Add to ORKGAn investigation was conducted to determine the effects of cyclic loading on the mechanical behavior of 24S-T4 and 75S-T6 aluminum alloys and SAE 4130 steel. Specimens of the three materials were subjected to various numbers of prior fatigue cycles both below and above the fatigue limits. Special slow-bend tests were employed to show the effects of prior cycles of fatigue stressing on the transition temperature to brittle fracture for SAE 4130 steel and on the energy-absorption capacity of the aluminum alloys. Micrographic studies were made to observe and measure crack formation and propagation and additional special tests were conducted to supplement the results of the slow-bend tests. These included Charpy impact tests, mirohardness surve...
In this work, understanding the microstructural effects of monotonic and cyclic failure of wrought 7...
The purpose of this investigation is to study the effects of repeated tensile stresses above the pro...
The fatigue crack growth behaviour of 316L stainless steel (Batch A) following a tensile overload ha...
An investigation was conducted to determine the effects of cyclic loading on the mechanical behavior...
The elastic-plastic deformation behavior under cyclic stress of a number of different engineering ma...
The three main stages of fatigue life (accommodation, crack initiation and crack growth) are briefly...
AbstractThe present work is devoted to study the influence of high cycle fatigue damage rate at R = ...
Fatigue and fracture testing and analyses were performed on four engineering materials: a low-streng...
It was found that the cyclic loading has a considerable effect on the mechanical behaviour of materi...
This paper discusses cyclic deformation and fatigue behaviors of stainless steel 304L and aluminum 7...
Thermal-fatigue crack-growth characteristics of notched- and unnotched-disk specimens of A-286, Disc...
Literature survey was conducted to determine the effects of different microstructural features and d...
Stress corrosion cracking (SSC) tests were performed on 13 aluminum alloys, 13 precipitation hardeni...
Static tensile tests were performed on simple notched specimens containing fatigue cracks. Four type...
Aluminum alloys are finding increasing use in the aerospace and automobile industries due to their a...
In this work, understanding the microstructural effects of monotonic and cyclic failure of wrought 7...
The purpose of this investigation is to study the effects of repeated tensile stresses above the pro...
The fatigue crack growth behaviour of 316L stainless steel (Batch A) following a tensile overload ha...
An investigation was conducted to determine the effects of cyclic loading on the mechanical behavior...
The elastic-plastic deformation behavior under cyclic stress of a number of different engineering ma...
The three main stages of fatigue life (accommodation, crack initiation and crack growth) are briefly...
AbstractThe present work is devoted to study the influence of high cycle fatigue damage rate at R = ...
Fatigue and fracture testing and analyses were performed on four engineering materials: a low-streng...
It was found that the cyclic loading has a considerable effect on the mechanical behaviour of materi...
This paper discusses cyclic deformation and fatigue behaviors of stainless steel 304L and aluminum 7...
Thermal-fatigue crack-growth characteristics of notched- and unnotched-disk specimens of A-286, Disc...
Literature survey was conducted to determine the effects of different microstructural features and d...
Stress corrosion cracking (SSC) tests were performed on 13 aluminum alloys, 13 precipitation hardeni...
Static tensile tests were performed on simple notched specimens containing fatigue cracks. Four type...
Aluminum alloys are finding increasing use in the aerospace and automobile industries due to their a...
In this work, understanding the microstructural effects of monotonic and cyclic failure of wrought 7...
The purpose of this investigation is to study the effects of repeated tensile stresses above the pro...
The fatigue crack growth behaviour of 316L stainless steel (Batch A) following a tensile overload ha...