Calorimetric Studies and Self-Heating Measurements for a Dual-Phase Steel Under Ultrasonic Fatigue Loading

The objective of the present research is to study the self-heating behavior of a dual-phase (DP) steel under ultrasonic fatigue loading and to investigate the effect of frequency on intrinsic heat dissipation of the material. The steel studied in this work is DP600 commercial DP steel. Fatigue tests...

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Hauptverfasser:	Torabian, Noushin, Favier, Véronique, Ziaei-Rad, Saeed, Dirrenberger, Justin, Adamski, Frédéric, Ranc, Nicolas
Format:	Buchkapitel
Sprache:	eng
Schlagworte:	Dual-Phase Steel Engineering Sciences General References Infrared Thermography Mechanics Mechanics & Mechanical Engineering Mechanics of materials Nondestructive Evaluation Nondestructive Testing & Evaluation Thermics Ultrasonic Fatigue
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creator	Torabian, Noushin Favier, Véronique Ziaei-Rad, Saeed Dirrenberger, Justin Adamski, Frédéric Ranc, Nicolas
description	The objective of the present research is to study the self-heating behavior of a dual-phase (DP) steel under ultrasonic fatigue loading and to investigate the effect of frequency on intrinsic heat dissipation of the material. The steel studied in this work is DP600 commercial DP steel. Fatigue tests were conducted using an ultrasonic fatigue machine at a testing frequency of 20 kHz with flat specimens. An infrared camera was used to measure the mean temperature evolution during the tests. A specific form of heat diffusion equation was adopted in this work to calculate the heat dissipation per cycle from temperature measurements. The variation of this dissipation versus stress amplitude in cyclic loading was also studied.
doi_str_mv	10.1520/STP159820160053
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subjects	Dual-Phase Steel Engineering Sciences General References Infrared Thermography Mechanics Mechanics & Mechanical Engineering Mechanics of materials Nondestructive Evaluation Nondestructive Testing & Evaluation Thermics Ultrasonic Fatigue
title	Calorimetric Studies and Self-Heating Measurements for a Dual-Phase Steel Under Ultrasonic Fatigue Loading
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