Add to ORKGFatigue failure of metal components containing notches, cracks and other defects has been an active research topic for many years because of its important practical and theoretical implications. Recently, Taylor and his colleagues have re-visited this topic and proposed the theory of critical distance (TCD), which summarizes the early work by Neuber, Peterson and others in a unifying theory and predicts fatigue fracture with the use of a critical distance, Lo. In this paper, an experimental and numerical study of the fatigue of notched and un-notched 6061 aluminium alloys is used to verify the TCD and some of the limitations of the TCD are discussed on this basis
This paper summarises an attempt to use the Theory of Critical Distances (TCD) to predict static fai...
In some fatigue critical scenarios, like those arising in cast or additively manufactured components...
This paper reports on an attempt to systematically re-interpret the conventional multiaxial fatigue ...
Fatigue failure of metal components containing notches, cracks and other defects has been a very act...
This paper provides new insights in the use of the critical distance method for fatigue analysis of ...
This paper investigates some theoretical aspects related to the use of the Theory of Critical Distan...
This paper attempts to review the most interesting findings in the use of the theory of critical dis...
This paper is concerned with a novel elasto-plastic reformulation of the Theory of Critical Distance...
Several approaches derived from linear elastic fracture mechanics (LEFM) have been proposed for fati...
Theory of Critical Distances (TCD) collects several methods adopted in failure prediction of compone...
In the present paper, the theory of critical distances (TCD) is reformulated in order to make it sui...
The Theory of Critical Distance (TCD) and its associated methods have proved useful for predicting f...
In this paper the so-called Theory of Critical Distances is reformulated to make it suitable for es...
Combinations of geometric discontinuities and multiaxial loads appear commonly in engineering compon...
The present work is aimed at exploring the applicability of the theory of critical distances (TCD) t...
This paper summarises an attempt to use the Theory of Critical Distances (TCD) to predict static fai...
In some fatigue critical scenarios, like those arising in cast or additively manufactured components...
This paper reports on an attempt to systematically re-interpret the conventional multiaxial fatigue ...
Fatigue failure of metal components containing notches, cracks and other defects has been a very act...
This paper provides new insights in the use of the critical distance method for fatigue analysis of ...
This paper investigates some theoretical aspects related to the use of the Theory of Critical Distan...
This paper attempts to review the most interesting findings in the use of the theory of critical dis...
This paper is concerned with a novel elasto-plastic reformulation of the Theory of Critical Distance...
Several approaches derived from linear elastic fracture mechanics (LEFM) have been proposed for fati...
Theory of Critical Distances (TCD) collects several methods adopted in failure prediction of compone...
In the present paper, the theory of critical distances (TCD) is reformulated in order to make it sui...
The Theory of Critical Distance (TCD) and its associated methods have proved useful for predicting f...
In this paper the so-called Theory of Critical Distances is reformulated to make it suitable for es...
Combinations of geometric discontinuities and multiaxial loads appear commonly in engineering compon...
The present work is aimed at exploring the applicability of the theory of critical distances (TCD) t...
This paper summarises an attempt to use the Theory of Critical Distances (TCD) to predict static fai...
In some fatigue critical scenarios, like those arising in cast or additively manufactured components...
This paper reports on an attempt to systematically re-interpret the conventional multiaxial fatigue ...