Inicio  /  ISIJ INTERNATIONAL  /  Vol: 52 Núm: 6 Par: 0 (2012)  /  Artículo
ARTÍCULO
TITULO

Fatigue Failure Behavior of Al2O3¿SiO2 System Bricks under Compressive Stress at Room and High Temperatures

Yuta Hino    
Yoshisato Kiyota    

Resumen

No disponible

 Artículos similares

       
 
D. Ruiz-Valencia, F. Rodríguez, M. León-Neira     Pág. Page 45 - 58
The behavior in flexural fatigue tests of concrete containing metal fibers has not been extensively studied. Therefore, this study was considered to determine the effect of incorporating metal fibers in concrete paving in flexural fatigue tests. A concre... ver más

 
Gagandeep Singh, Devesh Tiwari, P.K. Jain, A.K. Swami     Pág. 438 - 444
Fatigue failure of any kind of material is of great concern while designing any component of Civil Engineering Structure. A fluctuating stress i.e. with positive and negative phase is the root cause of fatigue failure. Even controlling the peak amplitude... ver más

 
Olumide Moses Ogundipe     Pág. 685 - 693
The purpose of highway pavement is to provide smooth surface over which vehicles can move safely from one place to another. The two major types of pavement (flexible and rigid) have been mostly selected for the highway pavement to fulfil this function an... ver más

 
A.M. Horr, M. Hartmann, J. Kronsteiner     Pág. 4180 - 4189
Many research works recently have attempted to use different computational and numerical simulation techniques to model the material thermal large deformation processes for the design of high performance profiles in new roadside infrastructure designs. T... ver más

 
Hernan Andres Pinto, Alvaro Rodrigo Peña, Ignacio Aravena     Pág. 80 - 85
In this paper the authors propose a new damage accumulation modelbased on an exponential approach for aluminum closed cell foam underfully reversed cyclic loading. The model developed need as an input, theinformation about the fatigue behavior of the mat... ver más