of the wetting behavior of heat-treated silicon nitride particles with liquid silicon , 2019, Journal of Crystal Growth.

[46]  N. Raj,et al.  Tribological Characteristics of LM13/Si3N4/Gr Hybrid Composite at Elevated Temperature , 2019, Silicon.

[47]  D. Sciti,et al.  Introduction to H2020 project C3HARME – next generation ceramic composites for combustion harsh environment and space , 2018, Advances in Applied Ceramics.

[48]  N. Radhika,et al.  Studies on Mechanical and Abrasive Wear Properties of Cu-Ni-Si/Si3N4 Functionally Graded Composite , 2018, Silicon.

[49]  Yadong Gong,et al.  Surface topography and roughness of silicon carbide ceramic matrix composites , 2018, Ceramics International.

[50]  Lai-fei Cheng,et al.  In-situ fabrication of laminated SiC/TiSi2 and SiC/Ti3SiC2 ceramics by liquid silicon infiltration , 2018, Ceramics International.

[51]  Lai-fei Cheng,et al.  Microstructure and Mechanical Properties of Si3N4-Fe3Si Composites Prepared by Gas-Pressure Sintering , 2018, Materials.

[52]  A. Francis Progress in polymer-derived functional silicon-based ceramic composites for biomedical and engineering applications , 2018 .

[53]  Wenliang Zhu,et al.  Monitoring metabolic reactions in Staphylococcus epidermidis exposed to silicon nitride using in situ time-lapse Raman spectroscopy , 2018, Journal of biomedical optics.

[54]  S. Dong,et al.  Ablation behavior of three-dimensional Cf/SiC-ZrC-ZrB2 composites prepared by a joint process of sol-gel and reactive melt infiltration , 2018 .

[55]  Lai-fei Cheng,et al.  Oxidation resistance of SiC/SiC composites containing SiBC matrix fabricated by liquid silicon infiltration , 2018 .

[56]  D. Kopeliovich Advances in manufacture of ceramic matrix composites by infiltration techniques , 2018 .

[57]  Yan Jiang,et al.  Oxidation protective MoSi2-SiC-Si coating for graphite materials prepared by slurry dipping and vapor silicon infiltration , 2017 .

[58]  S. Dong,et al.  Ablation behavior of C/C-ZrC and C/SiC-ZrC composites fabricated by a joint process of slurry impregnation and chemical vapor infiltration , 2017 .

[59]  J. Halloran,et al.  Microstress in the matrix of a melt‐infiltrated SiC/SiC ceramic matrix composite , 2017 .

[60]  G. Morscher,et al.  Enhanced oxidation resistance of SiC/SiC minicomposites via slurry infiltration of oxide layers. , 2017, Journal of the European Ceramic Society.

[61]  G. Adabo,et al.  The effects of mechanical and hydrothermal aging on microstructure and biaxial flexural strength of an anterior and a posterior monolithic zirconia. , 2017, Journal of dentistry.

[62]  S. Durowaye,et al.  Development and characterisation of iron millscale particle reinforced ceramic matrix composite , 2017 .

[63]  Grace X. Gu,et al.  Hierarchically Enhanced Impact Resistance of Bioinspired Composites , 2017, Advanced materials.

[64]  P. Jannotti,et al.  Measurement of microscale residual stresses in multi-phase ceramic composites using Raman spectroscopy , 2017 .

[65]  C. Aneziris,et al.  Improvement of the mechanical properties of SiC reticulated porous ceramics with optimized three-layered struts for porous media combustion , 2017 .

[66]  Lai-fei Cheng,et al.  Porous SiCnw/SiC ceramics with unidirectionally aligned channels produced by freeze-drying and chemical vapor infiltration , 2017 .

[67]  N. Radhika Comparison of the mechanical and wear behaviour of aluminium alloy with homogeneous and functionally graded silicon nitride composites , 2018 .

[68]  Arifur Rahman,et al.  Effect of degree of crystallinity on elastic properties of silicon carbide fabricated using polymer pyrolysis , 2016 .

[69]  N. C. Ramos,et al.  A new silica-infiltrated Y-TZP obtained by the sol-gel method. , 2016, Journal of dentistry.

[70]  Tie-hu Li,et al.  Preparation of C/C–SiC composite by low temperature compression molding–liquid silicon infiltration and its application in automobile brake , 2016 .

[71]  Xiaoguo Song,et al.  Brazing continuous carbon fiber reinforced Li2O–Al2O3–SiO2 ceramic matrix composites to Ti–6Al–4V alloy using Ag–Cu–Ti active filler metal , 2015 .

[72]  Lai-fei Cheng,et al.  Mechanical and electromagnetic shielding properties of carbon fiber reinforced silicon carbide matrix composites , 2015 .

[73]  N. Radhika,et al.  Parametric Study Of Dry Sliding Wear Behaviour Of Functionally Graded Al Lm25/Si3n4 Composite By Response Surface Methodology , 2015 .

[74]  Lai-fei Cheng,et al.  Machining parameter optimization of C/SiC composites using high power picosecond laser , 2015 .

[75]  P. Hosemann,et al.  Localized mechanical property assessment of SiC/SiC composite materials , 2015 .

[76]  A. Kolekar,et al.  A Review on Properties and Applications of Ceramic Matrix Composites , 2015 .

[77]  N Radhika,et al.  Studies on mechanical properties and tribological behaviour of LM25/SiC/Al2O3 composites , 2015 .

[78]  M. Kern Bonding to oxide ceramics—laboratory testing versus clinical outcome. , 2015, Dental materials : official publication of the Academy of Dental Materials.

[79]  Rongjun Liu,et al.  Preparation and properties of 3D needle-punched C/ZrC–SiC composites by polymer infiltration and pyrolysis process , 2014 .

[80]  P. Šajgalík,et al.  Effect of the counterpart material on wear characteristics of silicon carbide ceramics , 2014 .

[81]  N. Radhika,et al.  STUDY OF WEAR BEHAVIOUR OF Al/ (Al2O3P and SiCP) HYBRID METAL MATRIX COMPOSITES , 2014 .

[82]  H. Al-Qureshi,et al.  Alumina-Based Ceramics for Armor Application: Mechanical Characterization and Ballistic Testing , 2014 .

[83]  Z. Xia,et al.  Understanding interfaces and mechanical properties of ceramic matrix composites , 2014 .

[84]  Lai-fei Cheng,et al.  SiCN-based composite ceramics fabricated by chemical vapor infiltration with excellent mechanical and electromagnetic properties , 2013 .

[85]  L. Valandro,et al.  Air-particle abrasion on zirconia ceramic using different protocols: effects on biaxial flexural strength after cyclic loading, phase transformation and surface topography. , 2013, Journal of the mechanical behavior of biomedical materials.

[86]  Lai-fei Cheng,et al.  Fabrication of laminated SiCw/SiC ceramic composites by CVI , 2013 .

[87]  Lei Wang,et al.  Processing, microstructure and ablation behavior of C/SiC–Ti3SiC2 composites fabricated by liquid silicon infiltration , 2013 .

[88]  X. Xiong,et al.  Preparation and tribological properties of C fibre reinforced C/SiC dual matrix composites fabrication by liquid silicon infiltration , 2013 .

[89]  中村 武志,et al.  Development of CMC Turbine Parts for Aero Engines , 2013 .

[90]  K. Suryanarayanan,et al.  Silicon Carbide Reinforced Aluminium Metal Matrix Composites for Aerospace Applications: A Literature Review , 2013 .

[91]  Jens Eichler Industrial Applications of Si-based Ceramics , 2012 .

[92]  C. Zou,et al.  Improved properties and microstructure of porous silicon nitride/silicon oxide composites prepared by sol–gel route , 2012 .

[93]  S. Bai,et al.  C/C–ZrC composite prepared by chemical vapor infiltration combined with alloyed reactive melt infiltration , 2012 .

[94]  S. Biamino,et al.  Si-SiC-ZrB2 ceramics by silicon reactive infiltration , 2012 .

[95]  B. Sammuli,et al.  Fabrication of SiC–SiC composites for fuel cladding in advanced reactor designs , 2012 .

[96]  Xiaodong Li,et al.  Fabrication of multi-walled carbon nanotube-reinforced carbon fiber/silicon carbide composites by polymer infiltration and pyrolysis process , 2012 .

[97]  B. Lawn,et al.  Chipping Resistance of Graded Zirconia Ceramics for Dental Crowns , 2012, Journal of dental research.

[98]  Yu Zhou,et al.  Dense sub-micron-sized ZrC-W composite produced by reactive melt infiltration at 1200 °C , 2012 .

[99]  C. Goracci,et al.  Effect of surface pre-treatments on the zirconia ceramic-resin cement microtensile bond strength. , 2011, Dental materials : official publication of the Academy of Dental Materials.

[100]  Lai-fei Cheng,et al.  Preparation and properties of 2D C/SiC–ZrB2–TaC composites , 2011 .

[101]  Zhihao Wang,et al.  Preparation of porous SiC ceramics from waste cotton linter by reactive liquid Si infiltration technique , 2010 .

[102]  H. Klemm Silicon Nitride for High‐Temperature Applications , 2010 .

[103]  L. H. Burnett,et al.  New zirconia primer improves bond strength of resin-based cements. , 2010, Dental materials : official publication of the Academy of Dental Materials.

[104]  Weihong Zhang,et al.  Numerical prediction of the effective coefficient of thermal expansion of 3D braided C/SiC composite , 2009 .

[105]  N. Popovska,et al.  Oxidation behavior of silicon carbide based biomorphic ceramics prepared by chemical vapor infiltration and reaction technique , 2009 .

[106]  Lai-fei Cheng,et al.  Mechanical and dielectric properties of porous Si3N4-SiO2 composite ceramics , 2009 .

[107]  Jiayu Xiao,et al.  Double layer oxidation resistant coating for carbon fiber reinforced silicon carbide matrix composites , 2009 .

[108]  Zheng-ren Huang,et al.  Manufacturing 2D carbon-fiber-reinforced SiC matrix composites by slurry infiltration and PIP process , 2008 .

[109]  M. Ferraris,et al.  Protective coatings for carbon bonded carbon fibre composites , 2008 .

[110]  M. Weinmann,et al.  Processing and properties of C/Si-B-C-N fiber-reinforced ceramic matrix composites prepared by precursor impregnation and pyrolysis , 2008 .

[111]  J. Mackenzie,et al.  Ceramic Composites by the Sol‐Gel Method: A Review , 2008 .

[112]  Walter Krenkel,et al.  C/C‐Sic Composites for Hot Structures and Advanced Friction Systems , 2008 .

[113]  H. Hu,et al.  A modified polymethylsilane as the precursor for ceramic matrix composites , 2008 .

[114]  Lai-fei Cheng,et al.  Microstructure and properties of particle reinforced silicon carbide and silicon nitride ceramic matrix composites prepared by chemical vapor infiltration , 2008 .

[115]  Lai-fei Cheng,et al.  Microstructure and properties of 3D needle-punched carbon/silicon carbide brake materials , 2007 .

[116]  A. Heuer,et al.  Secrets in the Shell , 2007 .

[117]  V. Liedtke,et al.  Sol–gel-based carbon/silicon carbide , 2007 .

[118]  Lai-fei Cheng,et al.  Flexural strength distribution of 3D SiC/SiC composite , 2006 .

[119]  W. Krenkel,et al.  C/C–SiC composites for space applications and advanced friction systems , 2005 .

[120]  H. Hu,et al.  Crystallization behavior of three-dimensional silica fiber reinforced silicon nitride composite , 2005 .

[121]  S. Kalidindi,et al.  Effects of temperature, strain rate and grain size on the compressive properties of Ti3SiC2 , 2005 .

[122]  Carlos R. Rambo,et al.  Manufacturing of biomorphic (Si,Ti,Zr)-carbide ceramics by sol–gel processing , 2005 .

[123]  S. Jitsukawa,et al.  Effect of thick SiC interphase layers on microstructure, mechanical and thermal properties of reaction-bonded SiC/SiC composites , 2005 .

[124]  W. Krenkel Carbon Fiber Reinforced CMC for High‐Performance Structures , 2005 .

[125]  Woo Y. Lee,et al.  Multilayered Oxide Interphase Concept for Ceramic-Matrix Composites , 2005 .

[126]  Xin-bo He,et al.  Preparation of SiC fiber-reinforced SiC composites , 2005 .

[127]  T. Ishikawa,et al.  Multiple Cracking and Tensile Behavior for an Orthogonal 3‐D Woven Si‐Ti‐C‐O Fiber/Si‐Ti‐C‐O Matrix Composite , 2004 .

[128]  F. Yu,et al.  Bimodal Microstructure in Silicon Nitride–Barium Aluminum Silicate Ceramic‐Matrix Composites by Pressureless Sintering , 2004 .

[129]  K. Matsui,et al.  Formation Mechanism of Hydrous Zirconia Particles Produced by Hydrolysis of ZrOCl2Solutions: IV, Effects of ZrOCl2Concentration and Reaction Temperature , 2004 .

[130]  Khaled A. Al-Dheylan The low velocity impact loading of Al2O3/SiC whisker reinforced ceramic composite , 2004 .

[131]  E. D. Rekow,et al.  Effect of sandblasting on the long-term performance of dental ceramics. , 2004, Journal of biomedical materials research. Part B, Applied biomaterials.

[132]  H. Sieber,et al.  Preparation and properties of highly porous, biomorphic YSZ ceramics , 2004 .

[133]  E. Opila,et al.  Effect of Environment on the Stress‐Rupture Behavior of a Carbon‐Fiber‐Reinforced Silicon Carbide Ceramic Matrix Composite , 2004 .

[134]  G. Morscher,et al.  Effect of a Boron Nitride Interphase That Debonds between the Interphase and the Matrix in SiC/SiC Composites , 2004 .

[135]  G. Morscher,et al.  Melt-Infiltrated SiC Composites for Gas Turbine Engine Applications , 2004 .

[136]  Mrityunjay Singh,et al.  Reactive processing of environmentally conscious, biomorphic ceramics from natural wood precursors , 2004 .

[137]  A. Kohyama,et al.  Effect of SiC particle dispersion on microstructure and mechanical properties of polymer-derived SiC/SiC composite , 2003 .

[138]  A. Kohyama,et al.  Processing optimization and mechanical evaluation of hot pressed 2D Tyranno-SA/SiC composites , 2003 .

[139]  Akira Kohyama,et al.  Preparation of SiC/SiC Composites by Hot Pressing, Using Tyranno-SA Fiber as Reinforcement , 2003 .

[140]  J. Xiong,et al.  Effects of infiltration conditions on the densification behavior of carbon/carbon composites prepared by a directional-flow thermal gradient CVI process , 2003 .

[141]  K. Goda,et al.  Uniformization of Boron Nitride coating thickness by continuous chemical vapor deposition process for interphase of SiC/SiC composites , 2003 .

[142]  F. Christin Design, Fabrication, and Application of Thermostructural Composites (TSC) like C/C, C/SiC, and SiC/SiC Composites , 2002 .

[143]  Linhua Zou,et al.  Control of Composition and Structure in Laminated Silicon Nitride/Boron Nitride Composites , 2002 .

[144]  Lai-fei Cheng,et al.  High toughness, 3D textile, SiC/SiC composites by chemical vapor infiltration , 2001 .

[145]  S. Guo,et al.  Improvement of high-temperature strength of hot-pressed sintering silicon nitride with Lu2O3 addition , 2001 .

[146]  Lai-fei Cheng,et al.  Effect of glass sealing on the oxidation behavior of three dimensional C/SiC composites in air , 2001 .

[147]  Lai-fei Cheng,et al.  Mechanical properties of 3D fiber reinforced C/SiC composites , 2001 .

[148]  F. Yu,et al.  Microstructural Control of a 70% Silicon Nitride– 30% Barium Aluminum Silicate Self‐Reinforced Composite , 2001 .

[149]  K. Watari High Thermal Conductivity Non-Oxide Ceramics , 2001 .

[150]  Guangming Wu,et al.  Sol–gel derived ZrO2–SiO2 highly reflective coatings , 2000 .

[151]  D. García,et al.  Interpenetrating Al2O3-TiAl3 alloys produced by reactive infiltration , 1999 .

[152]  R. Pailler,et al.  Oxidation-resistant carbon-fiber-reinforced ceramic-matrix composites , 1999 .

[153]  H. Kaya The application of ceramic-matrix composites to the automotive ceramic gas turbine , 1999 .

[154]  Yanchun Zhou,et al.  Microstructure and mechanism of damage tolerance for Ti3SiC2 bulk ceramics , 1999 .

[155]  Hisaichi Ohnabe,et al.  Potential application of ceramic matrix composites to aero-engine components , 1999 .

[156]  S. Zinkle,et al.  Thermophysical and mechanical properties of SiC/SiC composites , 1998 .

[157]  R. Riedel,et al.  Progress in silicon-based non-oxide structural ceramics , 1997 .

[158]  X. Xi,et al.  Sintering behaviour of (Y2O3-ZrO2 gels) , 1996, Journal of Materials Science.

[159]  M. Hoffmann,et al.  Relationship between Microstructure, Toughening Mechanisms, and Fracture Toughness of Reinforced Silicon Nitride Ceramics , 1995 .

[160]  Chun-Hway Hsueh,et al.  Using Microstructure to Attack the Brittle Nature of Silicon Nitride Ceramics , 1995 .

[161]  M. Hoffmann Relationship between microstructure and mechanical properties of silicon nitride ceramics , 1995 .

[162]  M. Hoffmann,et al.  Tailored microstructures of silicon nitride ceramics , 1994 .

[163]  G. Pezzotti Effect of HIP Sintering on the Crystal Structure and Fracture Behavior of α-SiC Platelets Embedded in Si3N4 Matrix , 1993 .

[164]  A. Tsuge,et al.  Mechanical Properties of Unidirectionally Oriented SiC‐Whisker‐Reinforced Si3N4 Fabricated by Extrusion and Hot‐Pressing , 1993 .

[165]  J. Brehm,et al.  Testing the tensile properties of ceramic-matrix composites , 1993 .

[166]  G. Messing,et al.  Processing and Characterization of Laminated SiC Whisker Reinforced Al2O3 , 1991 .

[167]  P. Becher Microstructural design of toughened ceramics , 1991 .

[168]  D. Belitskus Fabrication processes for ceramic composites , 1989 .

[169]  W. Hillig,et al.  Melt Infiltration Approach to Ceramic Matrix Composites , 1988 .

[170]  V. Prasad Thin Ceramics for Electronics , 1988 .

[171]  R. Fischer,et al.  Si3N4 and Si2N2O for high performance radomes , 1985 .

[172]  John Aurie Dean,et al.  Lange's Handbook of Chemistry , 1978 .

[173]  T. T. Sheng,et al.  Tungsten metallization for LSI applications , 1974 .

[174]  R. Davidge Mechanical properties of ceramic materials , 1969 .