All Stories

  1. CALCULATIONS OF GROUND VIBRATIONS FROM HEAVY-FREIGHT TRAINS
  2. ON ONE POSSIBLE MECHANISM OF THE LOW-FREQUENCY HUM
  3. COMPARISON OF TWO MAIN MECHANISMS OF GENERATING GROUND VIBRATIONS BY ROAD VEHICLES
  4. RECENT PROGRESS IN THE THEORY OF RAILWAY-GENERATED GROUND VIBRATIONS
  5. THEORY OF CHEMICAL SENSORS USING SURFACE ACOUSTIC WAVES
  6. EFFECT OF TRACK BENDING WAVES ON GENERATING GROUND VIBRATIONS BY HIGH-SPEED TRAINS
  7. Pseudo-Mach angles for Rayleigh ground waves generated by trains moving at conventional speeds
  8. MEASUREMENTS OF ENVIRONMENTAL LOW-FREQUENCY NOISE
  9. TRAFFIC CALMING AND ASSOCIATED GROUND VIBRATIONS
  10. GENERATION OF GROUND VIBRATIONS BY HIGH-SPEED TRAINS TRAVELLING ON SOFT SOIL
  11. PROPAGATION OF LOCALISED FLEXURAL VIBRATIONS ALONG PLATE EDGES DESCRIBED BY A POWER LAW
  12. FINITE ELEMENT CALCULATION OF ELASTO-DYNAMIC FIELDS GENERATED BY A POINT SOURCE IN THE LAYERED GROUND
  13. GROUND VIBRATIONS FROM RAIL AND ROAD TRAFFIC
  14. ACOUSTIC 'BLACK HOLES' FOR FLEXURAL WAVES AND THEIR POTENTIAL APPLICATIONS
  15. RADIATION EFFICIENCY OF FINITE PLATES WITH BEAM STIFFENERS
  16. SOME NEW METHODS OF DAMPING IMPACT-INDUCED VIBRATIONS IN BADMINTON RACQUETS
  17. EXPERIMENTAL INVESTIGATION OF A MONO-HULL MODEL BOAT WITH WAVE-LIKE AQUATIC PROPULSION
  18. GENERATION OF FLEXURAL WAVES IN INFINITE PLATES BY LASER-INITIATED AIR SHOCK WAVES
  19. ACOUSTIC BLACK HOLES A NEW APPROACH TO VIBRATION DAMPING IN LIGHT-WEIGHT STRUCTURES
  20. ON KRAMERS-KRONIG RELATIONS FOR GUIDED AND SURFACE WAVES
  21. GENERATION OF GROUND VIBRATIONS BY VEHICLES CROSSING FLEXIBLE SPEED BUMPS
  22. Scattering of Rayleigh waves by heavy masses as method of protection against traffic-induced ground vibrations
  23. FOCUSING OF GROUND VIBRATIONS GENERATED BY TRANS-RAYLEIGH TRAINS TRAVELLING WITH ACCELERATION
  24. Special issue: Recent advances in Acoustic Black Hole research
  25. Overview of localised flexural waves in wedges of power-law profile and comments on their relationship with the acoustic black hole effect
  26. Acoustic emission from finite two-dimensional cracks: Directivity functions and frequency spectra
  27. On the theory of smooth topographic waveguides for Rayleigh waves
  28. Stochastically rough surfaces as seismic barriers against railway-induced ground vibrations
  29. Reduced-scale ultrasonic modelling of Rayleigh wave transmission over seismic barriers formed by periodic arrays of vertical holes
  30. On the role of nonlinear distortion in the theory of wave-like aquatic propulsion
  31. Focusing of ground vibrations generated by high-speed trains travelling at trans-Rayleigh speeds
  32. Acoustic Black Holes for Flexural Waves: A Smart Approach to Vibration Damping
  33. Directivity patterns of laser-generated sound in solids: Effects of optical and thermal parameters
  34. Slots of Power-Law Profile as Acoustic Black Holes for Flexural Waves in Metallic and Composite Plates
  35. Vibration of a rectangular plate with a central power-law profiled groove by the Rayleigh–Ritz method
  36. Optimisation of the structural modes of automotive-type panels using line stiffeners and point masses to achieve weak acoustic radiation
  37. Experimental study of sound radiation by plates containing circular indentations of power-law profile
  38. Quasi-flat acoustic absorber enhanced by metamaterials
  39. Acoustic black holes: recent developments in the theory and applications
  40. Damping of flexural vibrations in turbofan blades using the acoustic black hole effect
  41. Comments on ‘‘Effect of the surface free energy on the behaviour of surface and guided waves”, by V. Vlasie Belloncle, M. Rousseau, Ultrasonics, 45 (2006) 188–195
  42. Experimental investigation of damping flexural vibrations in glass fibre composite plates containing one- and two-dimensional acoustic black holes
  43. Commentary on Discussion of ‘On the theory of standing waves in tyres at high vehicle speeds’ by V.V. Krylov and O. Gilbert, Journal of Sound and Vibration 329 (2010) 4398–4408
  44. Corrigendum to “Calculation of ground vibration spectra from heavy military vehicles” [Journal of Sound and Vibration, 329 (2010) 3020–3029]
  45. Recent developments in the theory and applications of ‘acoustic black holes’
  46. Structural–acoustic behaviour of automotive-type panels with dome-shaped indentations
  47. Experimental investigation of damping flexural vibrations in plates containing tapered indentations of power-law profile
  48. Damping of flexural vibrations in plates containing ensembles of tapered indentations of power-law profile
  49. Sound radiation of rectangular plates containing tapered indentations of power-law profile
  50. Damping of flexural vibrations in glass fibre composite plates and honeycomb sandwich panels containing indentations of power-law profile
  51. Sound radiation of rectangular plates containing tapered indentations of power-law profile
  52. Damping of flexural vibrations in plates containing ensembles of tapered indentations of power-law profile
  53. Damping of flexural vibrations in glass fiber composite plates and honeycomb sandwich panels containing indentations of power-law profile
  54. Effect of geometrical and material imperfections on damping flexural vibrations in plates with attached wedges of power law profile
  55. Guided acoustic waves propagating at surfaces, interfaces and edges
  56. Comments on Chapter 12 of ‘‘Railway Noise and Vibration: Mechanisms, Modelling and Means of Control”, by D. Thompson (with contributions from C. Jones and P.-E. Gautier), Elsevier, 2009
  57. Remarks on reply to comments on Chapter 12 of ‘‘Railway Noise and Vibration: Mechanisms, Modelling and Means of Control’’, by D. Thompson (with contributions from C. Jones and P.-E. Gautier), Elsevier, 2009
  58. Point mobility of a cylindrical plate incorporating a tapered hole of power-law profile
  59. Damping of flexural vibrations in circular plates with tapered central holes
  60. Damping of structural vibrations in beams and elliptical plates using the acoustic black hole effect
  61. Generation of flexural waves in plates by laser-initiated airborne shock waves
  62. Comments on ‘‘Basic properties of Rayleigh surface wave propagation along curved surfaces”, by F. Jin, Z. Wang, K. Kishimoto, International Journal of Engineering Science 43 (2005) 250–261
  63. Damping of flexural vibrations in rectangular plates using the acoustic black hole effect
  64. On the theory of standing waves in tyres at high vehicle speeds
  65. Air-related mechanisms of noise generation by solid rubber tyres with cavities
  66. Generation of Rayleigh-type Waves on Plate Edges by Laser-initiated Airborne Shock Waves
  67. Calculation of ground vibration spectra from heavy military vehicles
  68. Wave-like aquatic propulsion of mono-hull marine vessels
  69. Finite Element Study of the Effect of Structural Modifications on Structure-borne Vehicle Interior Noise
  70. Experimental investigation of the acoustic black hole effect for vibration damping in elliptical plates
  71. Radiation efficiency of natural modes of plates with beam stiffeners
  72. Semianalytical modeling of plate flexural waves generated by laser-initiated air shock waves
  73. Application of guided flexural waves in immersed plates to aquatic propulsion of mono-hull marine vessels
  74. Control of Traffic-Induced Ground Vibrations by Placing Heavy Masses on the Ground Surface
  75. New approach to investigation of resonant vibrations of noncircular shells based on the theory of coupled waveguides
  76. Experimental investigation of the acoustic black hole effect for flexural waves in tapered plates
  77. Experimental confirmation of the propulsion of marine vessels employing guided flexural waves in attached elastic fins
  78. Simplified Modelling of Vehicle Interior Noise: Comparison of Analytical, Numerical and Experimental Approaches
  79. Experimental investigation of the aquatic propulsion caused by localised flexural wave propagation in immersed wedges and plates
  80. Book review
  81. Simplified Modelling of Vehicle Interior Noise: Comparison of Analytical, Numerical and Experimental Approaches
  82. Acoustic ‘black holes’ for flexural waves as effective vibration dampers
  83. A new type of vibration damper based on flexural wave propagation in laminated wedges of power-law profile
  84. GENERATION OF GROUND ELASTIC WAVES BY ROAD VEHICLES
  85. 9. Generation of ground vibration boom by high-speed trains
  86. GEOMETRICAL-ACOUSTICS CONSIDERATION OF THE FLEXURAL MODES IN IMMERSED ANISOTROPIC WEDGES
  87. An approximate theory for waves in a slender elastic wedge immersed in liquid
  88. Recent developments in the theory of ground vibration boom from high-speed trains
  89. The `Bow-Wave' Effect in Soft Subgrade Beneath High Speed Rail Lines
  90. Effect of Tunnel Diameter on Ground Vibrations Generated by Underground
  91. Flexural edge waves and Comments on “A new bending wave solution for the classical plate equation” [J. Acoust. Soc. Am.104, 2220–2222 (1998)]
  92. Ground-borne vibration generated by vehicles crossing road humps and speed control cushions
  93. Rail movement and ground waves caused by high-speed trains approaching track-soil critical velocities
  94. Localized vibration modes in free anisotropic wedges
  95. Ground Vibration Boom from High-Speed Trains
  96. LOCALIZED VIBRATION MODES PROPAGATING ALONG EDGES OF CYLINDRICAL AND CONICAL WEDGE-LIKE STRUCTURES
  97. PROPAGATION OF LOCALIZED VIBRATION MODES ALONG EDGES OF IMMERSED WEDGE-LIKE STRUCTURES: GEOMETRICAL-ACOUSTICS APPROACH
  98. Resilient Modulus of Soft Soil Beneath High-Speed Rail Lines
  99. Contamination of indoor air by toxic soil vapours: the effects of subfloor ventilation and other protective measures
  100. On the velocities of localized vibration modes in immersed solid wedges
  101. Spectra of Low-Frequency Ground Vibrations Generated by High-Speed Trains on Layered Ground
  102. Erratum: “Vibrational impact of high-speed trains. I. Effect of track dynamics” [J. Acoust. Soc. Am. 100, 3121–3134 (1996)]
  103. Investigation of environmental low-frequency noise
  104. Vibrational impact of high‐speed trains. I. Effect of track dynamics
  105. Computation of Ground Vibrations Generated by Accelerating and Braking Road Vehicles
  106. Generation of Low-Frequency Rayleigh Waves by Heavy Lorries
  107. Surface properties of solids and surface acoustic waves: Application to chemical sensors and layer characterization
  108. Generation of Low-Frequency Ground Vibrations by Sound Waves Propagating in Underground Gas Pipes
  109. Contamination of indoor air by toxic soil vapours: a screening risk assessment model
  110. Environmental vibrations associated with high-speed trains
  111. Sonic boom as possible mechanism of the low-frequency hum
  112. Low-Frequency Ground Vibrations from Underground Trains
  113. Generation of ground vibrations by superfast trains
  114. Surface Acoustic Waves in Inhomogeneous Media
  115. Topographic Waveguides
  116. Waves on Rough Surfaces
  117. Bragg Reflection of Surface Waves
  118. Rayleigh Waves on Curved Surfaces of Arbitrary Form
  119. Thin-Film Waveguides for Surface Acoustic Waves
  120. Scattering of Surface Waves by Local Irregularities
  121. Basic Types of Surface Acoustic Waves in Solids
  122. Waves in a Half-space with Account of Surface Effects
  123. Interaction Between Electrode Structures and Surface Waves in Piezoelectrics
  124. Propagation of Surface Acoustic Waves in Small Scale Periodic Structures
  125. Mutual Transformation of Bulk and Surface Acoustic Waves by Periodic Irregularities
  126. Scattering of Surface Acoustic Waves at the Boundaries of Wedge-like Regions
  127. Second Order Effects in Surface Wave Scattering by a Rectangular Projection
  128. Impedance Method in the Theory of Surface Waves in Inhomogeneous and Layered Media
  129. Interaction of Surface Acoustic Waves with Electrons and Influence of Substrate Environment on Wave Propagation
  130. Calculation of low-frequency ground vibrations from railway trains
  131. Propagation of wedge acoustic waves along wedges embedded in water
  132. Nonlinear Acoustic Waves in a Slender Wedge
  133. On nonlinear parametric amplification of Rayleigh waves
  134. Generation of surface acoustic waves by moving trains
  135. Nonlinear evolution of initially sine-like wedge acoustic waves
  136. Harmonic generation and parametric mixing in wedge acoustic waves
  137. On the theory of surface acoustic wave generation by electric spark discharge
  138. Laser Generation of Acoustic Waves in Solids with Stochastically Rough Surfaces
  139. Effect of surface phenomena in solids on surface acoustic waves
  140. Theoretical model of Rayleigh wave interaction with stripes of viscous liquids
  141. On dipole source representation for laser-generated sound