Adhesive Layer Influence on Compressive and Tension Stiffness of Thin-Layer Rubber-Metal Elements

2015 ◽

Vol 2 ◽

pp. 222

Author(s):

Vladimirs Gonca ◽

Jurijs Svabs ◽

Romans Kobrinecs

Keyword(s):

Variational Method ◽

Thin Layer ◽

Theory Of Elasticity ◽

Thin Layers ◽

Poisson Coefficient ◽

Metal Elements ◽

Compressible Materials

There is described a method of generation the rigid feature “Force – Settlement” for thin- layer rubber-metal compensating elements, which consist of several rubber and non-elastomeric layers, operating when being pressed, taking into account the low compressibility of rubber layers and deformation of support non-elastomeric layers. Variational method of theory of elasticity for compressible materials is used. It is recommended to use the acquired analytic dependencies when analysing the element and designing multi- layer compensating elements, as well as when determining the value of Poisson coefficient for rubber-like materials.

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Analysis of Stress Singularity Induced in Viscoelastic Thin Layer Subjected to Shear Loading

International Journal of Modern Physics B ◽

10.1142/s021797920301882x ◽

2003 ◽

Vol 17 (08n09) ◽

pp. 1248-1253

Author(s):

Myung Kyu Park ◽

Sang Soon Lee ◽

Chang Min Suh

Keyword(s):

Thin Layer ◽

Edge Crack ◽

Viscoelastic Model ◽

Stress Singularity ◽

Adhesive Layer ◽

Rigid Bodies ◽

Shear Loading ◽

Linear Viscoelastic ◽

Viscoelastic Theory ◽

Linear Viscoelastic Theory

This paper deals with the stress singularity developed in a viscoelastic thin layer bonded between two rigid bodies and subjected to a shear loading. A boundary element method is employed to investigate the behavior of interface stresses. Within the context of a linear viscoelastic theory, a stress singularity exists at the point where the interface between one of the rigid adherends and the adhesive layer intersects the free surface. Numerical results are presented for a given viscoelastic model, indicating that such stress singularity might lead to edge crack or delamination.

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Design and technological optimization of rubber-reinforced thin-layer movable joints in the structure of a pipeline vibration-isolating compensator

Revista Ingeniería UC ◽

10.54139/revinguc.v28i3.47 ◽

2021 ◽

Vol 28 (3) ◽

pp. 392-398

Author(s):

Galina Shaidurova ◽

Oleg Milman ◽

Aleksey Kiryukhin ◽

Aleksandr Shaidurov

Keyword(s):

Thin Layer ◽

Parametric Optimization ◽

Experimental Testing ◽

Metal Product ◽

Technological Performance ◽

Metal Elements ◽

Shock Absorbers ◽

Pipeline Vibration

Thin-layer rubber-metal elements have been widely used in various fields of technology, including helicopter construction, support parts for bridges, shock absorbers in industrial and civil construction. Their work reliability is determined by the design and technological performance features, which require experimental testing and parametric optimization. The article presents the samples and basic models testing results which were aimed at increasing the strength indicators stability of the adhesive ``rubber-metal'' joints and ensuring the failure-free operation of a rubber-metal product in the structure of a pipeline vibration-isolating compensator.

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Failure of a Ductile Adhesive Layer Constrained by Hard Adherends

Journal of Engineering Materials and Technology ◽

10.1115/1.482769 ◽

1999 ◽

Vol 122 (1) ◽

pp. 80-85 ◽

Cited By ~ 31

Author(s):

Toru Ikeda ◽

Akira Yamashita ◽

Deokbo Lee ◽

Noriyuki Miyazaki

Keyword(s):

Fracture Toughness ◽

Composite Materials ◽

Thin Layer ◽

Adhesive Joint ◽

Structural Integrity ◽

Adhesive Layer ◽

Adhesive Joints ◽

Hard Material ◽

J Integral

The evaluation of a fracture from a thin layer constrained by a hard material is important in relation to the structural integrity of adhesive joints and composite materials. It has been reported that the fracture toughness of a crack in a ductile adhesive joint depends on the bond thickness, but the mechanism has not yet been elucidated clearly. In this study, the J-integral and the near-tip stress of a crack in an adhesive joint are investigated. It is determined that a decrease of the bond thickness increases the stress ahead of a crack rip, which results in the decrease of fracture toughness. [S0094-4289(00)01201-9]

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Applications of Photoelectron Microscopy

Proceedings, annual meeting, Electron Microscopy Society of America ◽

10.1017/s0424820100092499 ◽

1976 ◽

Vol 34 ◽

pp. 506-507

Author(s):

William J. Baxter

Keyword(s):

Electron Microscopy ◽

Thermal Decomposition ◽

Chemical Composition ◽

Ultraviolet Radiation ◽

Thin Layer ◽

Edge Effects ◽

Electron Optics ◽

Surface Layers ◽

Crystalline Orientation ◽

Fluorescent Screen

In this form of electron microscopy, photoelectrons emitted from a metal by ultraviolet radiation are accelerated and imaged onto a fluorescent screen by conventional electron optics. image contrast is determined by spatial variations in the intensity of the photoemission. The dominant source of contrast is due to changes in the photoelectric work function, between surfaces of different crystalline orientation, or different chemical composition. Topographical variations produce a relatively weak contrast due to shadowing and edge effects.Since the photoelectrons originate from the surface layers (e.g. ∼5-10 nm for metals), photoelectron microscopy is surface sensitive. Thus to see the microstructure of a metal the thin layer (∼3 nm) of surface oxide must be removed, either by ion bombardment or by thermal decomposition in the vacuum of the microscope.

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