The Physics and Mechanics of Brittle Matrix Composites
暂无分享,去创建一个
[1] John W. Hutchinson,et al. Mode II fracture toughness of a brittle adhesive layer , 1994 .
[2] A. Evans,et al. Stress Corrosion Cracking in a Unidirectional Ceramic‐Matrix Composite , 1994 .
[3] M. C. Shaw,et al. Cracking and damage mechanisms in ceramic/metal multilayers , 1993 .
[4] A. Evans,et al. The creep and fracture resistance of γ-TiAl reinforced with Al2O3 fibers , 1993 .
[5] Z. Suo,et al. Notch Ductile-to-Brittle Transition Due to Localized Inelastic Band , 1993 .
[6] S. Spearing,et al. Stochastic aspects of matrix cracking in brittle matrix composites , 1993 .
[7] David R. Clarke,et al. Stress Measurement in Single‐Crystal and Polycrystalline Ceramics Using Their Optical Fluorescence , 1993 .
[8] X. Yang,et al. The microstructure of a Nicalon/SiC composite and fibre deformation in the composite , 1993 .
[9] Janet B. Davis,et al. Fiber Coating Concepts for Brittle‐Matrix Composites , 1993 .
[10] A. Evans,et al. Damage Mechanisms and the Mechanical Properties of a Laminated 0/90 Ceramic/Matrix Composite , 1992 .
[11] A. Evans,et al. MECHANICAL-PROPERTIES OF CONTINUOUS-FIBER-REINFORCED CARBON MATRIX COMPOSITES AND RELATIONSHIPS TO CONSTITUENT PROPERTIES , 1992 .
[12] Rishi Raj,et al. Overview no. 100 Scalings in fracture probabilities for a brittle matrix fiber composite , 1992 .
[13] T. Mackin,et al. Fiber Bundle Pushout: A Technique for the Measurement of Interfacial Sliding Properties , 1992 .
[14] B. Audoin,et al. Effect of microcracking on the macroscopic behaviour of ceramic matrix composites: Ultrasonic evaluation of anisotropic damage , 1992 .
[15] A. Evans,et al. Damage and Failure in Unidirectional Ceramic–Matrix Composites , 1992 .
[16] Anthony G. Evans,et al. The role of fiber bridging in the delamination resistance of fiber-reinforced composites , 1992 .
[17] Zhigang Suo,et al. Remarks on Crack-Bridging Concepts , 1992 .
[18] S. Spearing,et al. Matrix crack spacing in brittle matrix composites , 1992 .
[19] A. Evans,et al. Effects of fiber roughness on interface sliding in composites , 1992 .
[20] A. W. Pryce,et al. Behaviour of unidirectional and crossply ceramic matrix composites under quasi-static tensile loading , 1992, Journal of Materials Science.
[21] B. Harris,et al. Matrix cracking and the mechanical behaviour of SiC─CAS composites , 1992, Proceedings of the Royal Society of London. Series A: Mathematical and Physical Sciences.
[22] C. Cho,et al. Experimental Observations of Frictional Heating in Fiber‐Reinforced Ceramics , 1992 .
[23] A. Evans,et al. Mixed mode delamination cracking in brittle matrix composites , 1992 .
[24] C. Cho,et al. Distribution of Matrix Cracks in a Uniaxial Ceramic Composite , 1992 .
[25] P. D. Jero,et al. Effect of Interfacial Roughness on the Frictional Stress Measured Using Pushout Tests , 1991 .
[26] L. Butkus,et al. Tensile and Fatigue Behavior of Silicon Carbide Fiber‐Reinforced Aluminosilicate Glass , 1991 .
[27] A. Evans,et al. Cracking and damage in a notched unidirectional fiber-reinforced brittle matrix composite , 1991 .
[28] William A. Curtin,et al. THEORY OF MECHANICAL-PROPERTIES OF CERAMIC-MATRIX COMPOSITES , 1991 .
[29] William A. Curtin,et al. Exact theory of fibre fragmentation in a single-filament composite , 1991 .
[30] A. Evans. The mechanical properties of reinforced ceramic, metal and intermetallic matrix composites , 1991 .
[31] D. Marshall,et al. CRACK BRIDGING IN THE FATIGUE OF FIBROUS COMPOSITES , 1991 .
[32] J. Holmes. Influence of Stress Ratio on the Elevated‐Temperature Fatigue of a Silicon Carbide Fiber‐Reinforced Silicon Nitride Composite , 1991 .
[33] Triplicane A. Parthasarathy,et al. THEORETICAL ANALYSIS OF THE FIBER PULLOUT AND PUSHOUT TESTS , 1991 .
[34] B. Cox. Extrinsic factors in the mechanics of bridged cracks , 1991 .
[35] N. Pagano,et al. Crack Initiation in Unidirectional Brittle‐Matrix Composites , 1991 .
[36] Frank W. Zok,et al. Effects of fiber failure on fatigue cracking in a Ti/SiC composite , 1991 .
[37] N. Fleck. Brittle fracture due to an array of microcracks , 1991, Proceedings of the Royal Society of London. Series A: Mathematical and Physical Sciences.
[38] A. Evans,et al. Matrix fatigue cracking in fiber composites , 1990 .
[39] D. Clarke,et al. Measurement of Stresses Using Fluorescence in an Optical Microprobe: Stresses around Indentations in a Chromium‐Doped Sapphire , 1990 .
[40] S. Shuler,et al. Temperature rise during fatigue of fibre-reinforced ceramics , 1990 .
[41] C. Hom,et al. Large scale bridging in brittle matrix composites , 1990 .
[42] John W. Hutchinson,et al. Models of fiber debonding and pullout in brittle composites with friction , 1990 .
[43] M. Comninou,et al. Origin of Hysteresis Observed During Fatigue of Ceramic‐Matrix Composites , 1990 .
[44] O. Sbaizero,et al. Effect of Interfaces on the Properties of Fiber‐Reinforced Ceramics , 1990 .
[45] S. Phoenix,et al. Interfacial shear strength studies using the single‐filament‐composite test. Part II: A probability model and Monte Carlo simulation , 1989 .
[46] Anthony G. Evans,et al. Overview no. 85 The mechanical behavior of ceramic matrix composites , 1989 .
[47] J. Chermant,et al. Creep behaviour and microstructural characterization of a ceramic matrix composite , 1989 .
[48] O. Sbaizero,et al. Microstructural Studies of the Interfacial Zone of a SiC-Fiber-Reinforced Lithium Aluminum Silicate Glass-Ceramic , 1989 .
[49] Lorenz S. Sigl,et al. Effect of Interface Mechanical Properties on Pullout in a SiC‐Fiber‐Reinforced Lithium Aluminum Silicate Glass‐Ceramic , 1989 .
[50] R. Bradt,et al. Strength Distribution of Reinforcing Fibers in a Nicalon Fiber/Chemically Vapor Infiltrated Silicon Carbide Matrix Composite , 1989 .
[51] M. Sutcu,et al. Weibull statistics applied to fiber failure in ceramic composites and work of fracture , 1989 .
[52] Brian N. Cox,et al. A J-integral method for calculating steady-state matrix cracking stresses in composites , 1988 .
[53] George J. Dvorak,et al. Progressive Transverse Cracking In Composite Laminates , 1988 .
[54] M. D. Thouless,et al. Effects of pull-out on the mechanical properties of ceramic-matrix composites , 1988 .
[55] K. Chyung,et al. Structure and chemistry of fibre-matrix interfaces in silicon carbide fibre-reinforced glass-ceramic composites: an electron microscopy study , 1987 .
[56] K. Prewo. Fatigue and stress rupture of silicon carbide fibre-reinforced glass-ceramics , 1987 .
[57] D. Marshall,et al. Measurement of Interfacial Mechanical Properties in Fiber‐Reinforced Ceramic Composites , 1987 .
[58] H. Sakata,et al. Friction and frictional tracks on thick silica films prepared by vacuum deposition , 1987 .
[59] L. N. McCartney,et al. Mechanics of matrix cracking in brittle-matrix fibre-reinforced composites , 1987, Proceedings of the Royal Society of London. A. Mathematical and Physical Sciences.
[60] K. Prewo. Tension and flexural strength of silicon carbide fibre-reinforced glass ceramics , 1986 .
[61] O. Sbaizero,et al. Tensile and Shear Properties of Laminated Ceramic Matrix Composites , 1986 .
[62] A. Evans,et al. The mechanics of matrix cracking in brittle-matrix fiber composites , 1985 .
[63] A. Evans,et al. Failure Mechanisms in Ceramic‐Fiber/Ceramic‐Matrix Composites , 1985 .
[64] H. Chai. The characterization of Mode I delamination failure in non-woven, multidirectional laminates , 1984 .
[65] K. Prewo. A compliant, high failure strain, fibre-reinforced glass-matrix composite , 1982 .
[66] Karl M. Prewo,et al. Silicon carbide fibre reinforced glass-ceramic matrix composites exhibiting high strength and toughness , 1982 .
[67] K. Prewo,et al. Silicon carbide yarn reinforced glass matrix composites , 1982 .
[68] F. Mcclintock,et al. Statistical Determination of Surface Flaw Density in Brittle Materials , 1976 .
[69] D. C. Phillips. Interfacial bonding and the toughness of carbon fibre reinforced glass and glass-ceramics , 1974 .
[70] A. Kelly,et al. Creep of discontinuous fibre composites II. Theory for the steady-state , 1972, Proceedings of the Royal Society of London. A. Mathematical and Physical Sciences.
[71] S. Mileiko. Steady state creep of a composite material with short fibres , 1970 .
[72] H. Daniels. The statistical theory of the strength of bundles of threads. I , 1945, Proceedings of the Royal Society of London. Series A. Mathematical and Physical Sciences.
[73] B. Budiansky,et al. On the tensile strength of a fiberreinforced ceramic composite containing a crack-like flaw , 1994 .
[74] J. Hutchinson,et al. Mechanics of the fiber pushout test , 1993 .
[75] R. Naslain. Fibre-matrix interphases and interfaces in ceramic matrix composites processed by CVI , 1993 .
[76] S. Jansson,et al. Mechanical behavior of a continuous fiber reinforced aluminum matrix composite subjected to transverse and thermal loading , 1992 .
[77] B. Cox,et al. Load ratio, notch, and scale effects for bridged cracks in fibrous composites , 1992 .
[78] O. Sbaizero,et al. Mode I Fracture Resistance of a Laminated Fiber-Reinforced Ceramic , 1991 .
[79] J. Holmes. Tensile creep behaviour of a fibre-reinforced SiC-Si3N4 composite , 1991, Journal of Materials Science.
[80] Anthony G. Evans,et al. The role of interfaces in fiber-reinforced brittle matrix composites , 1991 .
[81] K. Prewo,et al. Tensile performance of carbon-fibre-reinforced glass , 1988 .
[82] C. Bulik,et al. Effect of fiber coatings and composite processing on properties of zirconia-based matrix SiC fiber composites , 1986 .
[83] A. Evans,et al. Matrix fracture in fiber-reinforced ceramics , 1986 .
[84] M. Mclean. Creep deformation of metal—matrix composites☆ , 1985 .
[85] T. Nieh. Creep rupture of a silicon carbide reinforced aluminum composite , 1984 .
[86] K. Prewo,et al. High-strength silicon carbide fibre-reinforced glass-matrix composites , 1980 .