All Stories

  1. Effect of grain refinement and crystallographic texture produced by friction stir processing on the biodegradation behavior of a Mg-Nd-Zn alloy
  2. Novel β-Ti35Zr28Nb alloy scaffolds manufactured using selective laser melting for bone implant applications
  3. Generalisation of the oxide reinforcement model for the high oxidation resistance of some Mg alloys micro-alloyed with Be
  4. Improved biodegradation resistance by grain refinement of novel antibacterial ZK30-Cu alloys produced via selective laser melting
  5. Investigating Mg Biocorrosion In Vitro: Lessons Learned and Recommendations
  6. Formation and characteristic corrosion behavior of alternately lamellar arranged α and β in as-cast AZ91 Mg alloy
  7. A Graphene Spin Coatings for Cost-Effective Corrosion Protection for the Magnesium Alloy AZ31
  8. Strain hardening of as-extruded Mg-xZn (x = 1, 2, 3 and 4 wt%) alloys
  9. Stress corrosion cracking of EV31A in 0.1 M Na2SO4 saturated with Mg(OH)2
  10. Evaluation of the influence of hydrogen on some commercial DP, Q&P and TWIP advanced high-strength steels during automobile service
  11. The influence of microstructure on the hydrogen embrittlement susceptibility of martensitic advanced high strength steels
  12. Corrosion of porous Ti35Zr28Nb in Hanks’ solution and 3.5 wt% NaCl
  13. Viewpoint - Understanding Mg corrosion in the body for biodegradable medical implants
  14. Evaluation of automobile service performance using laboratory testing
  15. Active corrosion protection by a smart coating based on a MgAl-layered double hydroxide on a cerium-modified plasma electrolytic oxidation coating on Mg alloy AZ31
  16. Enhanced Corrosion Resistance of Anodic Films Containing Alumina Nanoparticles on as-rolled AZ31 alloy
  17. Erratum to: Building towards a standardised approach to biocorrosion studies: a review of factors influencing Mg corrosion in vitro pertinent to in vivo corrosion (vol 61, pg 475, 2018)
  18. Further study of the hydrogen embrittlement of martensitic advanced high-strength steel in simulated auto service conditions
  19. Human Forces in Engineering
  20. Engineering in the modern world
  21. Thermal desorption spectrometer for measuring ppm concentrations of trapped hydrogen
  22. Improved oxidation resistance of Mg-9Al-1Zn alloy microalloyed with 60 wt ppm Be attributed to the formation of a more protective (Mg,Be)O surface oxide
  23. Determination of the equivalent hydrogen fugacity during electrochemical charging of 3.5NiCrMoV steel
  24. The Corrosion Behavior of Mg5Y in Nominally Distilled Water
  25. Cu-7Cr-0.1Ag Microcomposites Optimized for High Strength and High Condutivity
  26. The role of the microstructure on the influence of hydrogen on some advanced high-strength steels
  27. Sealing of anodized magnesium alloy AZ31 with MgAl layered double hydroxides layers
  28. Tables & figures for to be published paper
  29. Effect of Micro-Arc Oxidation Coatings Formed at Different Voltages on the In Situ Growth of Layered Double Hydroxides and Their Corrosion Protection
  30. Building towards a standardised approach to biocorrosion studies: a review of factors influencing Mg corrosion in vitro pertinent to in vivo corrosion
  31. Effect of thermal-mechanical processing on microstructure and mechanical properties of duplex-phase Mg-8Li-3Al-0.4Y alloy
  32. The Influence of Hydrogen on the Low Cycle Fatigue Behavior of Medium Strength 3.5NiCrMoV Steel Studied Using Notched Specimens
  33. Influence of pH on the growth behaviour of Mg–Al LDH films
  34. Equivalent hydrogen fugacity during electrochemical charging of some martensitic advanced high-strength steels
  35. Sterilizing Magnesium Alloys for Temporary Medical Applications
  36. Hydrogen Trapping in Some Automotive Martensitic Advanced High-Strength Steels
  37. Equivalent Hydrogen Fugacity during Electrochemical Charging of 980DP Steel Determined by Thermal Desorption Spectroscopy
  38. Influence of crystallographic texture and grain size on the corrosion behaviour of as-extruded Mg alloy AZ31 sheets
  39. Corrosion of Ti35Zr28Nb in Hanks’ solution and 3.5 wt% NaCl solution
  40. Hydrogen influence on some advanced high-strength steels
  41. Combined influence of Be and Ca on improving the high-temperature oxidation resistance of the magnesium alloy Mg-9Al-1Zn
  42. Corrosion of the galvanizing of galvanized-steel electricity transmission towers
  43. Deformation mechanism and microstructure evolution during on-line heating rolling of AZ31B Mg thin sheets
  44. Communication—Fabrication of Protective Layered Double Hydroxide Films by Conversion of Anodic Films on Magnesium Alloy
  45. Oxidation of magnesium alloys at elevated temperatures in air: A review
  46. Hydrogen trapping in some advanced high strength steels
  47. Corrosion and passivation of magnesium alloys
  48. Influence of hydrogen on the mechanical and fracture properties of some martensitic advanced high strength steels in simulated service conditions
  49. A review on hot tearing of magnesium alloys
  50. Influence of Ag micro-alloying on the thermal stability and ageing characteristics of a Cu–14Fe in-situ composite
  51. Influence of surface condition on the corrosion of ultra-high-purity Mg alloy wire
  52. Hydrogen Concentration in Dual-Phase (DP) and Quenched and Partitioned (Q&P) Advanced High-Strength Steels (AHSS) under Simulated Service Conditions Compared with Cathodic Charging Conditions 
  53. Solidification of Mg-Zn-Y Alloys at 6 GPa Pressure: Nanostructure, Phases Formed, and Their Stability
  54. Oxidation resistance of Mg–9Al–1Zn alloys micro-alloyed with Be
  55. Influence of high pressure during solidification on the microstructure and strength of Mg-Zn-Y alloys
  56. A review of the influence of hydrogen on the mechanical properties of DP, TRIP, and TWIP advanced high-strength steels for auto construction
  57. A review of hydrogen embrittlement of martensitic advanced high-strength steels
  58. Optimising the surface treatment of ultra-high purity mg alloy wire
  59. An Hydrogen Evolution Method for the Estimation of the Corrosion Rate of Magnesium Alloys
  60. Effect of H 3 BO 3 on corrosion in 0.01 M NaCl solution of the interface between low alloy steel A508 and alloy 52 M
  61. The influence of pH on the corrosion rate of high-purity Mg, AZ91 and ZE41 in bicarbonate buffered Hanks' solution
  62. Stress corrosion cracking of high-strength AZ31 processed by high-ratio differential speed rolling
  63. Effect of Heat Treatment on the Microstructure and Properties of Deformation-Processed Cu-7Cr In Situ Composites
  64. The influence of hydrogen on the mechanical and fracture properties of some martensitic advanced high strength steels studied using the linearly increasing stress test
  65. Stress corrosion cracking of several hot-rolled binary Mg–X alloys
  66. Strain rate dependence in the nanoindentation-induced deformation of Mg-Al intermetallic compounds produced by packed powder diffusion coating
  67. Electrochemical Dealloying of a Ternary Al67Cu18Sn15 Alloy Compared with that of a Binary Al75Cu25 Alloy
  68. Reversible hydrogen trapping in a 3.5NiCrMoV medium strength steel
  69. Stress corrosion cracking of several solution heat-treated Mg–X alloys
  70. Influence of casting porosity on the corrosion behaviour of Mg0.1Si
  71. Creation of bimodal porous copper materials by an annealing-electrochemical dealloying approach
  72. Corrosion and stress corrosion cracking of ultra-high-purity Mg5Zn
  73. Possible dissolution pathways participating in the Mg corrosion reaction
  74. Review of Recent Developments in the Field of Magnesium Corrosion
  75. Concurrence of de-alloying and re-alloying in a ternary Al67Cu18Sn15 alloy and the fabrication of 3D nanoporous Cu–Sn composite structures
  76. Influence of hot rolling on the corrosion behavior of several Mg–X alloys
  77. Revolutionising biodegradable biomaterials – significance of magnesium and its alloys
  78. Corrosion of Mg for biomedical applications
  79. Optimisation of the high velocity oxygen fuel (HVOF) parameters to produce effective corrosion control coatings on AZ91 magnesium alloy
  80. Low apparent valence of Mg during corrosion
  81. Influence of hydrogen on the mechanical properties of some medium-strength Ni–Cr–Mo steels
  82. Determination of the hydrogen fugacity during electrolytic charging of steel
  83. Galvanostatic anodic polarisation of WE43
  84. Influence of experimental parameters on thermal desorption spectroscopy measurements during evaluation of hydrogen trapping
  85. Corrosion behaviour of laser surface melted magnesium alloy AZ91D
  86. Evaluation of Coatings for Mg Alloys for Biomedical Applications
  87. An Hydrogen Evolution Method for the Estimation of the Corrosion Rate of Magnesium Alloys
  88. Nanomechanical properties of Mg–Al intermetallic compounds produced by packed powder diffusion coating (PPDC) on the surface of AZ91E
  89. Corrosion performance and mechanical properties of sputter-deposited MgY and MgGd alloys
  90. Comments on the paper entitled “Observations of the galvanostatic dissolution of pure magnesium” by N.T. Kirkland, G. Williams and N. Birbilis
  91. Influence of the chloride ion concentration on the corrosion of high-purity Mg, ZE41 and AZ91 in buffered Hank’s solution
  92. Corrosion behaviour in salt spray and in 3.5% NaCl solution saturated with Mg(OH)2 of as-cast and solution heat-treated binary Mg–RE alloys: RE=Ce, La, Nd, Y, Gd
  93. Corrosion behaviour in salt spray and in 3.5% NaCl solution saturated with Mg(OH)2 of as-cast and solution heat-treated binary Mg–X alloys: X=Mn, Sn, Ca, Zn, Al, Zr, Si, Sr
  94. Influence of a high magnetic field on the microstructure and properties of a Cu–Fe–Ag in situ composite
  95. An Hydrogen Evolution Method for the Estimation of the Corrosion Rate of Magnesium Alloys
  96. The in vivo and in vitro corrosion of high-purity magnesium and magnesium alloys WZ21 and AZ91
  97. Corrosion of ultra-high-purity Mg in 3.5% NaCl solution saturated with Mg(OH)2
  98. Microstructure and Properties of a Deformation-Processed Cu-Cr-Ag In Situ Composite by Directional Solidification
  99. Evaluation from First Principles the Structural Stability of Mg Containing Different Amounts of Al Atoms under High Pressure
  100. Advances in Mg corrosion and research suggestions
  101. Production of High Purity Mg-X Rare Earth Binary Alloys Using Zr
  102. Neutron residual stress measurements in rails
  103. Thermal desorption spectroscopy study of the interaction of hydrogen with TiC precipitates
  104. Overview of the Mg Corrosion Mechanism
  105. Thermal desorption spectroscopy study of experimental Ti/S containing steels
  106. Corrosion of Non-Ferrous Alloys. III. Magnesium Alloys
  107. The influence of hydrogen on 3.5NiCrMoV steel studied using the linearly increasing stress test
  108. Stress corrosion cracking of high-strength steels
  109. A critical review of the influence of hydrogen on the mechanical properties of medium-strength steels
  110. A Novel Heat Treatment for Excavator Dipper Teeth Manufactured from Low-Carbon Low-Alloy Steel
  111. Corrosion behaviour of a nominally high purity Mg ingot produced by permanent mould direct chill casting
  112. Galvanostatic anodic polarisation curves and galvanic corrosion of high purity Mg in 3.5% NaCl saturated with Mg(OH)2
  113. Role of second phase cementite and martensite particles on strength and strain hardening in a plain C-Mn steel
  114. Plug-In Specimens for Measurement of the Corrosion Rate of Mg Alloys
  115. Surface damage on new AS60 rail caused by wheel slip
  116. Flammability of Mg-X Binary Alloys
  117. Production of High Purity Magnesium Alloys by Melt Purification with Zr
  118. Influence of Al and Y on the ignition and flammability of Mg alloys
  119. The ignition temperature of Mg alloys WE43, AZ31 and AZ91
  120. Mechanics of modern test methods and quantitative-accelerated testing for hydrogen embrittlement
  121. Galvanostatic Anodic Polarization Curves and Galvanic Corrosion of AZ31B in 0.01 M Na2SO4 Saturated with Mg(OH)2
  122. Corrosion mechanism applicable to biodegradable magnesium implants
  123. Summary of the panel discussions at the 2nd Symposium on Biodegradable Metals, Maratea, Italy, 2010
  124. Corrosion of high purity Mg, Mg2Zn0.2Mn, ZE41 and AZ91 in Hank’s solution at 37°C
  125. Strength and toughness tradeoffs for an ultrafine-grain size ferrite/cementite steel produced by warm-rolling and annealing
  126. The ductile to brittle transition for C–Mn steel with an ultrafine grain ferrite/cementite microstructure
  127. Influence of the applied stress rate on the stress corrosion cracking of 4340 and 3.5NiCrMoV steels under conditions of cathodic hydrogen charging
  128. An Innovative Specimen for Mg Corrosion Studies
  129. Magnesium Corrosion in Different Solutions
  130. Identification of the effective grain size responsible for the ductile to brittle transition temperature for steel with an ultrafine grain size ferrite/cementite microstructure with a bimodal ferrite grain size distribution
  131. Corrosion of high purity Mg, AZ91, ZE41 and Mg2Zn0.2Mn in Hank’s solution at room temperature
  132. Stress Corrosion Cracking of Magnesium Alloys
  133. An innovative specimen configuration for the study of Mg corrosion
  134. Numerical modelling of galvanic corrosion of magnesium (Mg) alloys
  135. Stress corrosion cracking (SCC) of magnesium (Mg) alloys
  136. Corrosion of magnesium (Mg) alloys and metallurgical influence
  137. Testing and evaluation methods for stress corrosion cracking (SCC) in metals
  138. Stress corrosion cracking (SCC) of magnesium alloys
  139. The influence of yttrium (Y) on the corrosion of Mg–Y binary alloys
  140. Influence of Si on glass forming ability and properties of the bulk amorphous alloy Mg60Cu30Y10
  141. ChemInform Abstract: Stress Corrosion Cracking (SCC) of As-Quenched 4340 and 3.5 NiCrMoV Steels Under Stress Rate Control in Distilled Water at 90 °C.
  142. ChemInform Abstract: The Electrochemical Corrosion of Pure Magnesium in 1 N NaCl.
  143. Effect of Ag micro-alloying on the microstructure and properties of Cu–14Fe in situ composite
  144. Influence of Ag micro-alloying on the microstructure and properties of Cu–7Cr in situ composite
  145. Electricity generation using a carbon-dioxide thermosiphon
  146. The influence of applied stress rate on the stress corrosion cracking of 4340 and 3.5NiCrMoV steels in distilled water at 30°C
  147. Measurement of the corrosion rate of magnesium alloys using Tafel extrapolation
  148. Electrochemical reactivity, surface composition and corrosion mechanisms of the complex metallic alloy Al3Mg2
  149. Influence of microstructure on tensile properties and fatigue crack growth in extruded magnesium alloy AM60
  150. Corrosion protection of AZ91 magnesium alloy by anodizing in niobium and zirconium-containing electrolytes
  151. ToF-SIMS depth profile of the surface film on pure magnesium formed by immersion in pure water and the identification of magnesium hydride
  152. An exploratory study of the corrosion of Mg alloys during interrupted salt spray testing
  153. A first quantitative XPS study of the surface films formed, by exposure to water, on Mg and on the Mg–Al intermetallics: Al3Mg2 and Mg17Al12
  154. Corrosion of AZ91 - Influence of the β-Phase Morphology
  155. A Preliminary Quantitative XPS Study of the Surface Films Formed on Pure Magnesium and on Magnesium-Aluminium Intermetallics by Exposure to High-Purity Water
  156. Calculated phase diagrams and the corrosion of die-cast Mg–Al alloys
  157. Composition and morphology of the film formed on a lead alloy under conditions typical of the electro-winning of copper
  158. Hydrogen embrittlement and rock bolt stress corrosion cracking
  159. Influence of heat treatment and microstructure on the corrosion of magnesium alloy Mg-10Gd-3Y-0.4Zr
  160. Calculated phase diagrams, iron tolerance limits, and corrosion of Mg-Al alloys
  161. Influence of pH and chloride ion concentration on the corrosion of Mg alloy ZE41
  162. Metallurgical aspects of rock bolt stress corrosion cracking
  163. SCC of commercial steels exposed to high hydrogen fugacity
  164. Influence of the β-phase morphology on the corrosion of the Mg alloy AZ91
  165. Corrosion of AZ91 in 1N NaCl and the Mechanism of Magnesium Corrosion
  166. Stress Corrosion Cracking (SCC) in Mg-Al Alloys Studied using Compact Specimens
  167. Stress corrosion cracking of rare-earth containing magnesium alloys ZE41, QE22 and Elektron 21 (EV31A) compared with AZ80
  168. Effect of applied stress and microstructure on sulfide stress cracking resistance of pipeline steels subject to hydrogen sulfide
  169. Fractography of Stress Corrosion Cracking of Mg-Al Alloys
  170. The effect of crystallographic orientation on the active corrosion of pure magnesium
  171. Influence of Homogenization Annealing of AZ91 on Mechanical Properties and Corrosion Behavior
  172. Comparison of the linearly increasing stress test and the constant extension rate test in the evaluation of transgranular stress corrosion cracking of magnesium
  173. Passivity breakdown of carbon steel in hot potassium carbonate solutions
  174. Electrochemical behavior of magnesium alloys AZ91D, AZCe2, and AZLa1 in chloride and sulfate solutions
  175. Relationship between yield strength and grain size for a bimodal structural ultrafine-grained ferrite/cementite steel
  176. Influence of cobalt ions on the anodic oxidation of a lead alloy under conditions typical of copper electrowinning
  177. Comparison of the corrosion behaviour in 5% NaCl solution of Mg alloys NZ30K and AZ91D
  178. An evaluation of steels subjected to rock bolt SCC conditions
  179. Evaluation of the delayed hydride cracking mechanism for transgranular stress corrosion cracking of magnesium alloys
  180. Influence of solution chemistry and surface condition on the critical inhibitor concentration for solutions typical of hot potassium carbonate CO2 removal plant
  181. Stress corrosion cracking in magnesium alloys: Characterization and prevention
  182. The Negative Difference Effect and Unipositive Mg+
  183. Recent Insights into the Mechanism of Magnesium Corrosion and Research Suggestions
  184. Experimental Measurement and Computer Simulation of Galvanic Corrosion of Magnesium Coupled to Steel
  185. The corrosion performance of anodised magnesium alloys
  186. Corrosion resistance of anodised single-phase Mg alloys
  187. Atmospheric corrosion of copper and the colour, structure and composition of natural patinas on copper
  188. Influence of anodising current on the corrosion resistance of anodised AZ91D magnesium alloy
  189. Influence of geometry on galvanic corrosion of AZ91D coupled to steel
  190. Stress Corrosion Cracking and Hydrogen Diffusion in Magnesium
  191. Corrosion Behaviour of the Microstructural Constituents of AZ Alloys
  192. Atom probe field ion microscope measurements of carbon segregation at an α:α grain boundary and service failures by intergranular stress corrosion cracking
  193. Influence of the β phase on the corrosion performance of anodised coatings on magnesium–aluminium alloys
  194. A Critical Review of the Stress Corrosion Cracking (SCC) of Magnesium Alloys
  195. Simulation of galvanic corrosion of magnesium coupled to a steel fastener in NaCl solution
  196. A study on stress corrosion cracking and hydrogen embrittlement of AZ31 magnesium alloy
  197. Understanding the Corrosion Mechanism: A Framework for Improving the Performance of Magnesium Alloys
  198. Material influence on the stress corrosion cracking of rock bolts
  199. Boundary element method predictions of the influence of the electrolyte on the galvanic corrosion of AZ91D coupled to steel
  200. Evaluation of the BEASY program using linear and piecewise linear approaches for the boundary conditions
  201. Stress corrosion cracking and hydrogen embrittlement of an Al–Zn–Mg–Cu alloy
  202. Research Directions in Magnesium Corrosion Arising from the Wolfsburg Conference
  203. Analysis of service stress corrosion cracking in a natural gas transmission pipeline, active or dormant?
  204. Understanding Magnesium Corrosion—A Framework for Improved Alloy Performance
  205. Environmental influence on the stress corrosion cracking of rock bolts
  206. SCC initiation for X65 pipeline steel in the “high” pH carbonate/bicarbonate solution
  207. Analysis of mixing distribution in an engine-like configuration
  208. Strategic maintenance management
  209. Implications of specimen preparation and of surface contamination for the measurement of the grain boundary carbon concentration of steels using x-ray microanalysis in an UHV FESTEM
  210. Corrosion Mechanisms of Magnesium Alloys
  211. Corrosion Mechanisms of Magnesium Alloys
  212. The chemistry of copper patination
  213. Corrosion behaviour of AZ21, AZ501 and AZ91 in sodium chloride
  214. Measurement of grain boundary composition for X52 pipeline steel
  215. Influence of microstructure on the corrosion of diecast AZ91D
  216. The anodic dissolution of magnesium in chloride and sulphate solutions
  217. Properties of rapidly solidified binary copper alloys
  218. The electrochemical corrosion of pure magnesium in 1 N NaCl
  219. Atmospheric corrosion of copper at Heron Island
  220. SCC INITIATION FOR 4340 IN DISTILLED WATER
  221. The Secondary Passive Film for Type 304 Stainless Steel in 0.5 M H[sub 2]SO[sub 4]
  222. Initiation of stress corrosion cracking for pipeline steels in a carbonate-bicarbonate solution
  223. The initiation and propagation of stress corrosion cracking in AISI 4340 and 3.5 NiCrMoV rotor steel in constant load tests
  224. Influence of environmental variables on erosion-corrosion of carbon steel in spent liquor reheaters in Bayer plant
  225. A new impinging jet test rig used to identify the important parameters in service erosion-corrosion in bayer liquor and to study the damage morphology
  226. Room temperature creep of high strength steels
  227. Analytical electron microscopy of grain boundaries in high-strength steels
  228. The thermokinetic modeling of substrate rapid solidification
  229. Estimation of the unknown parameters in the melt-spinning process
  230. Linearly increasing stress test (LIST) for SCC research
  231. A new metastable orthorhombic phase Cu9Y
  232. The stress corrosion cracking of as-quenched 4340 and 3.5NiCrMoV steels under stress rate control in distilled water at 90°C
  233. A TEM study on the microstructure of rapidly solidified CuCo alloys
  234. A TEM study on the microstructure of rapidly solidified Cu-Y alloys
  235. Relevance of free-surface temperature to thermal and kinetic factors in melt spinning
  236. Rapid solidification characteristics in melt spinning
  237. ESCA studies of Fe-Ti alloys
  238. SCC of copper using the linearly increasing stress test
  239. ESCA studies of Ni-Cr alloys
  240. ESCA studies of Cr-Co alloys
  241. ESCA studies of Si-Fe alloys
  242. Grain Boundary Electrochemistry and the Stress Corrosion Cracking of High Strength Steels
  243. ESCA studies of nitrogen-containing stainless steels
  244. Passive films on stainless steels in aqueous media
  245. Accelerated Atmospheric Corrosion Of Copper And Copper Alloys
  246. The role of crack tip strain rate in the stress corrosion cracking of high strength steels in water
  247. Nature of oxygen in the passive film on stainless steels in 0.1 M NaCl solution
  248. Stress Rate Effects in Stress Corrosion Cracking
  249. Discussion of “a new method for the simulation of electron diffraction patterns: The algorithm and its application to previous studies”
  250. ESCA-studies of the surface film formed on stainless steels by exposure to 0.1 M NaCl solution at various controlled potentials
  251. ESCA-Studies of the structure and composition of the passive film formed on stainless steels by various immersion temperatures in 0.1 M NaCl solution
  252. Microstructure of as-quenched 3.5 NiCrMoV rotor steel. Part III. Carbide Precipitation
  253. Microstructure of as-quenched 3.5 NiCrMoV rotor steel — Part II. Double diffraction
  254. Microstructure of as-quenched 3.5NiCrMoV rotor steel. Part I. General structure and retained austenite
  255. Corrosion of stainless steels in chloride solution: An XPS investigation of passive films
  256. Stress-corrosion-cracking of Zircaloy-4 cladding tubes
  257. Stress-corrosion-cracking of Zircaloy-4 cladding tubes
  258. Corrosion Potential oscillations
  259. Korrosion von rostfreien St�hlen in Chloridl�sungen. Eine XPS-Untersuchung der Passivfilme
  260. Environmental Conditions Leading to Pitting/Crevice Corrosion of a Typical 12% Chromium Stainless Steel at 80 C
  261. Subsurface crack initiation in high cycle fatigue in Ti6A14V and in a typical martensitic stainless steel
  262. Reply to comments on “Calculation of intrinsic damping and modulus defect”
  263. CORROSION POTENTIAL OSCILLATIONS OF STAINLESS STEELS IN AQUEOUS CHLORIDE SOLUTIONS
  264. DISLOCATION RELAXATION IN A RANDOM ARRAY OF SOLUTES
  265. A metallographic study of the terminal solubility of hydrogen in zirconium at low hydrogen concentrations
  266. Electrochemical studies of hydrogen diffusion and permeability in Ni
  267. Dislocation damping and hydrogen pinning in austenitic stainless steels
  268. The diffusion of oxygen in alpha-zirconium
  269. Calculation of intrinsic damping and modulus defect
  270. Further comments on ‘amplitude-dependent damping in zirconium’
  271. Estimation of the number of pinning points per network length from an analysis of an amplitude dependent damping peak
  272. Effect of praseodymium on the internal friction in a zirconium-oxygen single crystal
  273. Anelastic relaxation and the diffusion of oxygen in alpha-zirconium
  274. Comment on analysis of the amplitude dependent damping data in terms of the Granato-Lücke model
  275. Comments on amplitude dependent damping in zirconium
  276. Strain-amplitude-dependent internal friction in annealed zirconium-oxygen alloys
  277. Dependence of the pinning point dislocation interaction energy on the dislocation structure in zirconium oxygen alloys
  278. Corrosion of Non-Ferrous Alloys. III. Magnesium Alloys