Add to ORKGAbstract. It is well known that the properties of the materials may be different as the strain rate increases. Advanced ceramic materials such as aluminas, could present an increase in their strength as the strain rate becomes higher. In this paper the investigation is focused on the influence of the strain rate on the tensile strength of alumina. The influence of this variable on this property is experimentally analysed by means of two different kind of tests carried out from low to high strain rates. The splitting test of brittle materials is a testing technique widely used at low strain rates. It has been recently extended to dynamic conditions using the Hopkinson split pressure bar. In this work this method is used both in static and dy...
The aim of this work is to perform Brazilian tests in order to identify the tensile strength of alum...
The split Hopkinson pressure bar was used to study the failure of a high‐strength alumina at strain ...
Testing ceramics at high strain rates presents many experimental diffsiculties due to the brittle na...
It is well known that the properties of the materials may be different as the strain rate increases....
It is well known that the properties of the materials may be different as the strain rate increases....
Ceramic materials are usually assumed linear elastic up to failure and the failure criterion is accu...
Ceramic materials are usually assumed linear elastic up to failure and the failure criterion is accu...
Brittle materials, as advanced ceramics, present a weak behaviour under tensile loads. For that reas...
Brittle materials, as advanced ceramics, present a weak behaviour under tensile loads. For that reas...
In this article research into the uniaxial tensile strength of Al2O3 monolithic ceramic is presented...
Evaluation of the mechanical properties of brittle materials submitted to high strain rates is funda...
The aim of this work is to identify the tensile strength of alumina (Corbit98), by performing Brazil...
Ultrahigh-strength alumina specimens made from disks produced by vacuum hot pressing high-purity alu...
Ultrahigh-strength alumina specimens made from disks produced by vacuum hot pressing high-purity alu...
For development of structural ceramics e.g., alumina for high strain rate resistant applications, it...
The aim of this work is to perform Brazilian tests in order to identify the tensile strength of alum...
The split Hopkinson pressure bar was used to study the failure of a high‐strength alumina at strain ...
Testing ceramics at high strain rates presents many experimental diffsiculties due to the brittle na...
It is well known that the properties of the materials may be different as the strain rate increases....
It is well known that the properties of the materials may be different as the strain rate increases....
Ceramic materials are usually assumed linear elastic up to failure and the failure criterion is accu...
Ceramic materials are usually assumed linear elastic up to failure and the failure criterion is accu...
Brittle materials, as advanced ceramics, present a weak behaviour under tensile loads. For that reas...
Brittle materials, as advanced ceramics, present a weak behaviour under tensile loads. For that reas...
In this article research into the uniaxial tensile strength of Al2O3 monolithic ceramic is presented...
Evaluation of the mechanical properties of brittle materials submitted to high strain rates is funda...
The aim of this work is to identify the tensile strength of alumina (Corbit98), by performing Brazil...
Ultrahigh-strength alumina specimens made from disks produced by vacuum hot pressing high-purity alu...
Ultrahigh-strength alumina specimens made from disks produced by vacuum hot pressing high-purity alu...
For development of structural ceramics e.g., alumina for high strain rate resistant applications, it...
The aim of this work is to perform Brazilian tests in order to identify the tensile strength of alum...
The split Hopkinson pressure bar was used to study the failure of a high‐strength alumina at strain ...
Testing ceramics at high strain rates presents many experimental diffsiculties due to the brittle na...