Measurement of Dynamic Properties of Animal Liver to Identify the Material Model

Dynamic characterization and modeling of rubber shock absorbers: A comprehensive case study

Journal of Low Frequency Noise Vibration and Active Control ◽

10.1177/1461348417725954 ◽

2017 ◽

Vol 37 (3) ◽

pp. 509-518 ◽

Cited By ~ 10

Author(s):

H Ucar ◽

I Basdogan

Keyword(s):

Dynamic Properties ◽

Viscoelastic Model ◽

Constitutive Models ◽

Material Model ◽

Uniaxial Tensile ◽

Primary Concern ◽

Dynamic Characterization ◽

Time Frequency ◽

Shock Absorbers

Rubber or elastomeric materials are widely used for shock absorbers having elastic and viscous properties such as high inherent damping, deflection capacity, and energy storage. The dynamic properties of these components are of primary concern in designing rubber absorbers to reduce the shock loading given as well as the structure-borne noise transmissibility. Besides, the dynamic response of the mechanical systems, at where the rubber shock absorbers are used, is directly associated with the properties of the shock absorbers. In order to determine these properties of the rubber, mathematical models are created in terms of hyperelasticity and viscoelasticity. The hyperelastic and viscoelastic material models represent the nonlinear elastic and strain rate dependencies of the overall rubber behavior, respectively. Hyperelastic material model captures the material’s nonlinear elasticity with no-time dependence whereas viscoelastic model describes the material response which contains an elastic and viscous part depending on time, frequency, and temperature. This paper presents the dynamic characterization of rubber shock absorbers, having different shore hardness values, in terms of hyperelastic and viscoelastic constitutive models. The parameters of the constitutive models are determined from the uniaxial tensile and relaxation tests. These parameters are used for the numerical model of the rubber components and the accuracy of the characterization is presented by means of a numerical case study.

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Dynamics of Thin-Walled Elements of Rocket Engine under Impact Loads

Key Engineering Materials ◽

10.4028/www.scientific.net/kem.715.237 ◽

2016 ◽

Vol 715 ◽

pp. 237-242 ◽

Cited By ~ 3

Author(s):

Marina Chernobryvko ◽

Konstantin Avramov ◽

Leopold Kruszka ◽

Anatolij Tonkonogenko

Keyword(s):

Dynamic Properties ◽

Rocket Engine ◽

Minimum Weight ◽

Strain Analysis ◽

Material Model ◽

Impact Loads ◽

Solid Propellant Rocket ◽

Solid Propellant Rocket Engine ◽

Thin Walled ◽

Propellant Rocket

Stress-strain analysis of a solid-propellant rocket engine is the subject of this study. A chosen material is selected in order to ensure its maximum strength at minimum weight of the engine. The airframe of the rocket engine is a thin-walled structure, which consists of cylindrical and spherical parts. The dynamic behaviour analysis of this thin-walled structure under the action of impact loads is performed. The anisotropic material model and dynamic properties of the shell material are taken into consideration to solve the underlying problem.

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The distribution of antigen on the surface of RBL-2H3 rat basophilic leukemia cells observed by back-scattered electron imaging

Proceedings, annual meeting, Electron Microscopy Society of America ◽

10.1017/s0424820100142992 ◽

1986 ◽

Vol 44 ◽

pp. 274-275

Author(s):

R.F. Stump ◽

J.R. Pfeiffer ◽

JC. Seagrave ◽

D. Huskisson ◽

J.M. Oliver

Keyword(s):

Cell Surface ◽

Dynamic Properties ◽

Leukemia Cells ◽

Antigen Binding ◽

Scattered Electron ◽

Ige Receptor ◽

Receptor Complexes ◽

Rat Basophilic Leukemia Cells ◽

Electron Imaging ◽

Basophilic Leukemia

In RBL-2H3 rat basophilic leukemia cells, antigen binding to cell surface IgE-receptor complexes stimulates the release of inflammatory mediators and initiates a series of membrane and cytoskeletal events including a transformation of the cell surface from a microvillous to a lamellar topography. It is likely that dynamic properties of the IgE receptor contribute to the activation of these responses. Fewtrell and Metzger have established that limited crosslinking of IgE-receptor complexes is essential to trigger secretion. In addition, Baird and colleagues have reported that antigen binding causes a rapid immobilization of IgE-receptor complexes, and we have demonstrated an apparent increase with time in the affinity of IgE-receptor complexes for antigen.

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Nucleosome dynamics

Biochemical Society Symposium ◽

10.1042/bss0730109 ◽

2006 ◽

Vol 73 ◽

pp. 109-119 ◽

Cited By ~ 2

Author(s):

Chris Stockdale ◽

Michael Bruno ◽

Helder Ferreira ◽

Elisa Garcia-Wilson ◽

Nicola Wiechens ◽

...

Keyword(s):

High Resolution ◽

Chromatin Structure ◽

Current Knowledge ◽

Dynamic Properties ◽

Structure And Dynamics ◽

Nucleosome Dynamics ◽

Sharp Focus ◽

Recent Advances ◽

Insight Into ◽

Chromatin Structure And Dynamics

In the 30 years since the discovery of the nucleosome, our picture of it has come into sharp focus. The recent high-resolution structures have provided a wealth of insight into the function of the nucleosome, but they are inherently static. Our current knowledge of how nucleosomes can be reconfigured dynamically is at a much earlier stage. Here, recent advances in the understanding of chromatin structure and dynamics are highlighted. The ways in which different modes of nucleosome reconfiguration are likely to influence each other are discussed, and some of the factors likely to regulate the dynamic properties of nucleosomes are considered.

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Dynamic properties and microstructural behavior of pure iron below and above shock induced α↔ε phase transition

Journal de Physique IV (Proceedings) ◽

10.1051/jp4:2006134159 ◽

2006 ◽

Vol 134 ◽

pp. 1041-1045

Author(s):

C. Voltz ◽

F. Buy

Keyword(s):

Phase Transition ◽

Pure Iron ◽

Dynamic Properties ◽

Ε Phase ◽

Microstructural Behavior

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NMR-investigation of the dynamic properties of off-center Ag+ defects in RbCl

Le Journal de Physique Colloques ◽

10.1051/jphyscol:19806103 ◽

1980 ◽

Vol 41 (C6) ◽

pp. C6-404-C6-407 ◽

Cited By ~ 4

Author(s):

O. Kanert ◽

R. Küchler ◽

M. Mali

Keyword(s):

Dynamic Properties

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DYNAMIC PROPERTIES OF GRAIN BOUNDARIES

Le Journal de Physique Colloques ◽

10.1051/jphyscol:1990160 ◽

1990 ◽

Vol 51 (C1) ◽

pp. C1-381-C1-390 ◽

Cited By ~ 1

Author(s):

M. FRIESEL ◽

I. MANNA ◽

W. GUST

Keyword(s):

Grain Boundaries ◽

Dynamic Properties

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Delamination in the scoring and folding of paperboard

TAPPI Journal ◽

10.32964/tj11.1.61 ◽

2012 ◽

Vol 11 (1) ◽

pp. 61-66 ◽

Cited By ~ 1

Author(s):

DOEUNG D. CHOI ◽

SERGIY A. LAVRYKOV ◽

BANDARU V. RAMARAO

Keyword(s):

Finite Element ◽

Plane Deformation ◽

Strain Analysis ◽

Local Strain ◽

Uniaxial Stress ◽

Material Model ◽

Element Model ◽

Plastic Behavior ◽

Stress Strain ◽

Strain Fields

Delamination between layers occurs during the creasing and subsequent folding of paperboard. Delamination is necessary to provide some stiffness properties, but excessive or uncontrolled delamination can weaken the fold, and therefore needs to be controlled. An understanding of the mechanics of delamination is predicated upon the availability of reliable and properly calibrated simulation tools to predict experimental observations. This paper describes a finite element simulation of paper mechanics applied to the scoring and folding of multi-ply carton board. Our goal was to provide an understanding of the mechanics of these operations and the proper models of elastic and plastic behavior of the material that enable us to simulate the deformation and delamination behavior. Our material model accounted for plasticity and sheet anisotropy in the in-plane and z-direction (ZD) dimensions. We used different ZD stress-strain curves during loading and unloading. Material parameters for in-plane deformation were obtained by fitting uniaxial stress-strain data to Ramberg-Osgood plasticity models and the ZD deformation was modeled using a modified power law. Two-dimensional strain fields resulting from loading board typical of a scoring operation were calculated. The strain field was symmetric in the initial stages, but increasing deformation led to asymmetry and heterogeneity. These regions were precursors to delamination and failure. Delamination of the layers occurred in regions of significant shear strain and resulted primarily from the development of large plastic strains. The model predictions were confirmed by experimental observation of the local strain fields using visual microscopy and linear image strain analysis. The finite element model predicted sheet delamination matching the patterns and effects that were observed in experiments.

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Stability and dynamic properties of octocoral communities in the Tropical Eastern Pacific

Marine Ecology Progress Series ◽

10.3354/meps12416 ◽

2018 ◽

Vol 588 ◽

pp. 71-84 ◽

Cited By ~ 1

Author(s):

CG Gomez ◽

HM Guzman ◽

A Gonzalez

Keyword(s):

Dynamic Properties ◽

Eastern Pacific ◽

Tropical Eastern Pacific

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KINEMATIC FEATURES OF THE LAPPING PROCESS AND DETERMINATION OF ITS BASIC PARAMETERS

Computational nanotechnology ◽

10.33693/2313-223x-2020-7-3-23-28 ◽

2020 ◽

Vol 7 (3) ◽

pp. 23-28

Author(s):

EZIZ SARVAN SHIRVAN ◽

Keyword(s):

Dynamic Properties ◽

Cutting Speed ◽

Equilibrium System ◽

Technological Parameters ◽

Kinematic Characteristics ◽

Angular Velocities ◽

Basic Parameters ◽

Grinding Tool ◽

Mathematical Relationships ◽

Analytical Expressions

This paper discusses the kinematic characteristics of lapping process and the main parameters of the process. It was determined that the influencing degree of technological parameters to the forming surface and processes. It was projected the construction of the lapping head for processing of internal cylindrical surfaces, scheme of the lapping operation and graphic description of the forces influencing. The relationships between the axial, radial and tangential cutting forces and the effect of the combined force thereof are determined in order to ensure the necessary surface pressure. During the analysis geometric and mathematical relationships were obtained. The extracted analytical expressions can be realized by further experimental researches and can be used in engineering calculations of technological parameters of processing by lapping. Angular velocity, friction force, linear velocity, also the length of the tactile curve and the radius of the part can be considered the main kinematic and dynamic parameters of the process that the formation of the surface, also the course of the process depends on these parameters. Depending on the kinematic parameters, the wear nature of the tool changes and this changes the linear and angular velocities, which have a significant impact on the accuracy, quality and productivity of processing. When examining the technological capabilities of the process, the nature of the movement between the part and the grinding tool, also changes in cutting speed are often considered as a main factor. Analytical expressions were obtained to determine the main parameters of the process, taking into account the kinematic characteristics of the friction process. These expressions can be used in engineering calculations and allow to determine the optimal values of the processing mode. In order to obtain the required micrometric surface cleanliness and measurement accuracy, correlation relationships were established between the main parameters of the process, equations of the equilibrium system of shear forces were compiled and analytical expressions were obtained based on the analysis of kinematic and dynamic properties of the system.

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