All Stories

  1. Viscoelastic modeling of extrusion damage in elastomer seals
  2. Modelling of elastomeric materials and products
  3. Enhanced conductivity behavior of polydimethylsiloxane (PDMS) hybrid composites containing exfoliated graphite nanoplatelets and carbon nanotubes
  4. STUDYING NR/ORGANO-MONTMORILLONITE NANOCOMPOSITES WITH SILANE COUPLING AGENTS VIA NETWORK VISUALIZATION TEM
  5. Auxetic oesophageal stents: structure and mechanical properties
  6. Towards an accurate description of the dissipation gradients at the micro-scale to describe the basic fatigue mechanisms
  7. Electroactive soft polyurethanes used as a smart rubbers
  8. Development of ionic elastomers with shape memory effect
  9. Effect of the blade sharpness on the blade abrasion of rubber
  10. The reinforcement effects of graphene oxide nanoplatelets on the mechanical and viscoelastic properties of natural rubber
  11. Dielectric elastomer actuators for tuneable optics
  12. MODIFIED GUTH–GOLD EQUATION FOR CARBON BLACK–FILLED RUBBERS
  13. Elastic–viscous transition in tear fracture of rubbers
  14. The effect of temperature on the tearing of rubber
  15. Deformation of uncemented metal acetabular cups following impaction: experimental and finite element study
  16. Fatigue peeling at rubber interfaces
  17. Effect of processing methods and functional groups on the properties of multi-walled carbon nanotube filled poly(dimethyl siloxane) composites
  18. Silica–rubber microstructure visualised in three dimensions by focused ion beam–scanning electron microscopy
  19. The dynamic properties of fumed silica filled SBR as function of pre-strain
  20. Micromechanical models of young's modulus of NR/organoclay nanocomposites
  21. Fatigue peeling of rubber
  22. Energy losses at small strains in filled rubbers
  23. A new approach to characterize the onset tearing in rubber
  24. Light scattering and transmission studies of nanofiller particulate size, matrix cavitation, and high strain interfacial dewetting behavior in silica‐elastomer composites
  25. Modelling of elastomeric materials and products
  26. Fatigue life prediction of bonded rubber components at elevated temperature
  27. The effect of the rate of strain on tearing in rubber
  28. Natural Rubber Nanocomposites by In Situ Modification of Clay
  29. Axial compression of hollow elastic spheres
  30. FEA MODELING OF SCHALLAMACH WAVES
  31. How does rubber truly slide between Schallamach waves and stick–slip motion?
  32. The viscoelastic behaviour of rubber under a small simple shear oscillation superimposed on a large pure shear
  33. The viscoelastic behavior of rubber under a complex loading. II. The effect large strains and the incorporation of carbon black
  34. Influence of interface geometry on rubber friction
  35. The steady state abrasion of rubber: Why are the weakest rubber compounds so good in abrasion?
  36. Reversible electrical behavior with strain for a carbon black‐filled rubber
  37. Rubber in Engineering
  38. Elastic behaviour of rubber cylinders under combined torsion and tension loading
  39. Modelling friction and abrasion in rubber
  40. The visco-elastic behaviour of elastomers at large pre-strains
  41. The mechanics of sliding friction between a rigid indenter and a rubber surface
  42. Viscoelastic behavior of rubber under a complex loading
  43. Cyclic Stress Relaxation (Csr) of Filled Rubber and Rubber Components
  44. Rubber abrasion at steady state
  45. Criteria for crack initiation during rubber abrasion
  46. Rate transitions in the fatigue crack growth of elastomers
  47. Multifunctional Elastomer Nanocomposites based on EPDM and Carbon Nanotubes
  48. Modeling of the effect of rigid fillers on the stiffness of rubbers
  49. Volume changes under strain resulting from the incorporation of rubber granulates into a rubber matrix
  50. Recycled Rubber: The Rubber Granulate - Virgin Rubber Interface
  51. Selection of Elastomers for a Synthetic Heart Valve
  52. Using FEA Techniques to Predict Fatigue Failure in Elastomers
  53. The Rubber in Engineering Series IOM 3
  54. Prediction of fatigue crack growth using finite element analysis techniques applied to three-dimensional elastomeric components
  55. Electrical and mechanical behavior of filled rubber. III. Dynamic loading and the rate of recovery
  56. Electrical and mechanical behavior of filled elastomers 2: The effect of swelling and temperature
  57. Electrical and mechanical behavior of filled elastomers. I. The effect of strain
  58. Contributions of Time Dependent and Cyclic Crack Growth to the Crack Growth Behavior of Non Strain-Crystallizing Elastomers
  59. Fracture of PZT Ceramics under Compression Loading
  60. Stiffness of simple bonded elastomer bushes. Part 1 – Initial behaviour
  61. The effect of liquids on the dynamic properties of carbon black filled natural rubber as a function of pre-strain
  62. Microstructure of ceramic foams
  63. Indentation Tests on Elastomer Blocks
  64. Finite-element-assisted modelling of a thermoplastic pultrusion process for powder-impregnated yarn