A Simple Quantitative Method for Identification of Failure due to Fatigue Damage

Author:

Al-Khateeb Ghazi1,Shenoy Aroon2

Affiliation:

1. Department of Civil Engineering, Jordan University of Science and Technology, Irbid, 22110, Jordan,

2. S.A.I.C.O. President, 1111 Arlington Blvd, Arlington, VA 22209, USA

Abstract

A simple quantitative method is presented which is applicable to any type of fatigue testing that uses sinusoidal strain/stress input and which will work for experimentally identifying points of failure due to fatigue damage of any kind of material being tested. The present work utilizes strain-controlled bending beam fatigue test on asphalt mixtures to demonstrate the efficacy of this method. Distortions in the hysteresis loop or waveform are tracked to pinpoint the appearance of initial microcracks and final point of complete failure due to fatigue damage. Relationship between output signals for consecutive cycles with reference to initial stable cycle is used for computing ‘R 2’. The ‘R2’ drops sharply from initial stable value of 1 to less than 0.5 and eventually to almost 0 with increasing loading cycles. The number of cycles determined from the fitted equation at ‘R2’ = 1 marks the point of first fatigue failure N fff and ‘R2’ = 0 marks the point of complete fatigue failure Ncff.

Publisher

SAGE Publications

Subject

Mechanical Engineering,Mechanics of Materials,General Materials Science,Computational Mechanics

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1. Influence of Multiple Modifications on the Fatigue Behavior of Bitumen and Asphalt Mixtures;Journal of Engineering Materials and Technology;2023-11-06

2. Influence of glass fibre grid and its placement on the fatigue damage of asphalt mixture;Materials and Structures;2023-08-31

3. Fatigue Damage Criteria for Bitumen Based on the Evolution of Lissajous Plot;Proceedings of the Sixth International Conference of Transportation Research Group of India;2022-09-19

4. Effect of Loading Frequency and Temperature on the Fatigue Parameters of Asphalt Concrete;Journal of Engineering Sciences;2022

5. Understanding the influence of temperature and frequency on the fatigue resistance of bitumen;Construction and Building Materials;2021-08

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