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Neutron Bragg-edge transmission imaging for microstructure and residual strain in induction hardened gears

Yuhua Su, Kenichi Oikawa, T. Shinohara, Tetsuya Kai, Takashi Horino, Osamu Idohara, Yoshitaka Misaka, Yo Tomota

2021Scientific Reports32 citationsDOIOpen Access PDF

Abstract

A time-of-flight Bragg-edge neutron transmission imaging was used to investigate the microstructure and strain distributions in a gear hardened by a newly developed two-step induction-heating method: precursor (Sample 1) and final product (Sample 2). The edge-position and edge-broadening were determined and mapped with high spatial resolution, which enabled us to confirm the two-dimensional distributions of the microstructure and residual strain. A deep hardened layer was made for Sample 1 in which martensite was formed on the entire teeth and the outer peripheral portion of the gear body. Sample 2 was subjected to double induction-hardening, where a tempered martensite was formed as the thermal refined microstructure between a fine-grained martensite at the tooth surface and a ferrite-pearlite microstructure at the core. The relationship between edge-broadening and the Vickers hardness described by a linear equation was employed to derive the elastic residual strain. The residual strain map for Sample 2 revealed that a steep compressive strain was introduced into the fine-grained martensite at the tooth surface by the super rapid induction-heating and quenching process. The reversal of tension was speculated to occur below 2 mm from the tooth tip, and the strain was almost zero in the core region.

Topics & Concepts

MicrostructureResidualStrain (injury)Materials scienceEnhanced Data Rates for GSM EvolutionNeutronTransmission (telecommunications)Composite materialComputer scienceMedicineAnatomyAlgorithmPhysicsArtificial intelligenceNuclear physicsTelecommunicationsNuclear Physics and ApplicationsNuclear Materials and PropertiesMetal and Thin Film Mechanics
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