All Stories

  1. Mechanism of intergranular fatigue crack growth in copper polycrystal
  2. The sources of cyclic slip irreversibility
  3. Extrusions and intrusions in the cyclic plastic zone of the growing fatigue crack in polycrystalline copper
  4. Comparison of critical plane models based on multiaxial low-cycle fatigue tests of 316L steel
  5. Role of Persistent Slip Bands and Persistent Slip Markings in Fatigue Crack Initiation in Polycrystals
  6. Intergranular fatigue crack initiation in polycrystalline copper
  7. On the mechanism of fatigue crack initiation in high-angle grain boundaries
  8. Advantageous Description of Short Fatigue Crack Growth Rates in Austenitic Stainless Steels with Distinct Properties
  9. The effect of dwell on thermomechanical fatigue in superaustenitic steel Sanicro 25
  10. Fatigue crack initiation and growth in 43Fe-25Ni-22.5Cr austenitic steel at a temperature of 700 °C
  11. Damage mechanism in austenitic steel during high temperature cyclic loading with dwells
  12. Atomic resolution characterization of strengthening nanoparticles in a new high-temperature-capable 43Fe-25Ni-22.5Cr austenitic stainless steel
  13. Initiation and growth of short fatigue cracks in austenitic Sanicro 25 steel
  14. Early damage and fatigue crack initiation at ambient and elevated temperatures in heat resistant austenitic steel
  15. Effect of metallurgical variables on the austenite stability in fatigued AISI 304 type steels
  16. The role of extrusions and intrusions in fatigue crack initiation
  17. Short fatigue crack behaviour under low cycle fatigue regime
  18. On the origin of extraordinary cyclic strengthening of the austenitic stainless steel Sanicro 25 during fatigue at 700 °C
  19. Cyclic response and early damage evolution in multiaxial cyclic loading of 316L austenitic steel
  20. Profiles of persistent slip markings and internal structure of underlying persistent slip bands
  21. Microstructure and dislocation arrangements in Sanicro 25 steel fatigued at ambient and elevated temperatures
  22. Surface Relief Formation in Relation to the Underlying Dislocation Arrangement
  23. Crack Initiation in Austenitic Stainless Steel Sanicro 25 Subjected to Thermomechanical Fatigue
  24. Experimental evidence and physical models of fatigue crack initiation
  25. Mechanical properties of high niobium TiAl alloys doped with Mo and C
  26. Surface profile evolution and fatigue crack initiation in Sanicro 25 steel at room temperature
  27. Formation and Dissolution of γ’ Precipitates in IN792 Superalloy at Elevated Temperatures
  28. Surface Relief and Internal Structure in Fatigued Stainless Sanicro 25 Steel
  29. Evolution of the cyclic plastic response of Sanicro 25 steel cycled at ambient and elevated temperatures
  30. Behaviour of ODS Steels in Cyclic Loading
  31. Damage Evolution in Thermomechanical Loading of Stainless Steel
  32. Microstructural changes during deformation of AISI 300 grade austenitic stainless steels: Impact of chemical heterogeneity
  33. Thermomechanical fatigue and damage mechanisms in Sanicro 25 steel
  34. Basic Mechanisms Leading to Fatigue Failure of Structural Materials
  35. Influence of dwell times on the thermomechanical fatigue behavior of a directionally solidified Ni-base superalloy
  36. AFM and SEM-FEG study on fundamental mechanisms leading to fatigue crack initiation
  37. Microstructural stability of ODS steels in cyclic loading
  38. Cyclic plastic response of nickel-based superalloy at room and at elevated temperatures*
  39. Initiation of Stage I Fatigue Cracks – Experiments and Models
  40. Hysteresis Loop Analysis in Cyclically Strained Materials
  41. Editorial
  42. Low cycle fatigue behavior of Sanicro25 steel at room and at elevated temperature
  43. Cyclic Plastic Response and Damage in Materials for High Temperature Applications*
  44. Preface to special issue on Fatigue of metallic materials – Mechanisms and life estimation
  45. Fatigue crack initiation – The role of point defects
  46. Analysis of cyclic plastic response of nickel based IN738LC superalloy
  47. Cyclic Slip Localization and Crack Initiation in Crystalline Materials
  48. AFM and FIB Study of Cyclic Strain Localization and Surface Relief Evolution in Fatigued f.c.c. Polycrystals
  49. In Situ Study of the Mechanisms of High Temperature Damage in Elastic-Plastic Cyclic Loading of Nickel Superalloy
  50. Precipitate microstructure evolution in exposed IN738LC superalloy
  51. Mechanisms of extrusion and intrusion formation in fatigued crystalline materials
  52. LCF Behaviour of Ultrafine Grained 301LN Stainless Steel
  53. Analysis of Cyclic Plastic Response of Heat Resistant Sanicro 25 Steel at Ambient and Elevated Temperatures
  54. A Comparison of Microstructure Evolution due to Fatigue Loading in Eurofer 97 and ODS Eurofer Steels
  55. Monotonic and Cyclic Properties of TiAl Alloys Doped with Nb, Mo and C
  56. The True Shape of Persistent Slip Markings in Fatigued Metals
  57. Slip Activity of Persistent Slip Bands in early Stages of Fatigue Life of Austenitic 316L Steel
  58. The shape of early persistent slip markings in fatigued 316L steel
  59. Persistent Slip Bands (PSBs)
  60. Mechanisms of High Temperature Damage in Elastoplastic Cyclic Loading of Nickel Superalloys and TiAl Intermetallics
  61. Misfit in Inconel-Type Superalloy
  62. Fatigue behavior of coated and uncoated cast Inconel 713LC at 800°C
  63. Fatigue behavior of ferritic–pearlitic–bainitic steel in loading with positive mean stress
  64. Study of cyclic strain localization and fatigue crack initiation using FIB technique
  65. Damage Evolution During Fatigue in Structural Materials
  66. Microstructure of austenitic stainless steels of various phase stabilities after cyclic and tensile deformation
  67. Influence of Al-Si Diffusion Coating on Low Cycle Fatigue Properties of Cast Superalloy Inconel 738LC at 800 °C
  68. Effect of Tensile Dwell on Low Cycle Fatigue of Cast Superalloy Inconel 792-5A at 800°C
  69. Initiation and short crack growth in austenitic-ferritic duplex steel-effect of positive mean stress
  70. Analysis of the Effective and Internal Cyclic Stress Components in the Inconel Superalloy Fatigued at Elevated Temperature
  71. Fatigue cracks in Eurofer 97 steel: Part II. Comparison of small and long fatigue crack growth
  72. Fatigue cracks in Eurofer 97 steel: Part I. Nucleation and small crack growth kinetics
  73. Fatigue behaviour and surface relief in ODS steels
  74. Effect of Temperature on the Cyclic Stress Components of Gamma - TiAl Based Alloy with Niobium Alloying
  75. Effect of Al and Al-Si diffusion coating on the low cycle fatigue behavior of Inconel 713LC
  76. Cyclic plastic response and fatigue life in symmetric and asymmetric cyclic loading
  77. Cyclic Plasticity and Cyclic Creep in Austenitic-Ferritic Duplex Steel
  78. Cyclic plasticity and strain localization in cast γ-TiAl based alloy
  79. Cyclic plasticity, cyclic creep and fatigue life of duplex stainless steel in cyclic loading with positive mean stress
  80. Low Cycle Fatigue Behaviour of ODS Steels for Nuclear Application
  81. Stability of austenitic 316L steel against martensite formation during cyclic straining
  82. Small fatigue crack growth in aluminium alloy EN-AW 6082/T6
  83. Fatigue Crack Propagation Rate in EUROFER 97 Estimated Using Small Specimens
  84. Low Cycle Fatigue Behavior of Cast Superalloy Inconel 713LC with Al Coating at 800 °C
  85. Low Cycle Fatigue of Cast γ-TiAl Based Alloys at High Temperature
  86. Application of FIB technique to study of early fatigue damage in polycrystals
  87. Cyclic plasticity and internal dislocation structure in two-phase alloy
  88. Extrusion and intrusion evolution in cyclically strained cast superalloy Inconel 738LC using confocal laser scanning microscope and AFM
  89. Fatigue properties of high Nb TiAl alloy
  90. Short crack growth in polycrystalline materials
  91. AFM study of surface relief evolution in 316L steel fatigued at low and high temperatures
  92. Effect of Al-Si diffusion coating on the fatigue behavior of cast Inconel 713LC at <mml:math altimg="si1.gif" display="inline" overflow="scroll" xmlns:xocs="http://www.elsevier.com/xml/xocs/dtd" xmlns:xs="http://www.w3.org/2001/XMLSchema" xmlns:xsi=...
  93. Fatigue behaviour of ODS ferritic-martensitic Eurofer steel
  94. Influence of niobium alloying on the low cycle fatigue of cast TiAl alloys at room and high temperatures
  95. Cyclic plastic response and fatigue life in superduplex 2507 stainless steel
  96. Fatigue Behavior of Ferritic-Pearlitic-Bainitic Steel – Effect of Positive Mean Stress
  97. Cyclic Response and Fatigue Life of TiAl Alloys at High Temperatures
  98. The shape of extrusions and intrusions and initiation of stage I fatigue cracks
  99. Extrusions and intrusions in fatigued metals. Part 1. State of the art and history†
  100. Extrusions and intrusions in fatigued metals. Part 2. AFM and EBSD study of the early growth of extrusions and intrusions in 316L steel fatigued at room temperature
  101. Isothermal fatigue behavior of cast superalloy Inconel 792-5A at 23 and 900 °C
  102. Low-cycle fatigue properties of TiAl alloy with high Nb content
  103. Growth of extrusions in localized cyclic plastic straining
  104. Half-cycle slip activity of persistent slip bands at different stages of fatigue life of polycrystalline nickel
  105. Cyclic Stress in 316L Austenitic Stainless Steel at Low Temperatures
  106. Low Cycle Fatigue of Cast Superalloy Inconel 738LC at High Temperature
  107. Dislocation Structures in Nickel Based Superalloy Inconel 792-5A Fatigued at Room Temperature and 700°C
  108. Cyclic Stress in 316L Austenitic Stainless Steel at Low Temperatures
  109. Dislocation Structures in Nickel Based Superalloy Inconel 792-5A Fatigued at Room Temperature and 700°C
  110. Mechanisms and kinetics of the early fatigue damage in crystalline materials
  111. Cyclic Plastic Response and Fatigue Life of Materials
  112. High Temperature Low Cycle Fatigue of Superalloys Inconel 713LC and Inconel 792-5A
  113. Growth of Short Fatigue Cracks Emanating from Notches in an Austenitic-Ferritic Stainless Steel
  114. Fatigue Crack Initiation in Crystalline Materials – Experimental Evidence and Models
  115. Effect of Temperature on the Low Cycle Fatigue of Cast Inconel 792-5A
  116. Cyclic Plastic Response and Fatigue Life of Materials
  117. Fatigue Crack Initiation in Crystalline Materials – Experimental Evidence and Models
  118. High Temperature Low Cycle Fatigue of Superalloys Inconel 713LC and Inconel 792-5A
  119. Effect of Temperature on the Low Cycle Fatigue of Cast Inconel 792-5A
  120. Growth of Short Fatigue Cracks Emanating from Notches in an Austenitic-Ferritic Stainless Steel
  121. Fatigue of Steels
  122. In situ neutron diffraction study of the low cycle fatigue of the α−γ duplex stainless steel
  123. Dislocation structures in cyclically strained X10CrAl24 ferritic steel☆
  124. Effect of Plasma Nitriding on Fatigue Behavior of 316L Stainless Steel
  125. Plastic strain-controlled short crack growth and fatigue life
  126. Short crack growth and fatigue life in austenitic-ferritic duplex stainless steel
  127. Inhomogeneous dislocation structure in fatigued INCONEL 713 LC superalloy at room and elevated temperatures
  128. Dislocation structure and surface relief in fatigued metals
  129. Atomic Force Microscopy Study of the Early Fatigue Damage
  130. Dislocation Structures of Duplex Stainless Steel in Uniaxial and Biaxial Cyclic Loading
  131. Atomic Force Microscopy Study of the Early Fatigue Damage
  132. Dislocation Structures of Duplex Stainless Steel in Uniaxial and Biaxial Cyclic Loading
  133. AFM and TEM study of cyclic slip localization in fatigued ferritic X10CrAl24 stainless steel
  134. The shape of extrusions and intrusions produced by cyclic straining
  135. AFM evidence of surface relief formation and models of fatigue crack nucleation
  136. Study of surface relief evolution in fatigued 316L austenitic stainless steel by AFM
  137. Cyclic Deformation, Crack Initiation, and Low-cycle Fatigue
  138. On the analysis of the hysteresis loop of ferritic steel in cyclic straining
  139. Atomic force microscopy of surface relief in individual grains of fatigued 316L austenitic stainless steel
  140. Fatigue softening of X10CrAl24 ferritic steel
  141. Analysis of the hysteresis loop in stainless steels I. Austenitic and ferritic steels
  142. Analysis of the hysteresis loop in stainless steels II. Austenitic–ferritic duplex steel and the effect of nitrogen
  143. Microstructure in 316LN stainless steel fatigued at low temperature
  144. Effect Of Hardcor Surface Treatment On Fatigue Behaviour of 316L Austenitic Stainless Steel
  145. TENSILE AND LCF PROPERTIES OF AISI 316LN SS AT 300 AND 77 K
  146. Cyclic strain localisation, crack nucleation and short crack growth
  147. Fatigue life curves of materials and the growth of short cracks
  148. Low cycle fatigue of superalloy single crystals CMSX-4
  149. Low-cycle fatigue behaviour of A 316LN stainless steel at 77 K and associated structural transformation
  150. The evaluation of internal and effective stresses during low cycle fatigue in stainless steels
  151. Topography of the crack nuclei at the emerging persistent slip band in austenitic 316L steel
  152. Dislocation structures in the bands of localised cyclic plastic strain in austenitic 316L and austenitic-ferritic duplex stainless steels
  153. Short crack growth kinetics and fatigue life of materials
  154. Internal and effective stress analysis in stainless steels using the statistical approach method
  155. Orientation dependence of surface relief topography in fatigued copper single crystals
  156. Fatigue crack initiation in fibre-metal laminate glare 2
  157. Short fatigue crack behaviour in 316L stainless steel
  158. Effective and internal stresses in cyclic straining of 316 stainless steel
  159. FATIGUE DAMAGE IN TWO STEP LOADING OF 316L STEEL I. EVOLUTION OF PERSISTENT SLIP BANDS
  160. FATIGUE DAMAGE IN TWO-STEP LOADING OF 316L STEEL II. SHORT CRACK GROWTH
  161. Short Crack Growth in 1441 and 1450 Al-Li Alloys
  162. FATIGUE DAMAGE IN AUSTENITIC-FERRITIC DUPLEX STAINLESS STEELS
  163. Dislocation structures in 316L stainless steel cycled with plastic strain amplitudes over a wide interval
  164. Fatigue damage in polycrystalline copper below the fatigue limit
  165. CYCLIC PLASTICITY IN TYPE 316L AUSTENITIC STAINLESS STEEL
  166. Dislocation substructure in fatigued duplex stainless steel
  167. The role of cyclic slip localization in fatigue damage of materials
  168. Dislocation structures in polycrystalline copper cycled at low plastic strain amplitudes
  169. Lattice Defects in the Process of Fatigue in Crystalline Materials
  170. Cyclic softening in annealed polycrystalline copper
  171. Cyclic stress-strain response of polycrystalline copper in a wide range of plastic strain amplitudes
  172. Short Crack Growth and Fatigue Life Evaluation
  173. Dynamics of Cyclic Plastic Straining in Copper Single Crystals
  174. Low Cycle Fatigue in WC-Co Cemented Carbides
  175. Cyclic stress-strain curve evaluation using incremental step test procedure
  176. Cyclic strain localization in polycrystalline copper at room temperature and low temperatures
  177. LOW CYCLE FATIGUE DAMAGE ACCUMULATION IN ARMCO-IRON
  178. Hardness of fatigued copper polycrystals and their relation to their dislocation structure
  179. NUCLEATION AND SHORT CRACK GROWTH IN FATIGUED POLYCRYSTALLINE COPPER
  180. Cyclic strain localization in copper single crystals and polycrystals
  181. Nucleation stress for persistent slip bands in fatigued copper single crystals
  182. On the role of point defects in fatigue crack initiation
  183. Resistivity of fatigued copper single crystals
  184. Cyclic Stress in Polycrystalline Copper
  185. Fatigue Crack Initiation and Early Propagation in Polycrystalline Copper
  186. CYCLIC STRESS-STRAIN RESPONSE OF 2 1/4Cr-1 Mo STEEL AT ELEVATED TEMPERATURES
  187. Surface topography and crack initiation in emerging persistent slip bands in copper single crystals
  188. FATIGUE GROWTH OF SURFACE CRACKS IN THE ELASTIC-PLASTIC REGION
  189. Short crack growth close to the fatigue limit in low carbon steel
  190. Cyclic stress-strain response and dislocation structures in polycrystalline copper
  191. Stress and strain concentration factor evaluation using the equivalent energy concept
  192. On the cyclic stress-strain response of copper at low stress anplitudes
  193. THE HYSTERESIS LOOP 1. A STATISTICAL THEORY
  194. THE HYSTERESIS LOOP 2. AN ANALYSIS OF THE LOOP SHAPE
  195. THE HYSTERESIS LOOP 3. STRESS-DIP EXPERIMENTS
  196. Stress dip technique for effective stress determination in cyclic straining
  197. CYCLIC PLASTICITY AND LOW CYCLE FATIGUE LIFE IN VARIABLE AMPLITUDE LOADING
  198. On the cyclic stress-strain curve evaluation in low cycle fatigue
  199. The dynamics of cyclic plastic deformation and fatigue life of low carbon steel at low temperatures
  200. On the fatigue crack growth rate evaluation from experimental data
  201. High cycle fatigue life of metals
  202. High cycle plastic stress-strain response of metals
  203. Anihilation of positrons in cold-worked copper polycrystals
  204. The effect of the strain amplitude changes on the stress amplitude and resistivity of torsionally fatigued copper
  205. Change of electrical resistivity of polycrystalline copper during tensile deformation
  206. Electrical resistance of platinum wires during annealing and quenching in air and helium
  207. The effect of intermediate annealing on the electrical resistivity and shear stress of fatigued copper
  208. Stage III Recovery of Copper Heavily Deformed in Torsion
  209. Electrical resistivity of cyclically deformed copper
  210. Quenched-in vacancies in nickel
  211. Thermal Quasi-Equilibrium of Vacancies, Divacancies, and Impurities in Platinum
  212. Least-square determination of the binding energy of a divacancy in platinum from the isothermal annealing curves
  213. Calculation of the electrical resistivity and the thermoelectric power of vacancies in copper and gold
  214. Kinetics of Quenched-in Vacancies in Pure Platinum
  215. Change of absolute thermoelectric power of gold and platinum due to lattice defects
  216. Influence of lattice imperfections on thermoelectric power of pure gold
  217. Thermoelectric power of quenched platinum