All Stories

  1. Using everyday engineering examples to engage learners on a massive open online course
  2. The use of charge-coupled device cameras for characterizing the mean deflected shape of an aerospace panel during broadband excitation
  3. Output-only full-field modal testing
  4. A framework for an integrated nuclear digital environment
  5. Experimental evaluation of shielding effect on growing fatigue cracks under overloads using ESPI
  6. An evaluation of a protocol for the validation of computational solid mechanics models
  7. High Temperature Vibratory Response of Hastelloy-X: Stereo-DIC Measurements and Image Decomposition Analysis
  8. Challenges in experimental strain analysis: Interfaces and temperature extremes
  9. On the credibility of engineering models and meta-models
  10. Cross links between computational and experimental mechanics
  11. Guest Editorial: Characterisation of crack tip fields
  12. Fifty years of quality assurance
  13. Strain analysis before the computer
  14. Guest editorial: characterisation of crack tip fields
  15. Integrating fringe projection and digital image correlation for high-quality measurements of shape changes
  16. Editorial: FFEMS says “thank you” to Eann Patterson and Feargal Brennan
  17. Simultaneous in-and-out-of-plane displacement measurements using fringe projection and digital image correlation
  18. An experimental study of the contact of a rounded rigid indenter with a soft material block
  19. Analysis of displacement fields from a high-speed impact using shape descriptors
  20. A comparison of the effect of riveting and cold expansion on the strain distribution and fatigue performance of fiber metal laminates
  21. Crack path support for deformation mechanisms in fatigue of polycarbonate
  22. Composite Materials and Joining Technologies for Composites, Volume 7
  23. Model Updating Using Shape Descriptors from Full-Field Images
  24. Local crack plasticity and its influences on the global elastic stress field
  25. Special issue on validation of computational solid mechanics models
  26. Guest editorial
  27. Calibration of a Digital Image Correlation System
  28. Assessment of a dynamic reference material for calibration of full-field measurement systems
  29. Photoelastic Testing and FE Analysis of T-Stub Model
  30. An approach to the validation of computational solid mechanics models for strain analysis
  31. Quantitative Measurement of the Plastic Strain Field at a Fatigue Crack Tip using Backscattered Electron Images
  32. On the integration of validation, quality assurance and non-destructive evaluation
  33. Damage assessment of fibre reinforced composites using shape descriptors
  34. Quantitative measurement of plastic strain field at a fatigue crack tip
  35. Fatigue crack growth and craze-induced crack tip shielding in polycarbonate
  36. On Characterizing Strain Fields in Impact-Damaged Composites using Shape Descriptors
  37. Decomposing Strain Maps Using Fourier-Zernike Shape Descriptors
  38. Effect of Cold Working on Crack Growth from Holes in Fiber Metal Laminates
  39. Understanding Crack Tip Plasticity – a Multi-Experimental Approach
  40. Thermoelastic Stress Analysis of T-Stub Model
  41. Image Analysis for Full-Field Displacement/Strain Data: Method and Applications
  42. Comparison of Numerical and Experimental Strain Measurements of a Composite Panel Using Image Decomposition
  43. The Development of a Reference Material for Calibration of Full-Field Optical Measurement Systems for Dynamic Deformation Measurements
  44. Image processing of full-field strain data and its use in model updating
  45. The effect of context on student engagement in engineering
  46. Deconstructing Engineering Education Programmes: The DEEP Project to reform the mechanical engineering curriculum
  47. Shape features and finite element model updating from full-field strain data
  48. Three-dimensional automated nanoparticle tracking using Mie scattering in an optical microscope
  49. Monitoring Crack Tip Plastic Zone Size During Fatigue Loading
  50. Standards for Validating Stress Analyses by Integrating Simulation and Experimentation
  51. Fatigue Cracks in Fibre Metal Laminates in the Presences of Rivets and Cold Expanded Holes
  52. Determination of the isoclinic map for complex photoelastic fringe patterns
  53. Tracking nanoparticles optically to study their interaction with cells
  54. Development of a New Fiber Metal Laminate Variant Optimized for Cold Expansion and Riveting of Holes
  55. Examination of Crack Tip Plasticity Using Thermoelastic Stress Analysis
  56. Progress in developing a standard for dynamic strain analysis
  57. Experimental testing (2D DIC) and FE modeling of T-Stub Model
  58. Crack Tip Shielding from a Plastic ‘Inclusion’
  59. A simultaneous in- and out-of-plane displacement measurement method
  60. Editorial
FFEMS editorial for special issue on experimental mechanics
  61. Analysis of the effects of cold expansion of holes using thermoelasticity and image correlation
  62. On crack tip shielding due to plasticity‐induced closure during an overload
  63. Thermoelastic stress analysis of fatigue cracks subject to overloads
  64. Full-Field Modelling of Crack Tip Shielding via the ‘Plastic Inclusion’ Concept
  65. Construction of Shape Features for the Representation of Full-Field Displacement/Strain Data
  66. Evaluation Using Digital Image Correlation of Stress Intensity Factors in an Aerospace Panel
  67. Experimental Validation of Simulations Using Full-field Measurement Techniques
  68. Calibration and validation of full-field techniques
  69. Validation of full-field techniques: discussion of experiences
  70. A reference material for dynamic displacement calibration
  71. SPOTS project and development of a standard and reference material
  72. SPOTS Calibration Example
  73. Image decomposition as a tool for validating stress analysis models
  74. Embedding Enterprise in Engineering
  75. Editorial
  76. Assessment of effective stress intensity factors using thermoelastic stress analysis
  77. Robust approach to regularize an isochromatic fringe map
  78. Some experimental observations on crack closure and crack‐tip plasticity
  79. Optical Signatures of Small Nanoparticles in a Conventional Microscope
  80. Embedding enterprise in science and engineering departments
  81. A quantitative evaluation of fatigue crack shielding forces using photoelasticity
  82. The use of digital image correlation in a parametric study on the effect of edge distance and thickness on residual strains after hole cold expansion
  83. Study of a Crack at a Fastener Hole by Digital Image Correlation
  84. Numerical and Experimental Analysis of Crack Closure
  85. Fatigue Crack Monitoring Using Image Correlation
  86. Determining individual stresses thermoelastically
  87. Tracking nanoparticles in an optical microscope using caustics
  88. Thermoelastic Stress Analysis
  89. Towards a new model of crack tip stress fields
  90. Calibration of a Speckle Interferometry Full‐Field Strain Measurement System
  91. Editorial
  92. New Insights into Plasticity-Induced Crack Tip Shielding via Mathematical Modelling and Full Field Photoelasticity
  93. New Insights into Plasticity-Induced Crack Tip Shielding via Mathematical Modelling and Full Field Photoelasticity
  94. A Challenge for High‐Performance Full‐Field Strain Measurement Systems
  95. Calibration and evaluation of optical systems for full-field strain measurement
  96. Some applications of combined thermoelastic-photoelastic stress analysis
  97. Stress Separation Using Thermoelastic Data
  98. Observations on Photo-Emission and the Process Zone of a Fatigue Crack
  99. High Frequency Quantitative Photoelasticity Applied to Jet Engine Components
  100. Calibration and assessment of full-field optical strain measurement procedures and instrumentation
  101. Traceability of Optical Techniques for Strain Measurement
  102. On the Calibration of Optical Full-Field Strain Measurement Systems
  103. Standard Test for the Evaluation of Optical Strain Measurement Systems
  104. Observations on Photo-Emission and the Process Zone of a Fatigue Crack
  105. Phase-stepping photoelasticity for the measurement of interfacial shear stress in single fibre composites
  106. Editorial
  107. University Spinouts and Student Start-Ups: A Study in Heat Transfer and Rocket Science?
  108. An approach to the simulation of fluid–structure interaction in the aortic valve
  109. Phase-stepping photoelasticity for quantifying the interfacial response in fibre composites at fibre-breaks
  110. Recent issues on development of reference materials and standardized tests of optical methods of strain measurement
  111. A robust approach to demodulating and unwrapping phase-stepped photoelastic data
  112. A new photoelastic model for studying fatigue crack closure
  113. Embedded Enterprise Learning: About, Through, For and From
  114. Development of standard measurement chain for full-field optical strain measurement methods
  115. Synchrotron diffraction investigation of the distribution and influence of residual stresses in fatigue
  116. Optical analysis of crack tip stress fields: a comparative study
  117. Measuring stress intensity factors during fatigue crack growth using thermoelasticity
  118. The Entropy Vector
  119. The Entropy Vector - Connecting Science and Business
  120. An Integrated Approach to Modelling the Fluid-Structure Interaction of a Collapsible Tube
  121. A novel instrument for transient photoelasticity
  122. A Novel Instrument for Transient Photoelasticity
  123. Characterisation of plasticity-induced closure––crack flank contact force versus plastic enclave
  124. Deformation Data from Thermal Marking
  125. Measurement of micro stress fields in epoxy matrix around a fibre using phase-stepping automated photoelasticity
  126. On the Industrial Applications of Moiré and Fringe Projection Techniques
  127. A review of the general theory of thermoelastic stress analysis
  128. Integrating thermoelastic and numerical stress methods for reliable analysis
  129. On the opening mechanism of the aortic valve: some observations from simulations
  130. Investigation into the Effect of the Nut Thread Run-Out on the Stress Distribution in a Bolt Using the Finite Element Method
  131. The use of phase-stepping for the measurement of characteristic parameters in integrated photoelasticity
  132. The use of phase-stepping for the measurement of characteristic parameters in integrated photoelasticity
  133. Digital Photoelasticity: Principles, Practice and Potential
  134. Comparison of numerical and experimental analyses for contact problems under normal and tangential loads
  135. Photoelasticity
  136. A photoelastic analysis of crescent-shaped cracks in bolts
  137. A Novel Instrument for Automated Principal Strain Separation in Reflection Photoelasticity
  138. Recording and Processing Digital Caustic Images from White Light
  139. The strategic mismatch of industrial and university research
  140. Automated Photoelasticity Applied With Thermoelasticity to Real Components
  141. The application of evolutionary and maximum entropy algorithms to photoelastic spectral analysis
  142. The development of simultaneous thermo‐ and photo‐elasticity for principal stress analyses
  143. On the feasibility of determining discrete photoelastic parameters using the multi-load method
  144. Integration of spectral and phase-stepping methods in photoelasticity
  145. An alternative finite difference method for post-processing thermoelastic data using compatibility
  146. Simulation of errors in automated photoelasticity
  147. Polymer coating as a strain witness in thermoelasticity
  148. The effect of friction on crack propagation in the dovetail fixings of compressor discs
  149. Simultaneous observation of phase-stepped images for automated photoelasticity
  150. A STUDY OF RESIDUAL CAUSTICS GENERATED FROM FATIGUE CRACKS
  151. On image analysis for Birefringence measurements in photoelasticity
  152. A photoelastic study of contact between a cylinder and a half-space
  153. A photoelastic study of the effect on subsurface stresses of the contact geometry and friction
  154. The effect of mean stress on the fatigue limit of high tensile bolts Burguete, R.L. and Patterson, E.A. Proc. Inst. Mech. Eng B, J. Engng Manufacture (1995) 209 (C4), 257–262 ISSN: 0954-4054
  155. A photoelastic study of an angle crack specimen subject to mixed mode I–III displacements
  156. ON DETERMINING STRESS INTENSITY FACTORS FOR MIXED MODE CRACKS FROM THERMOELASTIC DATA
  157. Full-field separation of principal stresses by combined thermo- and photoelasticity
  158. Photomechanical properties of some birefringent polymers around their glass transition temperatures
  159. 2D and 3D separation of stresses using automated photoelasticity
  160. The Effect of Mean Stress On The Fatigue Limit Of High Tensile Bolts
  161. A comparative study of linear and nonlinear simulations of the leaflets in a bioprosthetic heart valve during the cardiac cycle
  162. THE EFFECT OF ECCENTRIC LOADING ON THE STRESS DISTRIBUTION IN THREAD ROOTS
  163. Experimental stress intensity factors for cracks in a thin plate with stiffeners
  164. The Effect of Mean Stress on the Fatigue Limit of High Tensile Bolts
  165. Non-linear finite element modelling of porcine bioprosthetic valves
  166. STRESS INTENSITY FACTORS FOR CRACKS AT FASTENER HOLES
  167. Tightening characteristics for screwed joints in osseointegrated dental implants
  168. The Effect of Bending on the Normalized Stress at Roots of Threaded Connectors
  169. Photoelastic determination of fatigue crack stress intensity factors
  170. DETERMINATION OF PREDOMINANTLY MODE II STRESS INTENSITY FACTORS FROM ISOCHROMATIC DATA
  171. THE PRACTICAL USE OF VIRTUAL REFLECTION CAUSTICS
  172. EXPERIMENTAL DETERMINATION OF STRESS INTENSITY FACTORS FOR CRACKS IN TURBINE DISCS
  173. The dispersion of birefringence in photoelastic materials
  174. The determination of principal stresses from photoelastic data
  175. Towards full field automated photoelastic analysis of complex components
  176. Contact stress distributions in a turbine disc dovetail type joint ‐ a comparison of photoelastic and finite element results
  177. A three-dimensional analysis of a bioprosthetic heart valve
  178. A photoelastic technique to predict the direction of edge crack extension using blunt cracks
  179. A two-dimensional finite element analysis of a bioprosthetic heart valve
  180. A COMPARATIVE STUDY OF METHODS FOR ESTIMATING BOLT FATIGUE LIMITS
  181. Photoelastic Analysis Of Dovetail Joints For Turbine Blades
  182. A Photoelastic Technique to Predict the Direction of Edge Crack Extension using Blunt Cracks
  183. THE DISTRIBUTION OF LOAD AND STRESS IN THE THREADS OF FASTENERS - A REVIEW
  184. Automated photoelastic analysis
  185. Stress analysis of some nut-bolt connections with modifications to the external shape of the nut
  186. The optimisation of the design of nuts with partly tapered threads
  187. A modification to the theory for the load distribution in conventional nuts and bolts
  188. Load and stress distribution in screw threads
  189. The use of a microdensitometer in photoelastic analyses
  190. Stress analysis of some nut-bolt connections with modifications to the nut thread form
  191. Modelling in the finite-element design process
  192. Investigation of Crack Closure by Using Thermoeastic Stress Analysis