Modal Analysis of a Servo-Hydraulic High Speed Machine and its Application to Dynamic Tensile Testing at an Intermediate Strain Rate

Flow stress is the most important information for hot strip rolling as it affects the rolling force and the thickness of the rolled product. A high-speed compression test up to a strain rate of 300 s − 1 , which is the compression speed of 3 600 mm•s − 1 for a 12-mm-high cylindrical specimen, is necessary as a strain rate of 100-300 s − 1 is the normal rate in the production of hot-strip-rolled steel sheets. An experiment is conducted using a servo-hydraulic compression test machine, which enables a high compression speed and a high temperature, but the oscillation is observed in stress-strain curve at high strain rate over 50 s − 1. To determine the natural frequency of the compression test machine, the Savitzky-Golay filtering method is used for regression and the fast Fourier transformation (FFT) is adopted. To explain the mechanism of this phenomenon, a spring-mass-damper model is used and the results are compared with the FFT analysis result. After eliminating oscillation on the time versus load curve, a flow curve is obtained by inverse analysis, which compensates for the nonuniform strain rate, the inhomogeneous distribution of deformation, and the temperature increase during deformation.

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“…Accordingly, the ram is programmed to be accelerated in the run-up. Solving the above equation, we obtain the following formulation: 11,19)…”

Section: Stress Oscillation Modelmentioning

confidence: 99%

“…They used a linear regression method to evaluate the natural frequency of a compression test machine. Zhu et al 11) used an autoregressive method to fit the data and proposed spring-mass-damper model with a single degree of freedom to explain the elastic phenomenon.…”

Section: Introductionmentioning

confidence: 99%

Flow Stress Measurement and Dynamic Response Analysis of Hot Compression Test Machine at High Strain Rates

et al. 2020

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“…E 33 is taken as zero simply because shell elements are used to model the fabric. The values for E 11 , E 22 , G 12 , G 31 , and G 23 are a function of several factors including current stress and strain, stress and strain history, and strain rate. The determination of these material properties will be discussed in the following section.…”

Section: Constitutive Behavior Of the Fabricmentioning

confidence: 99%

“…Yarn strength decreases slightly as the gage length increases; whereas the failure strain of the Kevlar ® 49 yarns was independent of the gage length, however decreased slightly as the strain rate increased. Zhu et al [8][9][10][11] conducted dynamic tensile testing on Kevlar ® 49 single yarn and fabrics using a servo-hydraulic high speed machine [12][13][14][15][16][17][18] and found that the Young's modulus, tensile strength, maximum strain and toughness increased with increasing strain rate over a range of 20 to 170 s -1 .…”

Section: Introductionmentioning

confidence: 99%

Finite Element Modeling of Ballistic Impact on Kevlar 49 Fabrics

Zhu

Mobasher

Rajan

2011

Conference Proceedings of the Society for Experimental Mechanics Series

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This paper presents an improved material model suitable for Kevlar 49 fabric which was implemented into the commercial explicit Finite Element (FE) software LS-DYNA through a user defined material subroutine (UMAT). The fabric constitutive behavior in the current material model was obtained from new experimental data in the principal material directions (warp and fill) under static loading. Two different modeling configurations, i.e. single FE layer and multiple FE layers were used to simulate the ballistic tests conducted at NASA Glenn research center. Both the shear properties of the fabric and the parameters used in Cowper-Symonds (CS) model which accounts for strain rate effect on material properties were optimized to achieve close match between the FE simulations and experimental data. The residual velocity of the projectile, the absorbed energy by the fabric after impact, and the temporal evolution and the spatial distribution of the fabric deformation and damage were closely examined. Sensitivity analysis was carried out to study the effect of the failure strain of the fabric and the coefficient of friction on the simulation results.

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“…Thus, material properties not only for static, but also dynamic strain rates have to be known for complex analysis of car-body deformation components. The strain rate raising, resistance to deformation increases as well and some materials have shown material micro-and sub-structure change [1,2], yield strength and deformation to fracture growth [3].…”

Section: Introductionmentioning

confidence: 99%

Quasistatic Strain Rates’ Effect to the Properties of Advanced Steels for Automotive Industry

Evin

Tomáš

Výrostek

2016

Acta Metall Slovaca

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The paper presents the findings of the strain rate effect, described in constitutive material models by strain rate sensitivity index m, to the strength and deformation material properties. These were evaluated from stress-strain diagrams recorded at tensile test using PC controlled testing machine TiraTEST 2300 according to STN EN ISO 6892-1. The high strength low alloyed steel H220PD, dual phase steel DP 600 and Trip steel RAK 40/70 were investigated at strain rates   = 0.0021, 0.083 and 0.125 s -1 . The results indicate major influence of the strain rate to the strength properties while only minor influence have been found when evaluate the deformation properties. The results also shown single phase materials are more sensitive to the strain rate than dual phase materials.

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Modal Analysis of a Servo-Hydraulic High Speed Machine and its Application to Dynamic Tensile Testing at an Intermediate Strain Rate

Cited by 69 publications

References 27 publications

Flow Stress Measurement and Dynamic Response Analysis of Hot Compression Test Machine at High Strain Rates

Flow Stress Measurement and Dynamic Response Analysis of Hot Compression Test Machine at High Strain Rates

Finite Element Modeling of Ballistic Impact on Kevlar 49 Fabrics

Quasistatic Strain Rates’ Effect to the Properties of Advanced Steels for Automotive Industry

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