Effects of Size and Distribution of Spheroidized Cementite on Void Initiation in the Punched Surface of Medium-Carbon Steel

Saito, Ken; Inoue, Chikara; Ikegawa, Jin; Yamazaki, Kazuhiko; Goto, Sota; Takamura, Masato; Mihara, Shunsuke; Suzuki, Shinsuke

doi:10.1007/s11661-020-05854-6

Cited by 6 publications

(2 citation statements)

References 29 publications

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“…Elastic deformation of the die and the testing machine occurred during punching; the experimental values were corrected using a method from previous research. 20) The increase tendency of the experimental punch force agrees approximately with the analytical tendency. However, the FE analysis exhibits three different sections: sharp punch force decrease, maximum punch force, and punch force decrease ratio after the maximum punch force.…”

Section: Validity Of Fe Model Of Punching Testsupporting

confidence: 72%

Prediction Method of Void Distribution near Punched Surface of Medium-Carbon Steel Sheet using Scrap

et al. 2021

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The objective of this study was to confirm the validity of the prediction method of void distribution near a punched surface of a blank (holder side) by observing the void distribution of scrap (hole side). It is important to know the exact void number density and void area fraction through an appropriate evaluation method such as that mentioned, just where a crack occurs owing to stretch-flange deformation in the same individual sample because the crack and the void behaviors fluctuate from sample to sample and with position, even under the same punching condition. This study investigated the correlation of void distribution near punched fracture surfaces of the blank and scrap in medium-carbon steel. The voids near the punched fracture surfaces of the blank and the scrap were measured using SEM images. The voids of the blank and the scrap were distributed point-symmetrically with respect to the center of the fracture surface. The equivalent plastic strain and the stress triaxiality that were analyzed with FE analysis were also distributed point-symmetrically. The void distribution of scrap was shifted to the sheared surface side, compared to that of the blank. To predict the void distribution of the blank using the scrap, the void distribution of the scrap with the burr side as a reference point was approximated by a cubic function. Furthermore, the void distribution of the scrap shifted to the burr side. The prediction method of void distribution near punched surface by scrap was validated by considering stress and strain during punching.

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Section: Validity Of Fe Model Of Punching Testsupporting

confidence: 72%

Prediction Method of Void Distribution near Punched Surface of Medium-Carbon Steel Sheet using Scrap

et al. 2021

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“…• Piezoelectric energy harvester [35] Cryotechnics • Cryogenic-temperature thermodynamically Suppressed and strongly confined quantum dots [36] • SQUIDS (superconducting quantum interference devices) [37] Mechanics • Quantum-dot array with self-aligned electrodes [38] • Reversible adhesion via quantum dots [39] • Reduction of friction [40] Magnetics • Quantum-dot cellular automata [41] • Multimodal imaging [42] Sensorics • Data acquisition in antagonistic surroundings and media [43] • Telemetry monitoring via PDA [44] • Optical and electrochemical (bio)analytical sensors [45] Chemistry • Drift-diffusion [46] • Carbon dots are in contrast to corrosion inhibitors [47] • Resistive-based gas sensors [48] Biomedicine • Biocompatible implant coating [49] • Neurological sensors [50] New materials • Metastable phases/metallic glasses: Mn 2+ -doped CdS quantum dots in a silicate glass [51] Metal-doped PbSe quantum dots in silicate glasses [52] • Low-noise GaAs quantum photonics [53] • Ultra-stable carbon quantum dots [54] (Alternative) Energies…”

Section: Field Application With Examplesmentioning

confidence: 99%

Introductory Chapter: The Fame of Quantum Dots in Space-age Improvements for Multifunctional Application

Thirumalai¹

2023

Quantum Dots - Recent Advances, New Perspectives and Contemporary Applications

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Stretch Flangeability of Low Carbon Micro-alloyed Ferrite-Pearlite and Ferrite-Bainite Steel

Kumar,

Mandal,

Mukherjee

2024

Metall Mater Trans A

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Effects of Size and Distribution of Spheroidized Cementite on Void Initiation in the Punched Surface of Medium-Carbon Steel

Cited by 6 publications

References 29 publications

Prediction Method of Void Distribution near Punched Surface of Medium-Carbon Steel Sheet using Scrap

Prediction Method of Void Distribution near Punched Surface of Medium-Carbon Steel Sheet using Scrap

Introductory Chapter: The Fame of Quantum Dots in Space-age Improvements for Multifunctional Application

Stretch Flangeability of Low Carbon Micro-alloyed Ferrite-Pearlite and Ferrite-Bainite Steel

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