Skip to Main Content
American Society of Mechanical Engineers: Digital Collection
Cart
header search
Search
Advanced Search
Skip Nav Destination

Proceedings Papers

Proceedings Volume Cover
ASME 1998 International Mechanical Engineering Congress and Exposition
November 15–20, 1998
Anaheim, California, USA
Conference Sponsors:
  • ASME
ISBN:
978-0-7918-1609-7
Mechanical Behavior of Advanced Materials

Fatigue and Fracture of Metallic Materials

Reliability HCF Design of Gas Turbine Blades Using Probabilistic Goodman Diagram
M.-H. Herman Shen
IMECE 1998; 3-9https://doi.org/10.1115/IMECE1998-1135
View Articletitled, SCM.SharedControls.Infrastructure.TitleDisplayModel?.Text
PDF
Topics: Blades , Design , Gas turbines , High cycle fatigue , Reliability , Probability , Aerodynamics , Damage , Damping , Decision making
The Development and Validation of Design-Oriented Metrics for Fretting Fatigue in Titanium Engine Components
M. P. Szolwinski, G. Harish, T. N. Farris
IMECE 1998; 11-18https://doi.org/10.1115/IMECE1998-1136
View Articletitled, SCM.SharedControls.Infrastructure.TitleDisplayModel?.Text
PDF
Topics: Design , Engines , Fatigue , Titanium , Blades , Cycles , Disks , Fatigue damage , Nucleation (Physics) , Stress
High Cycle Fatigue Behavior and Notch Size Effects in Ti-6Al-4V
David B. Lanning, George K. Haritos, Theodore Nicholas
IMECE 1998; 19-25https://doi.org/10.1115/IMECE1998-1137
View Articletitled, SCM.SharedControls.Infrastructure.TitleDisplayModel?.Text
PDF
Topics: High cycle fatigue , Stress , Cycles , Failure , Fatigue limit , Fatigue , Size effect , Interpolation , Machinery , Stress concentration
Effect of Step Testing and Notches on the Endurance Limit of Ti-6Al-4V
Richard S. Bellows, Ken R. Bain, Jerry W. Sheldon
IMECE 1998; 27-32https://doi.org/10.1115/IMECE1998-1138
View Articletitled, SCM.SharedControls.Infrastructure.TitleDisplayModel?.Text
PDF
Topics: Endurance limit , Testing , Fatigue , Damage , Stress , High cycle fatigue , Air Force , Cracking (Materials) , Fracture (Process) , Geometry
Mechanisms Governing Cyclic Deformation and Damage During Elevated Temperature Fatigue of High Strength Aluminum Alloy 7055
T. S. Srivatsan, S. Anand
IMECE 1998; 33-50https://doi.org/10.1115/IMECE1998-1139
View Articletitled, SCM.SharedControls.Infrastructure.TitleDisplayModel?.Text
PDF
Topics: Aluminum alloys , Damage , Deformation , Fatigue , Temperature , Stress , Alloys , Compression , Crack propagation , Dislocations
A Multiparameter Model for the Prediction of Fatigue Crack Growth
A. B. O. Soboyejo, M. A. Foster, N. Katsube, W. O. Soboyejo
IMECE 1998; 51-66https://doi.org/10.1115/IMECE1998-1140
View Articletitled, SCM.SharedControls.Infrastructure.TitleDisplayModel?.Text
PDF
Topics: Fatigue cracks
Mechanistically-Based Fracture Mechanics Models for the Prediction of Multiple Semi-Elliptical Crack Growth in Q1N (HY80) Pressure Vessel Steel Under Fatigue Loading
W. O. Soboyejo, J. F. Knott
IMECE 1998; 67-77https://doi.org/10.1115/IMECE1998-1141
View Articletitled, SCM.SharedControls.Infrastructure.TitleDisplayModel?.Text
PDF
Topics: Fatigue , Fracture (Materials) , Fracture mechanics , Pressure vessels , Steel , Fatigue cracks , Fatigue life
A Comparison of the Fatigue Crack Growth Behavior of Single Crystal and Polycrystalline Inconel 718
C. Mercer, W. O. Soboyejo, A. B. O. Soboyejo
IMECE 1998; 79-105https://doi.org/10.1115/IMECE1998-1142
View Articletitled, SCM.SharedControls.Infrastructure.TitleDisplayModel?.Text
PDF
Topics: Crystals , Fatigue cracks , Fracture (Materials) , Alloys , Fatigue , Stress , Fractography , Grain boundaries , Scanning electron microscopy
Fatigue Life Prediction of an Orthotropic 6061-Aluminum Under Proportional and Nonproportional Loading
H. Nayeb-Hashemi, H. Lin
IMECE 1998; 107-119https://doi.org/10.1115/IMECE1998-1143
View Articletitled, SCM.SharedControls.Infrastructure.TitleDisplayModel?.Text
PDF
Topics: Aluminum , Fatigue life , Anisotropy , Constitutive equations , Aluminum alloys , Cracking (Materials) , Dislocations , Fatigue , Fracture (Process) , Hardening

Microscale Mechanics of Materials and Structures

Friction and Wear in Lubricated MEMS
D. C. Senft, M. T. Dugger, B. K. Smith
IMECE 1998; 123-125https://doi.org/10.1115/IMECE1998-1144
View Articletitled, SCM.SharedControls.Infrastructure.TitleDisplayModel?.Text
PDF
Topics: Friction , Microelectromechanical systems , Wear , Cycles , Micromachining , Plasmas (Ionized gases) , Pressure
Adhesion, Adhesion Hysteresis and Friction in MEMS Under Controlled Humidity Ambients
M. P. de Boer, J. A. Knapp, J. M. Redmond, T. A. Michalske, R. Maboudian
IMECE 1998; 127-129https://doi.org/10.1115/IMECE1998-1145
View Articletitled, SCM.SharedControls.Infrastructure.TitleDisplayModel?.Text
PDF
Topics: Adhesion , Friction , Microelectromechanical systems , Coatings , Polysilicon , Condensation , Micromachining , Reliability , Surface properties
Structure and Behavior of Materials for Micromechanical Devices
Peter Krulevitch, Kirk P. Seward, Harold D. Ackler, George C. Johnson, Roger T. Howe
IMECE 1998; 131-133https://doi.org/10.1115/IMECE1998-1146
View Articletitled, SCM.SharedControls.Infrastructure.TitleDisplayModel?.Text
PDF
Topics: Buckling , Crystallization , Electron microscopy , Etching , Fatigue , Film thickness , Fracture (Materials) , Fracture (Process) , Mechanical behavior , Microactuators
A MEMS Structure for Measuring the Fracture Strength of Thin Films
George C. Johnson, Peter T. Jones, Roger T. Howe, Michael Au
IMECE 1998; 135-137https://doi.org/10.1115/IMECE1998-1147
View Articletitled, SCM.SharedControls.Infrastructure.TitleDisplayModel?.Text
PDF
Topics: Fracture toughness , Microelectromechanical systems , Thin films , Cantilever beams , Displacement , Fracture (Materials) , Fracture (Process) , Gages , Micromachining , Probes
Low-Cycle Fatigue in Aluminum Microbeams
Richard P. Vinci
IMECE 1998; 139https://doi.org/10.1115/IMECE1998-1148
View Articletitled, SCM.SharedControls.Infrastructure.TitleDisplayModel?.Text
PDF
Topics: Aluminum , Bulk solids , Fatigue failure , Low cycle fatigue , Microbeams , Microelectromechanical systems , Plasticity , Tensile strength , Thin films
In-Situ Test Structures for Metrological and Mechanical Characterization of MEMS
Raj K. Gupta
IMECE 1998; 141-143https://doi.org/10.1115/IMECE1998-1149
View Articletitled, SCM.SharedControls.Infrastructure.TitleDisplayModel?.Text
PDF
Topics: Microelectromechanical systems , Errors , Geometry , Mechanical properties , Stiffness , Calibration , Deflection , Electrical measurement , Semiconductor wafers , Stress
MEMS Testing Techniques for Long-Term Stability
Stuart Brown, Christopher Muhlstein, Cameron Abnet, Clarence Chui
IMECE 1998; 145https://doi.org/10.1115/IMECE1998-1150
View Articletitled, SCM.SharedControls.Infrastructure.TitleDisplayModel?.Text
PDF
Topics: Microelectromechanical systems , Stability , Testing , Creep , Elasticity , Fatigue cracks , Fracture toughness , Governments , Mechanical properties , Mechanical testing
MEMS-Based Test Structures for IC Technology
Stephen A. Smee, Michael Gaitan, Yogendra Joshi
IMECE 1998; 147-149https://doi.org/10.1115/IMECE1998-1151
View Articletitled, SCM.SharedControls.Infrastructure.TitleDisplayModel?.Text
PDF
Topics: Delamination , Density , Electrodiffusion , Failure , Integrated circuits , Microelectromechanical systems , Probability , Reliability , Stress , Thermomechanics
Fatigue and Fracture Testing of Microelectromechanical Systems
Roberto Ballarini, Robert L. Mullen, Harold Kahn, Arthur H. Heuer
IMECE 1998; 151-152https://doi.org/10.1115/IMECE1998-1152
View Articletitled, SCM.SharedControls.Infrastructure.TitleDisplayModel?.Text
PDF
Topics: Fatigue , Fracture (Materials) , Fracture (Process) , Microelectromechanical systems , Testing , Bending strength , Crack propagation , Design , Dimensions , Electrostatic actuators
Size Effects on Mechanical Properties of Polysilicon
William N. Sharpe, Jr.
IMECE 1998; 153-155https://doi.org/10.1115/IMECE1998-1153
View Articletitled, SCM.SharedControls.Infrastructure.TitleDisplayModel?.Text
PDF
Topics: Mechanical properties , Polysilicon , Microelectromechanical systems , Vapors , Young's modulus
Correlation of Fracture Initiation for Microscale Structures: Free-Standing Silicon and Silicon/Glass Interfaces
Martin L. Dunn, Wan Suwito, Paul E. W. Labossiere, Shawn J. Cunningham
IMECE 1998; 157https://doi.org/10.1115/IMECE1998-1154
View Articletitled, SCM.SharedControls.Infrastructure.TitleDisplayModel?.Text
PDF
Topics: Fracture (Materials) , Fracture (Process) , Glass , Microscale devices , Silicon , Stress , Etching , Semiconductor wafers , Anisotropy , Bending (Stress)
Fracture Tracing and Analysis in Silicon and Glass Wafers
Lawrence D. Dyer
IMECE 1998; 159-160https://doi.org/10.1115/IMECE1998-1155
View Articletitled, SCM.SharedControls.Infrastructure.TitleDisplayModel?.Text
PDF
Topics: Fracture (Materials) , Fracture (Process) , Glass , Semiconductor wafers , Silicon , Stress , Microscale devices , Rivers , Shear waves , Brittle fracture

Micromechanics and Laminate Analysis in Honor of Dr. Pagano’s 65th Birthday

Potential Effects of Micromechanical Stresses on the Failure Initiation in Composite Laminates
N. J. Pagano, F. G. Yuan
IMECE 1998; 163-164https://doi.org/10.1115/IMECE1998-1156
View Articletitled, SCM.SharedControls.Infrastructure.TitleDisplayModel?.Text
PDF
Topics: Composite materials , Failure , Laminates , Stress , Fibers , Failure mechanisms , Boundary-value problems , Delamination , Elasticity , Modeling
Asymptotic Crack-Tip Fields in an Anisotropic Plate Subjected to Bending Moments and Transverse Shear Loads
F. G. Yuan, S. Yang
IMECE 1998; 165https://doi.org/10.1115/IMECE1998-1157
View Articletitled, SCM.SharedControls.Infrastructure.TitleDisplayModel?.Text
PDF
Topics: Anisotropy , Fracture (Materials) , Shear (Mechanics) , Stress , Displacement , Composite materials , Deformation , Equilibrium (Physics) , Plates (structures) , Separation (Technology)
Transverse Fracture Toughness of Unidirectional Continuous Fiber and Hybrid Ceramic Matrix Composites
L. R. Dharani, S. B. Haug
IMECE 1998; 167-168https://doi.org/10.1115/IMECE1998-1158
View Articletitled, SCM.SharedControls.Infrastructure.TitleDisplayModel?.Text
PDF
Topics: Ceramic matrix composites , Fibers , Fracture toughness , Fracture (Materials) , Stress , Fracture (Process) , Ceramics , Composite materials , Failure , Geometry
A Novel Compatibility/ Equilibrium Based Iterative Post-Processing Approach for Axisymmetric Brittle Matrix Composites
R. A. Chaudhuri, N. J. Pagano, G. P. Tandon, A. H. Khan
IMECE 1998; 169https://doi.org/10.1115/IMECE1998-1159
View Articletitled, SCM.SharedControls.Infrastructure.TitleDisplayModel?.Text
PDF
Topics: Brittleness , Composite materials , Equilibrium (Physics) , Stress , Cylinders , Displacement , Fibers , Potential energy , Stress concentration , Theorems (Mathematics)
Mechanisms-Based Failure Laws for Graphite/Epoxy Laminates Under Compression
V. Gupta, Dan Potter, Serge Hoart
IMECE 1998; 171-172https://doi.org/10.1115/IMECE1998-1160
View Articletitled, SCM.SharedControls.Infrastructure.TitleDisplayModel?.Text
PDF
Topics: Compression , Epoxy adhesives , Epoxy resins , Failure , Graphite , Laminates , Fibers , Stress , Failure mechanisms , Fracture (Materials)
The Mechanics of Composite Strength Evolution: Concepts and Applications
Ken Reifsnider
IMECE 1998; 173-174https://doi.org/10.1115/IMECE1998-1161
View Articletitled, SCM.SharedControls.Infrastructure.TitleDisplayModel?.Text
PDF
Topics: Composite materials , Fracture (Materials) , Stress , Fracture (Process) , Strength (Materials) , Damage , Fibers , Brittleness , Deformation , Diffusion (Physics)
Cycle Based Modeling of Composite Fatigue
Yuris A. Dzenis
IMECE 1998; 175-176https://doi.org/10.1115/IMECE1998-1162
View Articletitled, SCM.SharedControls.Infrastructure.TitleDisplayModel?.Text
PDF
Topics: Composite materials , Cycles , Fatigue , Modeling , Damage , Laminates , Stress , Acoustic emissions , Emissions , Failure
Holistic Approach for Problems in Heterogeneous Media
Jacob Fish
IMECE 1998; 177-182https://doi.org/10.1115/IMECE1998-1163
View Articletitled, SCM.SharedControls.Infrastructure.TitleDisplayModel?.Text
PDF
Topics: Composite materials , Constitutive equations , Fibers , Laminates , Micromechanics (Engineering) , Microscale devices , Shells , Stiffness , Structural elements (Construction)
Load Transfer Characteristics in Metal/Matrix Composites due to a Fiber Breakage
E. S. Folias
IMECE 1998; 183https://doi.org/10.1115/IMECE1998-1164
View Articletitled, SCM.SharedControls.Infrastructure.TitleDisplayModel?.Text
PDF
Topics: Fibers , Metal matrix composites , Stress , Fracture (Materials) , Integral equations , Bonding , Displacement , Friction , Materials properties , Shear stress
The Fracture Mechanics of Microelectromechanical Systems
Roberto Ballarini
IMECE 1998; 185https://doi.org/10.1115/IMECE1998-1165
View Articletitled, SCM.SharedControls.Infrastructure.TitleDisplayModel?.Text
PDF
Topics: Fracture mechanics , Microelectromechanical systems , Fatigue cracks , Fracture toughness , Stress corrosion cracking
Load Transfer Characteristics in the Vicinity of Fiber Breakage
G. P. Tandon, N. J. Pagano, L. N. McCartney
IMECE 1998; 187-188https://doi.org/10.1115/IMECE1998-1166
View Articletitled, SCM.SharedControls.Infrastructure.TitleDisplayModel?.Text
PDF
Topics: Fibers , Stress , Cylinders , Fracture (Materials) , Composite materials , Damage , Shear (Mechanics) , Deformation , Displacement , Elasticity
A Novel Eigenfunction Expansion Solution for a Three-Dimensional Crack Problem
Reaz A. Chaudhuri, Minsheng Xie
IMECE 1998; 189-190https://doi.org/10.1115/IMECE1998-1167
View Articletitled, SCM.SharedControls.Infrastructure.TitleDisplayModel?.Text
PDF
Topics: Eigenfunctions , Fracture (Materials) , Corners (Structural elements) , Stress , Displacement , Elasticity , Partial differential equations , Renormalization (Physics)
Selected Elements of Thermomechanics for Constitutive Equations
Richard B. Hall
IMECE 1998; 191https://doi.org/10.1115/IMECE1998-1168
View Articletitled, SCM.SharedControls.Infrastructure.TitleDisplayModel?.Text
PDF
Topics: Constitutive equations , Thermomechanics , Damage mechanics , Deformation , Elasticity , Viscoelasticity , Viscoplasticity
Dimensional Stability of Composite in a Space Thermal Environment
Ran Y. Kim, Allan S. Crasto, Gregory A. Schoeppner
IMECE 1998; 193-194https://doi.org/10.1115/IMECE1998-1169
View Articletitled, SCM.SharedControls.Infrastructure.TitleDisplayModel?.Text
PDF
Topics: Composite materials , Stability , Laminates , Cycles , Density , Fracture (Materials) , Space frame structures , Strain gages , Temperature , Anisotropy
Interaction of Two Circular Cylindrical Inhomogeneities Under Antiplane Shear
Wu Linzhi
IMECE 1998; 195-196https://doi.org/10.1115/IMECE1998-1170
View Articletitled, SCM.SharedControls.Infrastructure.TitleDisplayModel?.Text
PDF
Topics: Damage , Failure mechanisms , Fibers , Fracture (Materials) , Particulate matter , Shear (Mechanics) , Shear modulus , Shear stress , Stress , Stress concentration
The Transverse Interface Strength of the Fiber-Matrix Interface in Polymer Matrix Composites
T. Criswell, B. S. Majumdar, R. E. Dutton, T. E. Matikas, N. J. Pagano
IMECE 1998; 197https://doi.org/10.1115/IMECE1998-1171
View Articletitled, SCM.SharedControls.Infrastructure.TitleDisplayModel?.Text
PDF
Topics: Fibers , Polymer composites , Failure , Tensile strength , Bond strength , Coatings , Delamination , Epoxy adhesives , Epoxy resins , Failure mechanisms
Analysis and Characterization of Interfacial Fracture Toughness in Model Composite
G. P. Tandon, R. Y. Kim
IMECE 1998; 199-200https://doi.org/10.1115/IMECE1998-1172
View Articletitled, SCM.SharedControls.Infrastructure.TitleDisplayModel?.Text
PDF
Topics: Composite materials , Fracture toughness , Fracture (Materials) , Stress , Bending (Stress) , Displacement , Epoxy adhesives , Epoxy resins , Laminates , Polyester fabrics
An Atlas of Asymptotically Singular Stress Fields in Axisymmetric Fiber Push-Out Model
Kishore Pochiraju
IMECE 1998; 201-202https://doi.org/10.1115/IMECE1998-1173
View Articletitled, SCM.SharedControls.Infrastructure.TitleDisplayModel?.Text
PDF
Topics: Fibers , Stress , Fracture (Materials) , Stress singularity , Corners (Structural elements) , Cylinders , Damage , Displacement , Finite element methods , Modeling
Micromechanical Modeling of Fiber Fragmentation in Single Fiber Composite Specimens
Jean E. Davis, Jianmin Qu
IMECE 1998; 203-204https://doi.org/10.1115/IMECE1998-1174
View Articletitled, SCM.SharedControls.Infrastructure.TitleDisplayModel?.Text
PDF
Topics: Composite materials , Fibers , Modeling , Fracture (Materials) , Fracture (Process) , Stress , Brittleness , Damage , Elasticity , Finite element methods
Influence of Multiple Fiber Breaks on Stresses in a Fiber Composite With a Creeping Matrix
Irene J. Beyerlein
IMECE 1998; 205-206https://doi.org/10.1115/IMECE1998-1175
View Articletitled, SCM.SharedControls.Infrastructure.TitleDisplayModel?.Text
PDF
Topics: Composite materials , Fibers , Stress , Creep , Fracture (Materials) , Temperature , Tension , Bearings , Ceramic composites , Computational mechanics
Transient Elastic Wave Propagation and Local Dynamic Stress Concentration in Woven Fabric Composites
Tsu-Wei Chou, Baoxing Chen
IMECE 1998; 207-208https://doi.org/10.1115/IMECE1998-1176
View Articletitled, SCM.SharedControls.Infrastructure.TitleDisplayModel?.Text
PDF
Topics: Composite materials , Elastic waves , Stress concentration , Textiles , Transients (Dynamics) , Stress , Yarns , Fibers , Shear stress , Waves
Damage Mechanics for Hybrid Laminates
John Whitcomb, Jae Noh, Kanthikannan Srirengan
IMECE 1998; 209-211https://doi.org/10.1115/IMECE1998-1177
View Articletitled, SCM.SharedControls.Infrastructure.TitleDisplayModel?.Text
PDF
Topics: Damage mechanics , Laminates , Damage , Shear (Mechanics) , Thermal expansion , Accounting , Composite materials , Errors , Failure analysis , Finite element model
An Approach for Thermoviscoelastic Micro-Analysis for Woven Fabric Laminates
Peter W. Chung, Kumar K. Tamma
IMECE 1998; 213https://doi.org/10.1115/IMECE1998-1178
View Articletitled, SCM.SharedControls.Infrastructure.TitleDisplayModel?.Text
PDF
Topics: Laminates , Textiles , Composite materials , Finite element analysis , Hardening (Curing) , Manufacturing , Residual stresses , Temperature
Comparison of Elastic Properties for Unidirectional and Woven Laminates
G. A. Schoeppner, A. K. Roy
IMECE 1998; 215-218https://doi.org/10.1115/IMECE1998-1179
View Articletitled, SCM.SharedControls.Infrastructure.TitleDisplayModel?.Text
PDF
Topics: Elasticity , Laminates , Textiles , Failure , Carbon fibers , Composite materials , Compression , Epoxy resins , Geometry , Knee
A Three-Dimensional Stress Analysis of Woven Fabric Composites Based on a Mixed Variational Model and Spline Approximation
A. K. Roy
IMECE 1998; 219-221https://doi.org/10.1115/IMECE1998-1180
View Articletitled, SCM.SharedControls.Infrastructure.TitleDisplayModel?.Text
PDF
Topics: Approximation , Composite materials , Splines , Stress analysis (Engineering) , Textiles , Yarns , Stress , Finite element analysis , Damage , Displacement
Free-Edge Delamination in Layered Composites: A Historical Review of the Past 30 Years
A. S. D. Wang
IMECE 1998; 223-226https://doi.org/10.1115/IMECE1998-1181
View Articletitled, SCM.SharedControls.Infrastructure.TitleDisplayModel?.Text
PDF
Topics: Composite materials , Delamination , Anisotropy , Elasticity , Engineering disciplines , Fibers , Fracture (Materials) , Fracture (Process) , Packing (Shipments) , Packings (Cushioning)
Interlaminar Phenomenon in Composite Materials: 1969–1999
R. Byron Pipes
IMECE 1998; 227-228https://doi.org/10.1115/IMECE1998-1182
View Articletitled, SCM.SharedControls.Infrastructure.TitleDisplayModel?.Text
PDF
Topics: Composite materials , Laminates , Stress , Anisotropy , Design , Analytical methods , Boundary layers , Computation , Engineers , Fibers
Prediction of Damage Evolution in Laminated Composites Subjected to Impact Loading
D. H. Allen, C. R. Searcy
IMECE 1998; 229-230https://doi.org/10.1115/IMECE1998-1183
View Articletitled, SCM.SharedControls.Infrastructure.TitleDisplayModel?.Text
PDF
Topics: Composite materials , Damage , Fracture (Process) , Algorithms , Computational mechanics , Computers , Continuum mechanics , Design , Failure , Fibers
Crack Propagating in a Bimaterial Functionally Graded Multilayered Composite Media
Sandeep Muju
IMECE 1998; 231-232https://doi.org/10.1115/IMECE1998-1184
View Articletitled, SCM.SharedControls.Infrastructure.TitleDisplayModel?.Text
PDF
Topics: Composite materials , Fracture (Materials) , Stress , Anisotropy , Flamelet generated manifold , Functionally graded materials , Materials properties , Approximation , Eigenfunctions , Eigenvalues
Ultrasonic NDE of Transverse Cracks in Laminated Composites
K. Maslov, R. Kim, V. K. Kinra, N. Pagano
IMECE 1998; 233-234https://doi.org/10.1115/IMECE1998-1185
View Articletitled, SCM.SharedControls.Infrastructure.TitleDisplayModel?.Text
PDF
Topics: Composite materials , Fracture (Materials) , Nondestructive evaluation , Reflection , Excitation , Waves , Crack detection , Damage , Epoxy adhesives , Epoxy resins
Guided Waves in a Fiber-Reinforced Composite Material With Interface Layers
S. K. Datta, W. Zhung, A. H. Shah
IMECE 1998; 235https://doi.org/10.1115/IMECE1998-1186
View Articletitled, SCM.SharedControls.Infrastructure.TitleDisplayModel?.Text
PDF
Topics: Fiber reinforced composites , Waves , Fibers , Mechanical properties , Failure , Glass , Carbon , Cylinders , Deformation , Fracture (Materials)
Rayleigh Waves Propagating Along an Oblique Cut Surface of Directional Fiber Reinforced Composites
Tadashi Ohyoshi
IMECE 1998; 237-238https://doi.org/10.1115/IMECE1998-1187
View Articletitled, SCM.SharedControls.Infrastructure.TitleDisplayModel?.Text
PDF
Topics: Fiber reinforced composites , Rayleigh waves , Waves , Composite materials , Cutting , Fibers , Stress , Density , Dimensions , Dynamic response
Sine Convolution Solution of the Integral Equation Form of Lamé’s Equations
Frank Stenger
IMECE 1998; 239-242https://doi.org/10.1115/IMECE1998-1188
View Articletitled, SCM.SharedControls.Infrastructure.TitleDisplayModel?.Text
PDF
Topics: Integral equations , Composite materials , Slabs
A Composite-Sheathed Compression Test for Characterizing Pressure-Hardening Materials
Pei Chi Chou, William J. Flis
IMECE 1998; 243-244https://doi.org/10.1115/IMECE1998-1189
View Articletitled, SCM.SharedControls.Infrastructure.TitleDisplayModel?.Text
PDF
Topics: Composite materials , Compression , Hardening , Pressure , Explosives , Copper , Cylinders , Deformation , Risk , Anisotropy
An Overview of Shear Deformation Theories and Their Relationships to the Classical Theory
J. N. Reddy
IMECE 1998; 245https://doi.org/10.1115/IMECE1998-1190
View Articletitled, SCM.SharedControls.Infrastructure.TitleDisplayModel?.Text
PDF
Topics: Shear deformation , Finite element model , Plates (structures) , Buckling , Composite materials , Computation , Shear (Mechanics) , Stress , Vibration
Effect of Deformation-Induced Change of Fiber Orientation on Nonlinear Behavior of Polymeric Composite Laminates
C. T. Sun, C. Zhu
IMECE 1998; 247-248https://doi.org/10.1115/IMECE1998-1191
View Articletitled, SCM.SharedControls.Infrastructure.TitleDisplayModel?.Text
PDF
Topics: Deformation , Fibers , Laminates , Polymer composites , Hardening (Curing) , Stress , Composite materials , Plate theory , Damage , Delamination
Displacement Response of Segmented-Stiffness Composite Cylinders
Michael W. Hyer, Jaret C. Riddick
IMECE 1998; 249-250https://doi.org/10.1115/IMECE1998-1192
View Articletitled, SCM.SharedControls.Infrastructure.TitleDisplayModel?.Text
PDF
Topics: Composite materials , Cylinders , Displacement , Stiffness , Laminates , Boundary layers , Construction , Differential equations , Eigenvalues , Manufacturing technology
Model to Predict the Effect of Through-Thickness Loading on Ply Cracking in General Symmetric Laminates
L. N. McCartney
IMECE 1998; 251-252https://doi.org/10.1115/IMECE1998-1193
View Articletitled, SCM.SharedControls.Infrastructure.TitleDisplayModel?.Text
PDF
Topics: Cracking (Materials) , Fracture (Process) , Laminates , Fracture (Materials) , Stress , Displacement , Thermoelasticity , Composite materials , Density , Finite element analysis
Nonlinear Dynamic Snap-Through Buckling of Composite Laminated Spherical Shells
Yang Yiqian, Zhang Duan, Zhou Hongye, Ma Hezhong, Wang Tsunkuei
IMECE 1998; 253-254https://doi.org/10.1115/IMECE1998-1194
View Articletitled, SCM.SharedControls.Infrastructure.TitleDisplayModel?.Text
PDF
Topics: Buckling , Composite materials , Spherical shells , Shells , Displacement , Rotational inertia , Shallow spherical shells , Shear deformation , Stress , Boundary-value problems
Three-Dimensional Singular Stresses in Open Hole and Rigid Fastener Composites
E. V. Iarve
IMECE 1998; 255-257https://doi.org/10.1115/IMECE1998-1195
View Articletitled, SCM.SharedControls.Infrastructure.TitleDisplayModel?.Text
PDF
Topics: Composite materials , Fasteners , Laminates , Splines , Stress
Moiré Interferometry Measurements of Interlaminar Deformation at an Open Hole in Laminated Composite Materials
David Mollenhauer, Daniel Post, Kenneth Reifsnider
IMECE 1998; 259-260https://doi.org/10.1115/IMECE1998-1196
View Articletitled, SCM.SharedControls.Infrastructure.TitleDisplayModel?.Text
PDF
Topics: Composite materials , Deformation , Interferometry , Die cutting , Laminates , Shear (Mechanics) , Shearing (Deformation) , Diffraction patterns , Displacement , Splines
Damage Initiation and Progression in Multidirectional Laminates With a Hole
J. R. Schaff, R. Y. Kim
IMECE 1998; 261https://doi.org/10.1115/IMECE1998-1197
View Articletitled, SCM.SharedControls.Infrastructure.TitleDisplayModel?.Text
PDF
Topics: Damage , Laminates , Composite materials , Acoustic emissions , Aerospace industry , Bearings , Databases , Electrical wires , Fasteners , Graphite fibers
Influence of Adhesive Reinforcement on the Mode I Fracture Toughness of a Bonded Joint
M. S. Forte, J. M. Whitney, G. A. Schoeppner
IMECE 1998; 263-265https://doi.org/10.1115/IMECE1998-1198
View Articletitled, SCM.SharedControls.Infrastructure.TitleDisplayModel?.Text
PDF
Topics: Adhesives , Fracture toughness , Aluminum , Computers , Cracking (Materials) , Damage , Fracture (Process) , Laminates , Plane strain , Stress
Failure Prediction of Bonded Joints of Composite Engineering Structures
Alexander E. Bogdanovich, Sergei P. Yushanov
IMECE 1998; 267-268https://doi.org/10.1115/IMECE1998-1199
View Articletitled, SCM.SharedControls.Infrastructure.TitleDisplayModel?.Text
PDF
Topics: Composite materials , Failure , Structures , Adhesives , Fracture (Materials) , Bricks , Displacement , Crack propagation , Failure mechanisms , Temperature
Applications of Composite Grid Structures
Stephen W. Tsai
IMECE 1998; 269-271https://doi.org/10.1115/IMECE1998-1200
View Articletitled, SCM.SharedControls.Infrastructure.TitleDisplayModel?.Text
PDF
Topics: Composite materials , Manufacturing , Mass production
Mechanics of Microvoid Formation During Resin Transfer Molding
Moon Koo Kang, H. Thomas Hahn
IMECE 1998; 273https://doi.org/10.1115/IMECE1998-1201
View Articletitled, SCM.SharedControls.Infrastructure.TitleDisplayModel?.Text
PDF
Topics: Resins , Transfer molding , Fibers , Flow (Dynamics) , Preforms , Pressure , Pressure gradient , Surface tension
Permeability Measurements of Fiber Preforms and Applications
Ken Han, Bill Lee, Brian Rice
IMECE 1998; 275https://doi.org/10.1115/IMECE1998-1202
View Articletitled, SCM.SharedControls.Infrastructure.TitleDisplayModel?.Text
PDF
Topics: Fibers , Permeability , Preforms , Composite materials , Molding , Aerospace industry , Anisotropy , Flow (Dynamics) , Pressure , Pressure transducers
Electrical Resistance Measurements in Carbon-Carbon Composites
O. O. Ochoa, P. A. Parker
IMECE 1998; 277-278https://doi.org/10.1115/IMECE1998-1203
View Articletitled, SCM.SharedControls.Infrastructure.TitleDisplayModel?.Text
PDF
Topics: Carbon , Composite materials , Electrical resistance , Oxidation , Shear modulus , Electrical properties , Boron , Carbon fibers , Ceramics , Coating processes
Composite Technology Insights That Will Enable the Next Generation Space Telescope
Keith T. Kedward
IMECE 1998; 279-280https://doi.org/10.1115/IMECE1998-1204
View Articletitled, SCM.SharedControls.Infrastructure.TitleDisplayModel?.Text
PDF
Topics: Composite materials , Telescopes , Temperature , Coating processes , Coatings , Density , Design , Fibers , Mirrors , Stiffness
Inelastic Response of Porous, Hybrid Fiber Composites
Alysha M. Roerden, Carl T. Herakovich
IMECE 1998; 281-282https://doi.org/10.1115/IMECE1998-1205
View Articletitled, SCM.SharedControls.Infrastructure.TitleDisplayModel?.Text
PDF
Topics: Composite materials , Fibers , Binders (Materials) , Porosity , Elasticity , Nickel , Elastic moduli , Micromechanics (Engineering) , Nickel alloys , Plasticity
Fabrication, Testing and Analysis of Composite Sandwich Structures
Isaac M. Daniel, R. A. Jandro Abot
IMECE 1998; 283https://doi.org/10.1115/IMECE1998-1206
View Articletitled, SCM.SharedControls.Infrastructure.TitleDisplayModel?.Text
PDF
Topics: Composite materials , Manufacturing , Sandwich structures , Testing , Failure , Foundry coatings , Adhesives , Honeycomb structures , Aluminum , Bonding
Evaluation of Complex Stress Intensity Factors in Debonded Sandwich Beams
Bhavani V. Sankar, Sreerama M. Dharmapuri
IMECE 1998; 285https://doi.org/10.1115/IMECE1998-1207
View Articletitled, SCM.SharedControls.Infrastructure.TitleDisplayModel?.Text
PDF
Topics: Stress , Cantilever beams , Compression , Damage , Density , Euler-Bernoulli beam theory , Finite element model , Fracture toughness
Cracking of Plates With Randomly Distributed Holes by a Maximum Entropy Method
M. Ostoja-Starzewski, Ahmed Al-Ostaz, I. Jasiuk
IMECE 1998; 287-288https://doi.org/10.1115/IMECE1998-1208
View Articletitled, SCM.SharedControls.Infrastructure.TitleDisplayModel?.Text
PDF
Topics: Entropy , Fracture (Process) , Plates (structures) , Fracture (Materials) , Aluminum , Brittleness , Damage , Electromagnetic scattering , Epoxy adhesives , Epoxy resins
Effective Elastic and Strength Properties and Stress Field in Elastic Random Structure Matrix Composites
V. A. Buryachenko
IMECE 1998; 289-290https://doi.org/10.1115/IMECE1998-1209
View Articletitled, SCM.SharedControls.Infrastructure.TitleDisplayModel?.Text
PDF
Topics: Composite materials , Stress , Thermoelasticity , Boundary layers , Coatings , Energy storage , Constitutive equations , Elastic moduli , Elasticity , Functionally graded materials

Durability and Damage Tolerance of Heterogeneous Materials

Static and High Strain Rate Compression Testing of Thick Section S-2 Glass/Vinyl Ester Composites for Integral Armor Application
M. V. Hosur, U. K. Vaidya, N. Jadhav, S. Jeelani
IMECE 1998; 293-300https://doi.org/10.1115/IMECE1998-1210
View Articletitled, SCM.SharedControls.Infrastructure.TitleDisplayModel?.Text
PDF
Topics: Armor , Composite materials , Compression , Ester , Glass , Testing , Laminates , Resins , Fibers , Vacuum
Numerical Study of Damage Growth in Particulate Composites
Y. W. Kwon, C. T. Liu
IMECE 1998; 301-316https://doi.org/10.1115/IMECE1998-1211
View Articletitled, SCM.SharedControls.Infrastructure.TitleDisplayModel?.Text
PDF
Topics: Composite materials , Damage , Particulate matter , Fracture (Materials) , Rubber
An Investigation of the Effects of Layer Thickness on the Fracture Behavior of Layered NiAl/V Composites
M. Li, R. Wang, N. Katsube, W. O. Soboyejo
IMECE 1998; 317-323https://doi.org/10.1115/IMECE1998-1212
View Articletitled, SCM.SharedControls.Infrastructure.TitleDisplayModel?.Text
PDF
Topics: Composite materials , Fracture (Materials) , Finite element methods , Finite element model , Fracture toughness , Shear (Mechanics)
Behavior of Polymeric Composites Exposed to a Heat Flux Simulating Fire
Mark L. Potocki, Mark E. Tuttle, Ann M. Mescher
IMECE 1998; 325-332https://doi.org/10.1115/IMECE1998-1213
View Articletitled, SCM.SharedControls.Infrastructure.TitleDisplayModel?.Text
PDF
Topics: Fire , Heat flux , Polymer composites , Composite materials , Glass , Knudsen number , Polyester fabrics , Pyrolysis , Stress , Temperature gradient
An Information System for Damage Tolerance of Polymer Matrix Composites
Ozgur Turkgenc, Reza Dianati, Milan Mitrovic, H. Thomas Hahn, Peter Shypyrkevich
IMECE 1998; 333-347https://doi.org/10.1115/IMECE1998-1214
View Articletitled, SCM.SharedControls.Infrastructure.TitleDisplayModel?.Text
PDF
Topics: Damage , Polymer composites , Compressive strength , Computer software , Design , Expert systems , Information retrieval , Relational databases
Fracture Behavior of Kaolin-Reinforced High Density Polyethylene
Robert C. Wetherhold, Dionysios E. Mouzakis
IMECE 1998; 349-360https://doi.org/10.1115/IMECE1998-1215
View Articletitled, SCM.SharedControls.Infrastructure.TitleDisplayModel?.Text
PDF
Topics: Density , Fracture (Materials) , Fracture (Process) , Kaolin , Fracture toughness , Composite materials , Heat treating (Metalworking) , Fillers (Materials) , Injection molding , Manufacturing
All Years

ASME Journals

ASME Conference Proceedings

ASME eBooks

Resources

Opportunities

  • Crossref Logo
  • Crossref Open Funder Registry Logo
  • Crossref Open Cited-By Logo
  • Crossref Crossmark Logo
  • Crossref Similarity Check Logo
  • Chorus Logo
  • Counter Logo
  • Cope Logo
  • STM Logo
Copyright © 2025 The American Society of Mechanical Engineers
Close Modal
This Feature Is Available To Subscribers Only

or Create an Account

Close Modal
Close Modal
This site uses cookies. By continuing to use our website, you are agreeing to our privacy policy.
Accept