Adsorption mechanism of magnetic induction free-abrasive grain and its effect on cutting performance of wire saws

ELID ultra-precision grinding mirror surface can achieve nanometer precision. However, after the grinding wheel passivates the abrasive particles in electrolysis, it is easy to scratch the ultra-precision ELID grinding surface into the grinding process. In order to solve this problem, a non-abrasive grain α-Fe bonded grinding wheel is propose, which contains no abrasive particles. After electrolysis, oxide film is formed on the surface of the wheel. In ultra-precision ELID grinding, there is no abrasive particles involved, only the polishing effect of oxide film. There is no need to worry about the scratching of exfoliated abrasive particles that have been machined on ultra-precision ELID surfaces. Thus achieving extremely high surface accuracy.

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A Statistical Polyhedron Model of Abrasive Grain

Journal of Engineering for Industry ◽

10.1115/1.3669902 ◽

1963 ◽

Vol 85 (4) ◽

pp. 388-393 ◽

Cited By ~ 2

Author(s):

H. T. McAdams

Keyword(s):

Cutting Tools ◽

Cutting Performance ◽

Abrasive Particles ◽

Abrasive Grain ◽

Abrasive Cutting ◽

Particle Geometry ◽

Polyhedron Model

A statistical polyhedron model of abrasive grain is developed and its application to the design of abrasive cutting tools indicated. The model incorporates particle geometry and orientation with respect to the workpiece into a single concept useful in the prediction of cutting performance. Projective properties of the statistical polyhedron are exploited in a proposed method for measuring axial ratios of abrasive particles.

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Analysis of magneto rheological elastomers for energy harvesting systems

International Journal of Applied Electromagnetics and Mechanics ◽

10.3233/jae-209350 ◽

2020 ◽

Vol 64 (1-4) ◽

pp. 439-446

Author(s):

Gildas Diguet ◽

Gael Sebald ◽

Masami Nakano ◽

Mickaël Lallart ◽

Jean-Yves Cavaillé

Keyword(s):

Magnetic Field ◽

Energy Harvesting ◽

Shear Strain ◽

Magnetic Induction ◽

Magnetic Particles ◽

Homogeneous Magnetic Field ◽

Electrical Signal ◽

Harvesting Systems ◽

Dc Bias ◽

Magneto Rheological

Magneto Rheological Elastomers (MREs) are composite materials based on an elastomer filled by magnetic particles. Anisotropic MRE can be easily manufactured by curing the material under homogeneous magnetic field which creates column of particles. The magnetic and elastic properties are actually coupled making these MREs suitable for energy conversion. From these remarkable properties, an energy harvesting device is considered through the application of a DC bias magnetic induction on two MREs as a metal piece is applying an AC shear strain on them. Such strain therefore changes the permeabilities of the elastomers, hence generating an AC magnetic induction which can be converted into AC electrical signal with the help of a coil. The device is simulated with a Finite Element Method software to examine the effect of the MRE parameters, the DC bias magnetic induction and applied shear strain (amplitude and frequency) on the resulting electrical signal.

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Research on expanding the range of reproduction of magnetic flux density of the DC field of the state primary standard GET12-2011

Izmeritel`naya Tekhnika ◽

10.32446/0368-1025it.2020-4-3-7 ◽

2020 ◽

pp. 3-7

Author(s):

Vladlen Ya. Shifrin ◽

Denis I. Belyakov ◽

Alexander E. Shilov ◽

Denis D. Kosenko

Keyword(s):

Magnetic Flux ◽

Magnetic Induction ◽

Frequency Conversion ◽

Magnetic Measurements ◽

Primary Standard ◽

Uncertainty Budget ◽

The State ◽

State Primary Standard ◽

Magnetic Flux Density ◽

Constant Field

The results of works aimed at increasing the level of uniformity of measurements of the magnetic induction of a constant field – the basic value in the field of magnetic measurements. A set of equipment for reproducing a unit of magnetic induction of a constant field in the range of 1–25 mT was created and described. The inclusion of this complex in the State primary standard of units of magnetic induction, magnetic flux, magnetic moment and magnetic induction gradient GET 12-2011 will ensure the reproduction and direct transmission of the unit of permanent magnetic induction in the ranges of not only weak (10–3–1 mT), but medium (1–25 mT) and strong (0.025–1 T) magnetic fields. A quantum cesium magnetometer based on the resolved structure of cesium atoms was created to transmit the unit of magnetic induction to the region of medium fields. The procedure for calculating the frequency conversion coefficients to magnetic induction of the created quantum cesium magnetometer is described. The uncertainty budget for reproducing a unit of magnetic induction of a constant field using the created complex is estimated.

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Relationships Between the Friction and Viscoelastic Properties of Rubber

Tire Science and Technology ◽

10.2346/1.2135999 ◽

2000 ◽

Vol 28 (3) ◽

pp. 178-195 ◽

Cited By ~ 9

Author(s):

N. Amino ◽

Y. Uchiyama

Keyword(s):

Viscoelastic Properties ◽

Skid Resistance ◽

Grain Sizes ◽

Abrasive Grain ◽

The Coefficient Of Friction ◽

Tan Δ ◽

Silicone Carbide ◽

And Storage ◽

Wet Skid Resistance ◽

Frequency Curves

Abstract In this study, the relationships between friction and viscoelastic properties such as loss tangent tan δ and storage modulusE′ were examined. Wet skid resistance was measured using the British Pendulum Tester. The rubber specimens were rubbed againstfive silicone carbide cloths of differing abrasive grain sizes. The viscoelastic properties of the rubber specimens were measured with a viscoelasticspectrometer. From the data on wet skid resistance and viscoelastic properties, it is found that the coefficient of friction μ varies as follows: μ = a + b · tan δ/E′ where a and b are constants. Tan δ/E′ was related to the hysteresis term of friction, and the μ-frequency curves were compared with the tan δ/E′ –frequency curves.

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Excitation Strategy Analysis of Magnetic Induction Tomography for Intracranial Hemorrhage Detection

2020 39th Chinese Control Conference (CCC) ◽

10.23919/ccc50068.2020.9189412 ◽

2020 ◽

Author(s):

Yixuan Chen ◽

Chao Tan ◽

Feng Dong

Keyword(s):

Intracranial Hemorrhage ◽

Magnetic Induction ◽

Strategy Analysis ◽

Magnetic Induction Tomography ◽

Excitation Strategy

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