Fatigue and Fracture
暂无分享,去创建一个
[1] Barrington deV. Batchelor,et al. AN INVESTIGATION OF THE FATIGUE STRENGTH OF DECK SLABS OF COMPOSITE STEEL/CONCRETE BRIDGES , 1978 .
[2] S. Suresh. Fatigue of materials , 1991 .
[3] Halil Karadeniz. Uncertainty modeling in the fatigue reliability calculation of offshore structures , 2001, Reliab. Eng. Syst. Saf..
[4] S V Petinov. THE PRE-FABRICATED HULL DETAILS FOR APPLICATION IN DESIGN AND REPAIR , 2001 .
[5] R. E. Klingner,et al. Fatigue Behavior of Cast-in-Place and Precast Panel Bridge Decks With Isotropic Reinforcement , 1990 .
[6] C Hahin,et al. Effects of Corrosion and Fatigue on the Load Carrying Capacity of Structural and Reinforcing Steel , 1994 .
[7] Fidelis R Mashiri,et al. Effects of weld profile and undercut on fatigue crack propagation life of thin-walled cruciform joint , 2001 .
[8] C. M. Sonsino,et al. Multiaxial fatigue of welded joints under constant and variable amplitude loadings , 2001 .
[9] John W. Fisher,et al. FATIGUE STRENGTH OF STEEL BEAMS WITH WELDED STIFFENERS AND ATTACHMENTS , 1974 .
[10] M. Życzkowski,et al. Structural optimization of elastic columns under stress corrosion conditions , 2001 .
[11] Wan Soo Kim,et al. AN EXPERIMENTAL INVESTIGATION ON FATIGUE BEHAVIOR OF INVERTED ANGLE AND T-TYPE SIDE LONGITUDINALS IN TANKERS , 2001 .
[12] T Dahle,et al. Design fatigue strength of TIG-dressed welded joints in high-strength steels subjected to spectrum loading , 1998 .
[13] A. Gibson,et al. Environmentally enhanced fatigue damage in glass fibre reinforced composites characterised by acoustic emission , 2000 .
[14] Marko Nagode,et al. Parametric modelling and scatter prediction of rainflow matrices , 2001 .
[15] H Paetzold,et al. FATIGUE BEHAVIOR OF DIFFERENT BRACKET CONNECTIONS , 2001 .
[16] F. Bergner,et al. The material-dependent variability of fatigue crack growth rates of aluminium alloys in the Paris regime , 2001 .
[17] E Hognestad,et al. High strength bars as concrete reinforcement, part 6: fatigue tests , 1964 .
[18] A W Beeby,et al. CONCISE EUROCODE FOR THE DESIGN OF CONCRETE BUILDINGS. BASED ON BSI PUBLICATION DD ENV 1992-1-1: 1992. EUROCODE 2: DESIGN OF CONCRETE STRUCTURES. PART 1: GENERAL RULES AND RULES FOR BUILDINGS , 1993 .
[19] Sharif Rahman,et al. Probabilistic fracture mechanics: J-estimation and finite element methods , 2001 .
[20] J. Koenig,et al. The reinforcement mechanism of fiber‐glass reinforced plastics under wet conditions: A review , 1978 .
[21] Wole Soboyejo,et al. Probabilistic Modeling of Fatigue Crack Growth in Ti-6Al-4V , 2000, Materials: Book of Abstracts.
[22] John W. Fisher,et al. DISTORTION-INDUCED FATIGUE CRACKING IN STEEL BRIDGES , 1990 .
[23] Fatigue behavior of butt welded joints containing inclined lack-of-penetration. , 2001 .
[24] Paolo Lazzarin,et al. Notch stress intensity factors and fatigue strength of aluminium and steel welded joints , 2001 .
[25] Alain Nussbaumer,et al. RESISTANCE OF WELDED DETAILS UNDER VARIABLE AMPLITUDE LONG-LIFE FATIGUE LOADING , 1993 .
[26] L. P. Borrego,et al. Fatigue life prediction in AlMgSi1 lap joint weldments , 2000 .
[27] Arthur J. McEvily,et al. On the dependence of the rate of fatigue crack growth on the σna(2a) parameter , 2001 .
[28] Jeffrey A. Packer,et al. Criteria for the fatigue assessment of hollow structural section connections , 1995 .
[29] J. Fisher,et al. ACHIEVING DUCTILE BEHAVIOR OF MOMENT CONNECTIONS — PART II The results , 2001 .
[30] John W. Fisher,et al. EXPERIENCE WITH USE OF HEAVY W SHAPES IN TENSION , 1987 .
[31] Geoffrey L. Kulak,et al. Guide to Design Criteria for Bolted and Riveted Joints , 1987 .
[32] Henry G. Russell,et al. Fatigue Tests of Pretensioned Girders With Blanketed and Draped Strands , 1979 .
[33] T. A. Shugar,et al. Model prediction of fatigue crack propagation in metal alloys in laboratory air , 2001 .
[34] Erkki Niemi,et al. Fatigue crack propagation model based on a local strain approach , 1999 .
[35] Peter W. Marshall. Design of welded tubular connections , 1992 .
[36] Y. Murakami. Stress Intensity Factors Handbook , 2006 .
[37] Paul C. Paris,et al. An evaluation of ΔKeff estimation procedures on 6061-T6 and 2024-T3 aluminum alloys , 1999 .
[38] Ying Lei,et al. Fatigue crack growth in degrading elastic components of nonlinear structural systems under random loading , 2000 .
[39] A. A. Shipkov,et al. Mechanical aspects of corrosion fatigue and stress corrosion cracking , 2001 .
[40] J W Fisher,et al. Fatigue cracking of steel bridge structures; volume 1: a survey of localized cracking in steel bridges - 1981 to 1988 , 1989 .
[41] S. J. Maddox,et al. Full Scale Fatigue Testing of Side Longitudinals In FPSOs , 2001 .
[42] Jiye Chen,et al. Application of decohesive model with mixed damage scale in fracture analysis of composite materials , 2001 .
[43] D. Rooke,et al. The compendium of stress intensity factors , 1978, International Journal of Fracture.
[44] The microstructure and environment influence on fatigue crack growth in 7049 aluminum alloy at different load ratios , 2001 .
[45] Torgeir Moan,et al. Probabilistic analysis of fatigue due to Gaussian load processes , 1990 .
[46] M. A. Wahab,et al. Experimental study of corrosion fatigue behaviour of welded steel structures , 2001 .
[47] Bin Li,et al. A computerized procedure for long‐life fatigue assessment under complex multiaxial loading , 2001 .
[48] Michael F. Petrou,et al. FATIGUE BEHAVIOR OF NONCOMPOSITE REINFORCED CONCRETE BRIDGE DECK MODELS , 1994 .
[49] R.H.R. Tide. Evaluation of steel properties and cracking in “k”-area of W shapes , 2000 .
[50] Sung-Pil Chang,et al. BEHAVIOR OF COMPOSITE BRIDGE DECKS SUBJECTED TO STATIC AND FATIGUE LOADING , 1998 .
[51] A. Fatemi,et al. Strain-controlled fatigue properties of steels and some simple approximations , 2000 .
[52] Ying Shan,et al. Environmental fatigue behavior and life prediction of unidirectional glass–carbon/epoxy hybrid composites , 2001 .
[53] John W. Fisher,et al. Tests of Large Girders Treated To Enhance Fatigue Strength , 2000 .
[54] G. R. Razmjoo,et al. Interim fatigue design recommendations for fillet welded joints under complex loading , 2001 .
[55] A. K. Vasudevan,et al. Analysis of fatigue crack growth under compression–compression loading , 2001 .
[56] Susan Pitt,et al. A methodology for structural optimisation with damage tolerance constraints , 2000 .
[57] R. Pippan,et al. Fatigue crack propagation behavior in the vicinity of an interface between materials with different yield stresses , 2000 .
[58] W. Soboyejo,et al. A multiparameter approach to the prediction of fatigue crack growth in metallic materials , 2001 .
[59] J R Stoker,et al. DETERMINATION OF FATIGUE CHARACTERISTICS OF HOT-DIP GALVANIZED A307 AND A449 ANCHOR BARS AND A325 CAP SCREWS. FINAL REPORT , 1984 .
[60] S. J. Maddox,et al. Fatigue strength of welded structures , 1991 .
[61] K. J. Kirkhope,et al. Weld detail fatigue life improvement techniques. Part 1: review , 1999 .
[62] Carlo Andrea Castiglioni,et al. A unified approach for the design of steel structures under low and/or high cycle fatigue , 1995 .
[63] Ramesh Talreja,et al. Fatigue of composite materials , 1987 .
[64] Karl H. Frank,et al. FATIGUE BEHAVIOR OF PRETENSIONED CONCRETE GIRDERS , 1984 .
[65] E. W. C. Wilkins,et al. Cumulative damage in fatigue , 1956 .
[66] Chitoshi Miki. Fractures in seismically loaded bridges , 1997 .
[67] Susumu Machida,et al. Definition of hot spot stress in welded plate type structure for fatigue assessment (1st Report) , 1991 .
[68] Warship,et al. The Royal Institution of Naval Architects , 1960, Nature.
[69] Helmut Krawinkler,et al. Cumulative damage in steel structures subjected to earthquake ground motions , 1983 .
[70] Keiichiro Sonoda,et al. FATIGUE FAILURE MECHANISM OF REINFORCED CONCRETE BRIDGE DECK SLABS , 1978 .
[71] T. Anderson. Fracture Mechanics: Fundamentals and Applications, Third Edition , 1994 .
[72] A physically-based model for the prediction of long fatigue crack growth in Ti-6Al-4V , 2001 .
[73] Pedro Albrecht,et al. Fatigue Strength of Weathered Rolled Beam Made of A588 Steel , 1994 .
[74] S. J. Maddox. Recommended Hot-Spot Stress Design S-N Curves For Fatigue Assessment of FPSOs , 2001 .
[75] N. Couroneau,et al. Simplifying hypotheses for the fatigue growth analysis of surface cracks in round bars , 2000 .
[76] Feargal Brennan,et al. A new method for predicting stress intensity factors in cracked welded tubular joints , 2000 .
[77] A. Bignonnet,et al. Assessment of welded structures by a local multiaxial fatigue approach , 2001 .
[78] C. Baxter,et al. Advances in Titanium Risers for FPSO's , 1997 .
[79] R. Jaccard,et al. Crack Closure: Correlation and Confusion , 1988 .
[80] Norio Yamamoto,et al. Fatigue Assessment Method considering an Effect of Mean Stress , 2001 .
[81] Timm Seeger,et al. Fatigue crack growth of a welded tube–flange connection under bending and torsional loading , 2001 .
[82] K. Harbich,et al. Application of X-ray refraction topography to fibre reinforced plastics , 2001 .
[83] Robert J. Dexter,et al. FATIGUE-RESISTANT DESIGN OF CANTILEVERED SIGNAL, SIGN, AND LIGHT SUPPORTS , 1998 .
[84] M. Makkonen,et al. Statistical size effect in the fatigue limit of steel , 2001 .
[85] Christian Cremona,et al. PROBABILISTIC ASSESSMENT OF WELDED JOINTS VERSUS FATIGUE AND FRACTURE , 2001 .
[86] B T Yen,et al. CRACK EVALUATION AND REPAIR OF CANTILEVER BRACKET TIE PLATES OF EDISON BRIDGE , 1995 .
[87] C. Jang,et al. FATIGUE LIFE ASSESSMENT OF WELDED JOINTS CONSIDERING CRACK PROPAGATION BASED ON HOT SPOT STRESS , 2001 .
[88] Harald Zenner,et al. Fatigue strength of welded joints under multiaxial loading: experiments and calculations , 2001 .
[89] Matija Fajdiga,et al. Description of statistical dependencies of parameters of random load states (dependency of random load parameters) , 2000 .
[90] Rajamohan Ganesan,et al. A data-driven stochastic approach to model and analyze test data on fatigue response , 2000 .
[91] Robert J. Dexter,et al. Fatigue Testing of Anchor Bolts , 1996 .
[92] André Preumont,et al. Spectral methods for multiaxial random fatigue analysis of metallic structures , 2000 .
[93] J. W. Bull,et al. The low stress design of welded plates using the self-designing structures approach , 2000 .
[94] Su Hao,et al. Computer implementation of damage models by finite element and meshfree methods , 2000 .
[95] Jaap Wardenier,et al. New Guidelines for Fatigue Design of HSS Connections , 1996 .
[96] Robert J. Connor,et al. FATIGUE DESIGN AND TESTING OF MODULAR BRIDGE EXPANSION JOINTS , 1996 .
[97] K. Sadananda,et al. A REVIEW OF CRACK CLOSURE, FATIGUE CRACK THRESHOLD AND RELATED PHENOMENA , 1994 .
[98] M. J. Pavier,et al. The effect of cold expansion on fatigue crack growth from open holes at room and high temperature , 2001 .
[99] Paul H. Wirsching,et al. Fatigue under Wide Band Random Stresses , 1980 .
[100] Hiroshi Kawabe,et al. COMBINATION OF FATIGUE DAMAGES PRODUCED BY SEVERAL WAVE-INDUCED LOADS BASED ON CORRELATION COEFFICIENT METHOD , 2000 .
[101] John W. Fisher,et al. Fatigue Behavior of Stringer-Floorbeam Connections , 1991 .
[102] Raju Sethuraman,et al. A continuum damage mechanics model for ductile fracture , 2000 .
[103] M. A. Wahab,et al. The effect of undercut and residual stresses on fatigue behaviour of misaligned butt joints , 1996 .
[104] J. Fisher,et al. FATIGUE AND FRACTURE IN STEEL BRIDGES , 1984 .
[105] Daniel Kujawski. Correlation of long- and physically short-cracks growth in aluminum alloys , 2001 .
[106] Stefanie E. Stanzl-Tschegg,et al. Fatigue and fatigue crack growth of aluminium alloys at very high numbers of cycles , 2001 .
[107] Zaira P. Marioli-Riga,et al. Study of composite patch repair by analytical and numerical methods , 2001 .
[108] Daniel Kujawski,et al. A new (ΔK+Kmax)0.5 driving force parameter for crack growth in aluminum alloys , 2001 .
[109] Karl H. Frank,et al. Fatigue Strength of Fillet Welded Cruciform Joints , 1979 .
[110] L.B.R Robles,et al. A method for the evaluation of the fatigue operational life of submarine pressure hulls , 2000 .
[111] Sankaran Mahadevan,et al. Model uncertainty and Bayesian updating in reliability-based inspection , 2000 .
[112] H. Saunders,et al. Book Reviews : Fracture and Fatigue Control in Structures - Application of Fracture Mechanics: S.T. Rolfe and J.M. Barsom Prentice-Hall, Inc., Englewood Cliffs, NJ, 1977 , 1979 .
[113] John W. Fisher,et al. Distortion-induced fatigue cracking of bridge details with web gaps , 1989 .
[114] K. J. Kirkhope,et al. Weld detail fatigue life improvement techniques. Part 2: application to ship structures ☆ , 1999 .
[115] Hiroshi Tada,et al. The stress analysis of cracks handbook , 2000 .
[116] F. V. Lawrence,et al. Improving the fatigue performance of fillet weld terminations , 2001 .
[117] John W. Fisher,et al. Manual for inspecting bridges for fatigue damage conditions, January 1990, 174p. (Final report) , 1990 .
[118] A. K. Vasudevan,et al. Critical parameters for fatigue damage , 2001 .
[119] Mohammed H. Baluch,et al. Static and Fatigue Tests of Simulated Bridge Decks , 1986 .
[120] R. J. Dexter,et al. Application of hot-spot stress fatigue analysis to attachments on flexible plate , 1994 .
[121] D. Nicholson,et al. Probabilistic theory for mixed mode fatigue crack growth in brittle plates with random cracks , 2000 .
[122] X.-L. Zheng,et al. Prediction of fatigue life and its probability distribution of notched friction welded joints under variable-amplitude loading , 2000 .
[123] Daniel Kujawski,et al. Enhanced model of partial crack closure for correlation of R-ratio effects in aluminum alloys , 2001 .
[124] Aleksander Muc,et al. Design of composite structures under cyclic loads , 2000 .
[125] T. A. Shugar,et al. Prediction of fracture-based fatigue life of connectors for the mobile offshore base , 2001 .
[126] K. J. Marsh. Full-scale fatigue testing of components and structures , 1988 .
[127] K. J. Miller. Materials science perspective of metal fatigue resistance , 1993 .
[128] W. Soboyejo,et al. An investigation of short and long fatigue crack growth behavior of Ti–6Al–4V , 2000 .
[129] Robert J. Dexter,et al. The effect of welding discontinuities on the variability of fatigue life , 1995 .
[130] Karl H. Frank,et al. Effect of weldments on the fatigue strength of steel beams, Final Report, September 1969 (70-25) , 1969 .
[131] W Fricke,et al. FATIGUE STRENGTH ASSESSMENT OF CRUCIFORM JOINTS , 2001 .
[132] James C. Newman,et al. The Merging of Fatigue and Fracture Mechanics Concepts: A Historical Perspective , 1998 .
[133] J. G. Sevillano. The effective threshold for fatigue crack propagation: a plastic size effect? , 2001 .
[134] M. Bäckström,et al. A review of multiaxial fatigue of weldments: experimental results, design code and critical plane approaches , 2001 .
[135] A. Plumtree,et al. A unified fatigue failure criterion for unidirectional laminates , 2001 .
[136] Rajamohan Ganesan,et al. A stochastic modelling and analysis methodology for quantification of fatigue damage , 2000 .
[137] Karl H. Frank. Fatigue Strength of Anchor Bolts , 1980 .
[138] Mamdouh M. Salama,et al. Titanium Drilling Risers—Application and Qualification , 2000 .
[139] Robert J. Dexter,et al. THROUGH-THICKNESS PROPERTIES OF COLUMN FLANGES IN WELDED MOMENT CONNECTIONS , 1999 .
[140] Jiro Tajima,et al. Fatigue Strengths of Steel Members Having Longitudinal Single-Bevel-Groove Welds , 1980 .
[141] Takashi Matsumura,et al. Effect of shot-peening treatment on high cycle fatigue property of ductile cast iron , 2001 .
[142] L. P. Borrego,et al. Fatigue crack growth and crack closure in an AlMgSi alloy , 2001 .
[143] Anindya Chatterjee,et al. Steps towards a qualitative dynamics of damage evolution , 2000 .
[144] Peter B. Keating,et al. Evaluation of Fatigue Tests and Design Criteria on Welded Details , 1986 .