Add to ORKGThe specific heat loss per cycle (Q parameter) evaluated experimentally by means of the so-called cooling gradient technique was used in previous works to synthesise 140 experimental fatigue test results generated from plain and bluntly notched specimens made of AISI 304L stainless steel. Since the cooling gradient was measured by means of thermocouple wires attached to the specimen\u2019s surface with a 1.5-to-2 mm glue dot diameter, notches with tip radii greater than 3 mm were used, because the glue dot diameter would have been too large to capture the specific heat loss at the tip of sharper notches. Therefore in this contribution the cooling gradient was measured by means of a FLIR SC7600 infrared camera, equipped with proper lens and...
Fatigue is an irreversible process, accompanied by microstructural changes, localized plastic strain...
The energy dissipated to the surroundings as heat in a unit volume of material per cycle, Q, was rec...
Fatigue of metallic materials is a dissipative phenomenon involving plastic deformations that requir...
AbstractIn previously published papers by the authors, the specific heat energy loss per cycle (the ...
The specific heat loss per cycle (Q parameter) was used in previous works to synthesise more than on...
In previously published papers by the authors, the specific heat energy loss per cycle (the Q parame...
In the last years, a large amount of fatigue test results from plain and bluntly notched specimens m...
In the last years, a large amount of fatigue test results from plain and bluntly notched specimens m...
Determination of fatigue limit under uniaxial tests based on the experimental measurement of materia...
Determination of fatigue limit based on the experimental measurement of material thermal increments ...
Recently a theoretical frame and an experimental procedure to average the heat energy dissipated in ...
Metallic materials dissipate thermal energy when subjected to fatigue. Some of them, due a favorable...
Development of experimental equipments able to provide the whole temperature field have given impuls...
The energy dissipated to the surroundings as heat in a unit volume of material per cycle, Q, was rec...
In the recent past, the specific heat loss per cycle (Q parameter) was used to synthesise in a singl...
Fatigue is an irreversible process, accompanied by microstructural changes, localized plastic strain...
The energy dissipated to the surroundings as heat in a unit volume of material per cycle, Q, was rec...
Fatigue of metallic materials is a dissipative phenomenon involving plastic deformations that requir...
AbstractIn previously published papers by the authors, the specific heat energy loss per cycle (the ...
The specific heat loss per cycle (Q parameter) was used in previous works to synthesise more than on...
In previously published papers by the authors, the specific heat energy loss per cycle (the Q parame...
In the last years, a large amount of fatigue test results from plain and bluntly notched specimens m...
In the last years, a large amount of fatigue test results from plain and bluntly notched specimens m...
Determination of fatigue limit under uniaxial tests based on the experimental measurement of materia...
Determination of fatigue limit based on the experimental measurement of material thermal increments ...
Recently a theoretical frame and an experimental procedure to average the heat energy dissipated in ...
Metallic materials dissipate thermal energy when subjected to fatigue. Some of them, due a favorable...
Development of experimental equipments able to provide the whole temperature field have given impuls...
The energy dissipated to the surroundings as heat in a unit volume of material per cycle, Q, was rec...
In the recent past, the specific heat loss per cycle (Q parameter) was used to synthesise in a singl...
Fatigue is an irreversible process, accompanied by microstructural changes, localized plastic strain...
The energy dissipated to the surroundings as heat in a unit volume of material per cycle, Q, was rec...
Fatigue of metallic materials is a dissipative phenomenon involving plastic deformations that requir...