INDEX TO EXPERIMENTAL MECHANICS Volume 31,1991 TITLE INDEX Holographic Moiri for Strain Fringe Patterns, The — J. Fang and F.-L. Dai, 163-167 (June). Hydroelastic Reduced Scale Model for Wave-loaded Compliant Tower — R.C. Batista, EM.L. Carvalho and N. Roitman, 220-225 (SepL). Impact of Fruit on Flexible Beams to Sense Modulus of Elasticity — J.K. Schueller and TM.P. WalL 118-121 (June). Active Vibration Damping of a Planar Truss Using Air-jet Thrusters — Influence of Specimen Gage Length and Loading Method on the Axial W.L. Hallauer, Jr^ S.E. Lamberson and CA. Baer, 189-196 (SepL). Compressive Strength of a Unidirectional Composite Material — D.F. Assessment of Flow Stress and Plastic Strain by Spectrum Analysis—YZ. Adams and E.Q. Lewis, 14-20 ^ar.). Dai and F.P. Chiang, 197-201 (Sept). Laser Diffraction Methods for High-temperature Strain Measurements — Axial Load Capacity of Cylindrical Shells with Local Geometric Defects H. Pih and K.C. Liu, 60-64 (Mar.). — S. Krishnakumar and C.G. Foster, 104-110 (June). Laser Speckle Decorrelation as a Noncontact Method for Brittle-ductile Combining Photoelasticity and Finite-element Methods for Stress Fracture Differentiation — J.S. Steckenrider and J.W. Wagner, 8-B Analysis Using Least Squares — D.G. Berghaus, 36-41 (Mar.). (Mar.). Comparison of Boundary and Global Collocation Solutions for AT, and Logical Moir6 and Its Application — A Asundi and K.H. Yung, 236-242 CMOD Calibration Functions, A — RJ. Sanford and M.T. (Sept). Kirk, 52-59 (Mar.). Long Wavelength Impact of Izod Fracture Specimens: An Experimental/ Contact Force Prediction and Experimental Veriflcation of an OHC Numerical Investigation — H.Y. Jung, J.S. Epstein, VA Deason and Finger-follower-type Cam-valve System — W.-J. Kim, H.-S. Jeon and W.G. Reuter, 281-287 (Sept). Y.-S. Park, 150-156 (June). Measurement of Axisymmetric Prebuckling Defomations in Axially Contouring by Moir6 Interferometry — Y.Z. Dai and F.P. Chiang, 76-81 Compressed Cylindrical Shells — S. Krishnakumar and C.G. Foster, (Mar.). 47-51 (Mar.). Crack-growth-rate Estimation in a Three-point Bend Specimen During Measurement of Stress-intensity Factor by Means of A-C Potential Drop Low-cycle Fatigue — J. Tryding, 42-46 (Mar.). Technique — M. Saka, M. Nakayama, T. Kaneko and H. Abe, 209-212 Designing an All-purpose Force Transducer — SA. Masroor and L.W. (Sept). Zachary, 33-35 (Mar.). Microhardness Indentation Application and Limitation in Fracture- Determination of Fracture Parameters Using Embedded Fiber-optic toughness Evaluation of Ceramics — H. Nayeb-Hashemi and CA Sensors—N. Narendran, A. Shukla and S.V. Letcher, 360-365 (Dec.). Tracy, 366-372 (Dec.). Determination of the Plastic Zone by Laser-speckle Correlation — Y.Z. Micro-interferometry for Measurement of Thermal Displacements at Dai, C J. Tay and F.P. Chiang, 348-352 (Dec.). Ff «r/Matrix Interfaces — N.R. Sottos, W.R. Scott and RX. McCullough, Determining the Three Individual Stress Components from Measured 98-103 (June). Isochromatic Fringes — Y.M. Huang, C.H Lin, J.C. Suhling, and R.E. Microscopic Mapping of Subnanometric Motion in Semitransparent Sys¬ Rowlands, 310-318 (Dec.). tems — H. Lin, M. Shamoffand L. Du, 257-263 (Sept). Development of a Load-cell Compensation System — MJ. Dixon, 21-24 Misalignment Sensitivity Test for Load Cells — RA Mitchell, 140-143 (Mar.). (June). Diffraction Theory of Optical Interference Moir6 and a Device for Pro¬ Moit6 Interferometry: Advances and Applications — D. Post 276-280 duction of Variable Virtual Reference Gratings: A Moir£ Microscope — (Sept). T.W. Shield and K.-S. Kim, 126-134 (June). Moir6 Interferometry Determination of Residual Stresses in the Presence Direct-tension Split Hopkinson Bar for High Strain-rate Testing, A — of Gradients — G. Nicoletto, 252-256 (Sept). G.H. Staab and A Gilat, 232-235 (Sept.). Multiple Geometric Defects: Their Effect on Stability of Cylindrical Displacement and Strain Measurement with Automated Grid Methods — Shells — S. Krishnakumar and C.G. Foster, 213-219 (Sept). J.S. Sirkis and TJ. Lim, 382-388 (Dec.). New Developments in the Localized Hybrid Method of Stress Analysis — Dynamic Fracture Analysis by Moir6 Interferometry — K. Aakawa, R.H. M.Y. Tsai and J. Morton, 298-305 (Etec.). Drinnon, Jr., M. Kosai and AS. Kobayashi, 306-309 (Dec.). New Technique for the Prediction of Buckling Loads from Nondestructive Dynamic Structural Loading Using a Light Gas Gun — F.Y. Sorrell and Vibration Tests, A — M A Souza and L.M.B. Assaid, 93-97 (June). M.D. Smith, 157-162 (June). Optical Noncontact Dual-angle Linear Displacement Measurements of Experimental Investigation of losipescu Specimen for Composite Large Structures — P.L. Fuhr, D. Huston, J.G. Beliveau, PJ. Kajensk Materials, An — H. Ho, M.Y. Tsai, J. Morton and G.L. Farley, 328-337 andW.B. Spillmatt 185-188 (June). (Dec.). Out-of-plane Deflections of Metallic and Composite Pin-loaded Coupons Experimental Validation of Load Distribution in Screw Threads, An — — S.M. Serabian and R.F. Anastasi, 25-32 (Mar.). M. D'Eramo and P. Cappa, 70-75 (Mar.). Passenger Air-bag Study Using Grametric Analysis of Rigid-body Fracture-toughness Tests and Displacement and Crack-stability Analyses Motion — G.S. Nusholtz, J. Wu and P. Kaiker, 264-270 (Sept). of llingsten Round Bend Specimens — J.H. Underwood, F.I. Baratta Phase-stepped Fractional Moiri — J.H. Sullivan, 373-381 (Dec.^ and J J. Zalinka, 353-359 (Dec.). Photoelastic and FEM Analysis of Interfacial Crack Propagatioit A — I. Full-field Representation of Discretely Sampled Surface Deformation for Miskioglu. C.R. Villmann, J.S. Pawloski and DM. Pariseau, 135-139 Displacement and Strain Analysis — MA Sutton, J.L. Thmer, HA (June). Bruck and TA Chae, 168-177 (June). Photoelastic Study of Friction at Multipoint Contacts, A—J.W. Dally and Fully Automatic Stress-analysis System by Using Electro-optic Modula¬ Y.-M. Chen, 144-149 (June). tion, A — Y.P. Zhang, 344-347 (Dec.). Photomechanical Behavior of Cellulose Acetate Under Viscoelastoplastk Fundamental Study on Rupture by Low-cycle Fatigue of Polymers Apply¬ Deformation — S. Tadano and H. Ishikawa, 226-231 (Sept). ing the Fine-grid Method — A Shimamoto, S. Takahashi and A Plastic Buckling of Cylindrical Shells Under Biaxial Lading — J J. Yokota, 65-69 (Mar.). Giezett C.D. Babcock and J. Singer, 337-343 (Dec.). Holographic Investigation of the Expansion-control Characteristics of Quasi-static and Dyruimic Crack Growth Along Bimaterial Interfaces: A Steel inserts in Pistons — M.M. Ratnam and W.T. Evans, 319-327 Note on Crack-tip Field Measurements Using Coherent Gradient Sens¬ (Dec.). ing — H.V. Tippur and AJ. Rosakis, 243-251 (Sept). Experimental Mechanics • 389 Reduction of Contscc Stress by Use of Relief Notches — M. Bijak- D’Eramo, M. — An Experimental Validation of Load Distribution in Zochowski. A.M. Waas, WJ. Anderson and C.E. Miniatt, 271-275 Screw Threads, 70-75 (Mar.). (SepL). Dai, F.-L> — The Holographic Moir£ for Strain Fringe Patterns, 163- Simulation of Voids Effects on Ductile Fracture of Metallic Alloys — A. 167 (June). El-Domiaty and M. Shaker, 293-297 (Dec.). Dai, Y.Z. — Contouring by Moir6 Interferometry, 76-81 (Mar.). Small-crack Closure Measurements in Titanium Alloys — J.M. Larsen Assessment of Flow Stress and Plastic Strain by Spectrum Analysis, 197- and J.R. Jira, 82-87 (Mar.). Strength and Stiffness of Sandwich Beams in Bending — K. Lingaiah and 201 (Sept). B.G. Suranarayana, 1-7 (Mar.). Determination of the Plastic Zone by Laser-speckle Correlatioit 348- Stress Analysis of Thin Polyimide Films Using Holographic Inter¬ 352 (Dec.). ferometry — MA. Maden and RJ. Farris, 178-184 (June). Dally, J.W. — A Photoelastic Study of Friction at Multipoint Contacts, Tests on the Ductility of Asymmetric Part-through CenterCracks in Plates 144-149 (June). — G A Kardomateas, 288-292 (Sept.). Daniel, I.M. — Thermal Stress Analysis of a Silicon Carbide/Aluminum Thermal Stress Analysis of a Silicon Carbide/Aluminum Composite — Composite, 202-208 (Sept.). E.E. Gdoutos, D. Karalekas and I.M. Daniel, 202-208 (Sept.). Deason, V.A — Long Wavelength Impact of Izod Fracture Specimens: Use of Electrical-resistance Metallic Foil Strain Gages for Measuring Large Dynamic Plastic Deformation, On the — S. Huang and AS. An Experimental/Numerical Investigatiort 281-287 (Sept). Khan 122-125 (June). Dixon, M J. — Development of a Load-cell Compensation System, 21- Viscoelastic Response of a Unidirectional Composite Containing TWo 24 (Mar.). Viscoelastic Constituents — D.E. Walrath, 111-117 (June). Drinnon, Jr., R.H. — Dynamic Fracture Analysis by Moir6 Inter¬ Zero-shift Values of Automatic and Inexpensive Strain-gage Instrumenta¬ ferometry, 306-309 (Dec.). tion Systems — P. Cappa, K.G. McConnell and L.W. Zachary, 88-92 Du, L. — Microscopic Mapping of Subnanometric Motion in Semi¬ (Mar.). transparent Systems, 257-263 (Sept). EI-Domiaty, A — Simulation of Voids Effects on Ductile Fracture of Metallic Alloys, 293-297 (Dec.). Epstein, J.S. — Long Wavelength Impact of Izod Fracture Specimens: An Experimental/Numerical Investigatiort 281-287 (Sept). Evans, W.T. — Holographic Investigation of the Expansion-control AUTHOR INDEX Characteristics of Steel Inserts in Pistons, 319-327 (Dec.). Fang, J. — The Holographic Moir£ for Strain Fringe Patterns, 163-167 (June). Farley, G.L. — An Experimental Investigations of losipescu Specimen Abe, H. — Measurement of Stress-intensity Factor by Means of A-C for Composite Materials, 328-337 (Dec.). Potential Drop Technique, 209-212 (Sept.). Farris, RJ. — Stress Analysis of Thin Polyimide Films Using Adams, D.F. — Influence of Specimen Gage Length and Loading Holographic Interferometry, 178-184 (June). Method on the Axial Compressive Strength of a Unidirectional Com¬ Foster, C.G. — Measurement of Axisymmetric Prebuckling Defor¬ posite Material, 14-20 (Mar.). mations in Axially Compressed Cylindrical Shells, 47-51 (Mar.). Anastasi, R.F. — Out-of-plane Deflections of Metallic and Composite Axial Load Capacity ofCylindrical Shells with Local Geometric Defects, Pin-loaded Coupons, 25-32 (Mar.). 104-110 (June). Anderson, WJ. — Reduction of Contact Stress by Use of Relief Notches, Multiple Geometric Defects: Their Effect on Stability of Cylindrical 271-275 (Sept.). SheUs, 213-219 (Sept). Arakawa, K. — Dynamic Fracture Analysis by Moir£ Interferometry, Fuhr, P.L. — Optical Noncontact Dual-angle Linear Displacement 306-309 (Dec.). Measurements of Large Structures, 185-188 (June). Assaid, L.M.B. — A New Technique for the Prediction of Buckling Loads Gdoutos, E.E. — Thermal Stress Analysis of a Silicon Carbide/ from Nondestructive Vibration Tests. 93-97 (June). Aluminum Composite, 202-208 (Sept.). Asundi, A — Logical Moir6 and Its Application, 236-242 (Sept.). Giezen, JJ. — Plastic Buckling of Cylindrical Shells Un4er Biaxial Babcock, C.D. — Plastic Buckling of Cylindrical Shells Under Biaxial Loading, 337-343 (Dec.). Loading, 337-343 (Dec.). Gilat, A — A Direct-tension Split Hopkinson Bar for High Strain-rate Baer, CA — Active Vibration Damping of a Planar Truss Using Air-jet Testing, 232-235 (Sept). Thrusters, 189-1% (Sept). Hallauer, Jr., W.L. — Active Vibration Damping of a Planar Truss Using Baratta, F.I. — Fracture Toughness Tests and Displacement and Crack- Air-Jet Thrusters, 189-1% (Sept.). stability Analyses of Dmgsten Round Bend Specimens, 353-359 Ho, H, — An Experimental Investigation of losipescu Specimen for Com¬ (Dec.). posite Materials, 328-337 (Dec.). Batista, R.C. — Hydroelastic Reduced Scale Model for Wave-loaded Huang, S. — On the Use of Electrical-resistance Metallic Foil Strain Compliant Tower, 220-225 (Sept). Gages for Measuring Large Dynamic Plastic Deformation, 122-125 Beliveau, J.G. — Optical Noncontact Dual-angle Linear Displacement (June). Measurements of Large Structures,185-188 (June). Huang, Y.M. — Determining the Three Individual Stress Components Bergbaus, D.G. — Combining Photoelasticity and Finite-element from Measured Isochromatic Fringes, 310-318 (Dec.). Methods for Stress Analysis Using Least Squares, 36-41 (Mar.). Huston, D. — Optical Noncontact Dual-angle Linear Displacement Bijak-Zochowski, M. — Reduction of Contact Stress by Use of Relief Measurements of Large Structures, 185-188 (June). Notches, 271-275 (Sept). Ishikawa, H. — Photomechanical Behavior of Cellulose Acetate Under Brack, H. — Full-fleld Representation of Discretely Sampled Surface Viscoelastoplastic Deformation, 226-231 (Sept.). Deformation for Displacement and Strain Analysis, 168-177 (June). Jeon, H.-S. — Contact Force Prediction and Experimental Verification of Cappa, P. — An Experimental Validation of Load Distribution in Screw an OHC Finger-follower-type Cam-valve System, 150-156 (June). Threads, 70-75 (Mar.). Jira, J.R. — Small-crack Closure Measurements in Titanium Alloys, 82- Zero-shift Values of Automatic and Inexpensive Strain-gage Instrumen¬ 87 (Mar.). tation Systems, 88-92 (Mar.). Jung, H.Y. — Long Wavelength Impact of Izod Fracture Specimens: An Carvalho, E.M.L. — Hydroelastic Reduced Scale Model for Wave- Experimental/Numerical Investigation, 281-287 (SepL). loaded Compliant Tower, 220-225 (Sept). Kaiker, P. — Passenger Ar-bag Study Using Geometric Analysis of Chae, TA — Full-field Representation of Discretely Sampled Surface Rigid-body Motion, 264-270 (Sept.). Deformation for Displacement and Strain Analysis, 168-177 (June). Kajensk, PJ. — Optical Noncontact Dual-angle Linear Displacement Chen, Y.M. — A Photoelastic Study of Friction at Multipoint Contacts, Measurements of Large Structures, 185-188 (June). 144-149 (June). Kaneko, T. — Measurement of Stress-intensity Factor by Means of A-C Chiang, F.P. — Contouring by Moir£ Interferometry, 76-81 (Mar.). Potential Drop Technique, 209-212 (Sept.). Assessment of Flow Stress and Plastic Strain by Spectrum Analysis, 197- Karalekas, D. — Thermal Stress Analysis of a Silicon Carbide/ 201 (Sept). Auminum Composite, 202-208 (Sept). Determination of the Plastic Zone by Laser Speckle Correlatioit 348- Kardomateas, G A — Tests on the Ductility of Asymmetric Part-through 352 (Dec.). Center Cracks in Plates, 288-292 (Sept). 390 • December 1991 Khan, A.S. — On the Use of Electrical-resistance Metallic Foil Strain Post, D. — Moiri Interferometry: Advances and Applications, 276-280 Gages for Measuring Large Dynamic Plastic Deformation, 122-125 (SepL). (June). Ratnam, M.M. — Holograhic Investigation of the Expansion-control Kim, W.-J. — Contact Force Prediction and Experimental Veriflcation of Characteristics of Steel Inserts in Pistons, 319-327 (Dec.). an OHC Finger-follower-type Cam-valve System, 150-156 (June). Reuter, W.G. — Long Wavelength Impact of Izod Fracture Specimens: Kim, K.-S. — Diffraction Theory of Optical Interference Moir6 and a An Experimental/Numerical InvestigatiorL 281-287 (SepL). Device for Production of Variable Virtual Reference Gratings: A Moir6 Roitman, N. — Hydroelastic Reduced Scale Model for Wave-loaded Microscope, 126-134 (June). Compliant Tower, 220-225 (SepL). Kirk, M.T. — A Comparison of Boundary and Global Collocation Rosakis, AJ. — Quasi-statk and Dynamic Crack Growth Along Solutions for and CMOD Calibration Functions, 52-59 (Mar.). bimaterial Interfaces: A Note on Crack-tip Field Measurements Using Kobayashi, A.S. — Dynamic Fracture Analysis by Moirf Interferometry, Coherent Gr Jient Sensing, 243-251 (S:pL). 306-309 (Dec.). Rowlands, R.E, — Determining the Thrc individual Stress Components Kosai, M, — Dynamic Fracture Analysis by Moii6 Interferometry, 306- from Measured Isochromatic Fringes, 310-318 (Dec.). 309 (Dec.). Saka, M. — Measurement of Stress-intensity Factor by Means of A-C Krishnakumar, S. — Measurement of Axisymmetric Prebuckling Defor¬ Potential Drop Technique, 209-212 (SepL). mations in Axially Compressed Cylindrical Shells, 47-51 (Mar.). Sanford, RJ. — A Comparison of Boundary and Global Collocation Axial Load Capacity of Cylindrical Shells with Local Geometric Defects, Solutions forKi and CMOD Criibration Functions, 52-59 (Mar.). 104-110 (June). Schueller, J.K. — Impact ofFn.it on Flexible Beams to Sense Modulus of Multiple Geometric Defects: Their Effect on Stability of Cylindrical Elasticity, 118-121 (June). Shells, 213-219 (Sept). Scott, W,R. — Micro-interferometry for Measurement of Thermal Dis¬ Lamberson, S,E. — Active Vibration Damping of a Planar Truss Using placements at Fiber/Matrix Interfaces, 98-103 (June). Air-jet Thrusters, 189-196 (Sept). Serabian, S,M, — Out-of-plane Deflections of Metallic and Composite Larsen, J.M. — Small-crack Closure Measurements in Titanium Alloys, Pin-loaded Coupons, 25-32 (Mar.). 82-87 (Mar.). Shaker, M. — Simulation of Voids Effects on Ductile Fracture of Metallic Lechter, S.V. — Determination of Fracture Parameters Using Embedded Alloys, 293-297 (Dec.). Fiber-optic Sensors, 360-365 (Dec.). Shamoff, M. — Microscopic Mapping of Subnanometric Motion in Lewis, E.Q. — Influence of Specimen Gage Length and Loading Method Semitransparent Systems, 257-263 (SepL). on the Axial Compressive Strength of a Unidirectional Composite Shield, T.W. — Diffraction Theory of Optical Interference Moii6 and a MateriaL 14-20 (Mar.). Device for Production of Variable Virtual Reference Gratings: A Moirf Lim, J,T, — Displacement and Strain Measurement with Automated Microscope, 126-134 (June). Grid Methods, 382-388 (Dec.). Shimamoto, A. — Fundamental Study on Rupture by Low-cycle Fatigue Lin, C.H. — Determining the Three Individual Stress Components from of Polymers Applying the Fine-grid Method, 65-69 (Mar.). Measured Isochromatic Fringes, 310-318 (Dec.). Shukla, A. — Determination of Fracture Parameters Using Embedded Lin, H. — Microscopic Mapping of Subnanometric Motion in Semi¬ Fiber-optic Sensors, 360-365 (Dec.). transparent Systems, 257-263 (Sept). Singer, J, — Plastic Buckling of Cylindrical Shells Under Biaxial Load¬ Lingaiah, K. — Strength and Stiffness of Sandwich Beams in Bending, 1- ing, 337-343 (Dec.). 7 (Mar.). Sirkis, J,S. — Displacement and Strain Measurement with Automated Liu, K.C. — Laser Diffraction Methods for High-temperature Strain Grid Methods, 382-388 (Dec.). Measurements, 60-64 (Mar.). Smith, M.D, — Dynamic Structural Loading Using a Light Gas Gun, Maden, M,A. — Stress Analysis of Thin Polyimide Films Using 157-162 (June). Holographic Interferometry, 178-184 (June). SorrelL F.Y. — Dynamic Structural Loading Using a Light Gas Guil 157- Masroor, S,A. — Designing an All-purpose Force Transducer, 33-35 162 (June). (Mar.). Sottos, N,R. — Mkro-interferometry for Measurement of Thermal Dis¬ McConnell, K.G. — Zero-shift Values of Automatic and Inexpensive placements at Fiber/Matrix Interfaces, 98-103 (June). Strain-gage Instrumentation Systems, 88-92 (Mar.). Souza, M Jk. — A New Technique for the Prediction of Buckling Loads McCullough, R.L. — Micro-interferometry for Measurement of Ther¬ from Nondestructive Vibration Tests, 93-98 (June). mal Displacements at Fiber/Matrix Interfaces, 98-103 (June). Spillman, W.B. — Optical Noncontact Dual-angle Linear Displacement Miniatt, C.E, — Reduction of Contact Stress by Use of Relief Notches, Measurements of Large Structures, 185-188 (JuneX 271-275 (SepL). Staab, G.H. — A Direct-tension Split Hopkinson Bar for High Strain- Miskioglu, I. — A Photoelastic and FEM Analysis of Interfacial Crack rate Testing, 232-235 (SepLX Propagation, 135-139 (June). Steckenrider, J,S, — Laser Speckle Decorrelation as a Noncontact Mitchell, R.A. — Misalignment Sensitivity Test for Load Cells, 140-143 Method for Brittle-ductile Fracture Differentiation, 8-U (Mar.X (June). Suhling, J,C. — Determining the Three Individual Stress Components Morton, J. — New Developments in the Localized Hybrid Method of from Measured Isochromatic Fringes, 310-318 (Dec.X Stress Analysis, 298-305 (Dec.). Sullivan, J,H. — Phase-stepped Fractional Moii6,373-381 (Dec.). An Experimental Investigation of losipescu Specimen for Composite Suranarayana, B.G. — Strength and Stiffness of Sandwkh Beams in Materials. 328-337 (Dec.). Bending, 1-7 (Mar.X Nakayama, M, — Measurement of Stress-intensity Factor by Means of A- Sutton, M. — Full-field Representation of Discretely Sampled Surface C Potential Drop Technique, 209-212 (SepL). Deformation for Displacement and Strain Analysis, 168-177 (June). Narendran, N.—Determination of Fracture Parameters Using Embedded Tadano, S. — Photomechanical Behavior of Cellulose Acetate Under Vis- Fiber-optic Sensors, 360-365 (Dec.). coelastoplastic DeformatiorL 226-231 (SepLX Nayeb-Hashemi, H. — Mictobardness Indentation Application and Ihkahashi, S. — Fundamental Study on Rupture by Low-cycle Fatigue of Limitation in Fracture-toughness Evaluation of Ceramics, 366-372 Polymers Applying the Fine-grid Method, 65-69 (Mar.X (Dec.). Ihy, C J. — Determination of the Plastk Zone by Laser Speckle Correla¬ Nicoletto, G, — Moii6 Interferometry Determination of Residual tion, 348-352 (Dec.X Stresses in the Presence of Gradients, 252-256 (SepL). Tippur, H.V. — Quasi-statk and Dynamk Crack Growth Along Nusholtz, G.S. — Passenger Air-bag Study Using Geometric Analysis of Bimaterial Interfaces: A Note on Crack-tip Field Measurements Using Rigid-body Motion, 264-270 (SepL). Coherent Gradient Sensing, 243-251 (SepL). Pariseau, D.M. — A Photoelastk and FEM Analysis of Inter facial Crack Tkacy, CJi. — Microhardness Indentation Application and Limitation in Propagation, 135-139 (June). Fracture-toughness Evaluation of Ceramics, 366-372 (Dec.). Park, Y.-S. — Contact Force Prediction and Experimental Verification of IVyding, J, — Crack-growth-rate Estimation in a Three-point Bend an OHC Finger-follower-type Cam-valve SystenL 150-156 (June). Specimen During Low^cycle Fatigue, 42-46 (Mar.X Paudoski, J,S. — A Photoelastic and FEM Analysis of Interfacial Crack Tsai, M.Y. — New Developments in the Localized Hybrid Method of PropagatiotL 135-139 (June). Stress Analysis, 298-305 (Dec.). Pih, H. — Laser Diffraction Methods for High-temperature Strain An Experimental Investigation of losipescu Specimen for Composite Measurements, 60-64 (Mar.). Materials, 328-337 (Dec.). Experimental Mechanics • 391 lUrner, J.L. — Full-fleld Representation of Discretely Sampled Surface Wu, J. — Passenger Air-bag Study Using Geometric Analysis of Rigid- Deformation for Displacement and Strain Analysis, 168-177 (June). body Motion, 264-270 (Sept). Underwood, J.H. — Fracture-toughness Tests and Displacement and Yokota, A. — Fundamental Study on Rupture by Low-cycle Fatigue of Crack-stability Analyses of TUngsten Round Bend Specimens, 353-359 Polymers Applying the Fine-grid Method, 65-69 (Mar.). (Dec.). Yung, K.H. — Logical Moir6 and Its Applicatioit 236-242 (Sept.). Villmann, C.R. — A Photoelastic and FEM Analysis of Interfacial Crack Zachary, L.W. — Designing an All-purpose Force Transducer, 33-35 Propagation, 135-139 (June). (Mar.). Waas, A.M. — Reduction of Contact Stress by Use of Relief Notches, 271- Zero-shift Values of Automatic and Inexpensive Strain-gage Instrumenta¬ 275 (Sept). tion Systems, 88-92 (Mar.). Wagner, J.W. — Laser Speckle Decorrelation as a Noncontact Method Zalinka, J J. — Fracture-toughness Tests and Displacement and Crack- for Brittle-ductile Fracture Differentiation, 8-13 (Mar.). stability Analyses of TUngsten Round Bend Specimens, 353-359 Wall, T.M.P. — Impact of Fruit on Flexible Beams to Sense Modulus of (Dec.). Elasticity, 118-121 (June). Zhang, Y.P. — A Fully Automatic Stress Analysis System by Using Walrath, D.E. — Viscoelastic Response of a Unidirectional Composite Electo-optic Modulation, 344-347 (Dec.) Containing IVvo Viscoelastic Constituents, 111-117 (June). STATEMENT OF OMNERSHIf; •M/ ANVA S.GC EHMiEilN T ANO CIACULATION 1A.TITU Of PwBuCATtON 10 PWGLtCATMM AO } ftATI OP PIUMG S. PEMIFOCURtMIHCEVN 0T»A MI wMfE CHANICS Mo.M|Oo O|Pl M|4IOM|4Pm|tsllW|slO M. 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AMO OtniA UCUMT V HOlOPIU 0—MAG 0« w0s.0>A0 1 Pf ACtMl OM MOIM OP TOTAk I 1 AMOUHTOPpatlOG.MOOTGAGilOMOTMCIIUOuMriClftfMM,M,MM.MaiaW7 | COMPlITi MAIilAftAOOOitI t. ^ GOMPUnOM tv MOAPMOPlT OOOMXATIOM AUTHOMIIO TO MAli AT MClAi lUTU ftoM «ai i J ifi-JMP MNCAtPeAiMOTGCUMMAOMMCTioMeuGfU MC fU-| HPMAlCCiHOAHMsCGiIaOnOOuNATtAMOl ftf -aiiH Mf ■ MtnMnMr Mnibii*r /m W MlAwiM >f A■tVtUIOlA OQuCOMiON CePOOPIiCflilOAMCOM tSTAJ^.^piXeti TOTAkHaCOPiMjMNOaMAMj 2600 2600 PMOAM^MQMtTfO eUlCULATlOM 0 0 IfmemSmmUmidt 2140 2112 C. T«OhaTaArkJPPAMIOaAMMJ*OMAA>N IOWUTIOOACWkAflOM 2148 2112 ft P■ AMMfP OkHIP.T OIMMPPUUTIMOMA GiTVA IAMTI. iA. MCOA AOATIHIAM O PAO OMTH CPOAP MlMl AMP 3? 11 C. TOfAkOlGTIUOuTtOMjaHM^rAiPM 2160 2143 420 467 0 0 2600 2600 392 • December 1991 1 ) -4 f i 1 V , / r / k