All Stories

  1. Local mechanical behavior mapping of a biopolymer blend using nanoindentation, finite element computation, and simplex optimization strategy
  2. Efficiency of high energy over conventional milling of granulated blast furnace slag powder to improve mechanical performance of slag cement paste
  3. Anisotropic damage inferred to 3D printed polymers using fused deposition modelling and subject to severe compression
  4. Comprehensive study of biopolymer foam compression up to densification using X-ray micro-tomography and finite element computation
  5. Date palm spikelet in mortar: Testing and modelling to reveal the mechanical performance
  6. Structural imperfections in additive manufacturing perceived from the X-ray micro-tomography perspective
  7. Large-Scale X-Ray Microtomography Analysis of Fiber Orientation in Weld Line of Short Glass Fiber Reinforced Thermoplastic and Related Elasticity Behavior
  8. Linear viscoelastic properties of extruded amorphous potato starch as a function of temperature and moisture content
  9. Microstructural design of biopolymer blends and related elasticity with imperfect interfacial bonding
  10. Explaining the Difference Between Real Part and Virtual Design of 3D Printed Porous Polymer at the Microstructural Level
  11. Determination of orthotropic properties of glass fibre reinforced thermoplastics using X-ray tomography and multiscale finite element computation
  12. Virtual design of electrospun-like gelatin scaffolds: the effect of three-dimensional fibre orientation on elasticity behaviour
  13. The sequel of modified fly ashes using high energy ball milling on mechanical performance of substituted past cement
  14. Significance of pore percolation to drive anisotropic effects of 3D printed polymers revealed with X-ray μ-tomography and finite element computation
  15. Scenarios of crack propagation in bast fibers: Combining experimental and finite element approaches
  16. Microstructure and mechanical performance of modified hemp fibre and shiv mortars: Discovering the optimal formulation
  17. Three-dimensional simulation of 304L steel TIG welding process: Contribution of the thermal flux
  18. An original approach to assess elastic properties of a short glass fibre reinforced thermoplastic combining X-ray tomography and finite element computation
  19. Compression behaviour of bread crumb up to densification investigated using X-ray tomography and finite element computation
  20. Structural and thermal behavior of proclay kaolinite using high energy ball milling process
  21. Challenges of additive manufacturing technologies from an optimisation perspective
  22. Influence of interphase properties on the effective behaviour of a starch-hemp composite
  23. Volume digital image correlation to assess displacement field in compression loaded bread crumb under X-ray microtomography
  24. Microstructure and mechanical performance of modified mortar using hemp fibres and carbon nanotubes
  25. Identification Scheme to Assess the Role of Interfacial Damage in a Hemp-Starch Biocomposite
  26. Fracture of elastomers by cavitation
  27. Identification of the mechanical behaviour of biopolymer composites using multistart optimisation technique
  28. Finite element simulation of the compression behaviour of airy breakfast cereals
  29. Characterization of the viscoelastic behavior of the pure bitumen grades 10/20 and 35/50 with macroindentation and finite element computation
  30. New Computational Model Based on Finite Element Method to Quantify Damage Evolution Due to External Sulfate Attack on Self-Compacting Concretes
  31. On the fragmentation of airy cereal products exhibiting a cellular structure: Mechanical characterisation and 3D finite element computation
  32. Optimal Carbon Nanotubes Concentration Incorporated in Mortar and Concrete
  33. Application of Discrete Element Simulation to the Crushing of a Food Biopolymer Foam for Mastication Modelling
  34. Monte Carlo simulation to reveal the copper dissolution kinetics of an ion selective electrode based on copper sulfide
  35. Effect of Silicone Carbide on the Elastic Properties of Starch-Based Composites: A Three-Phase Model
  36. HVOF sprayed WC–Co coatings: Microstructure, mechanical properties and friction moment prediction
  37. Optimization of the mechanical properties of virtual porous solids using a hybrid approach
  38. Multiscale modelling and optimisation strategies for better under-standing of biopolymer mechanical properties: review of recent contributions
  39. Yttria-stabilized zirconia in-flight particle characteristics under vacuum plasma spray conditions
  40. Linear modelling of biopolymer systems and related mechanical properties
  41. Hybrid computational strategy based on ANN and GAPS: Application for identification of a non-linear model of composite material
  42. Poisson coefficient of open cellular solids subject to structural anisotropy
  43. Friction moment prediction of HVOF coatings and Electroplated Hard Chromium
  44. Preface
  45. Blade protection and efficiency preservation of a turbine by a sacrificial material coating
  46. Prediction of stability and performance of an active mechanical structure under uncertainty conditions using finite element and neural computation
  47. Neural computation analysis of alumina–titania wear resistance coating
  48. Stability analysis of a controlled aluminium panel using neural network methodology
  49. Wear behavior of alumina–titania coatings: analysis of process and parameters
  50. Exploring mastication of cellular solids and assessment of mechanical behaviour using finite elements calculation
  51. Neural Computation to Estimate Heat Flux in an Atmospheric Plasma Spray Process
  52. Grain Boundary Character and Pinning Effect during Grain Growth of Two-Phase Alloys
  53. Neural computation applied to APS spray process: Porosity analysis
  54. Diagnostic of YSZ in-flight particle characteristics under low pressure VPS conditions
  55. COMBINATION OF INVERSE AND NEURAL NETWORK METHODS TO ESTIMATE HEAT FLUX
  56. Velocity and temperature distributions of alumina–titania in-flight particles in the atmospheric plasma spray process
  57. Grain Boundary Character and Pinning Effect during Grain Growth of Two-Phase Alloys
  58. Neural Computation to Predict In-Flight Particle Characteristic Dependences From Processing Parameters in the APS Process
  59. Microstructure of APS alumina–titania coatings analysed using artificial neural network
  60. Effect of APS process parameters on wear behaviour of alumina–titania coatings
  61. Artificial intelligence implementation in the APS process diagnostic
  62. Neural computation to predict TiO2 photocatalytic efficiency for nitrogen oxides removal
  63. Al2O3–13% weight TiO2 deposit profiles as a function of the atmospheric plasma spraying processing parameters
  64. Note on POD test parameters to study wear behaviour of alumina–titania coatings
  65. Modeling of the APS plasma spray process using artificial neural networks: basis, requirements and an example
  66. Introduction of Second Phase Particle Shape in Monte Carlo Grain Growth Simulation
  67. Static Recrystallization of FeAl in the Presence of Second Phase Particles: Experimental and Modeling Investigations
  68. Analysis of the influence of atmospheric plasma spray (APS) parameters on adhesion properties of alumina-titania coatings
  69. Designing expert system using neural computation in view of the control of plasma spray processes
  70. On the implementation of the fractal concept to quantify thermal spray deposit surface characteristics
  71. On the Implementation of Neural Network Concept to Optimize Thermal Spray Deposition Process