Add to ORKGAn experimental study was conducted to determine the effects of combined bending and membrane cyclic stresses on the fatigue crack growth behavior of aluminum sheet material. The materials used in the tests were 0.040-in.- thick 2024-T3 alclad and 0.090-in.-thick 2024-T3 bare sheet. In the tests, the membrane stresses were applied as a constant amplitude loading at a stress ratio (minimum to maximum stress) of 0.02, and the bending stresses were applied as a constant amplitude deflection in phase with the membrane stresses. Tests were conducted at ratios of bending to membrane stresses (B/M) of 0, 0.75, and 1.50. The general trends of the results were for larger effects of bending for the higher B/M ratios, the lower membrane stresses, and ...
The fatigue crack propagation behavior of two commercial Al alloys was studied using spectrum loadin...
Static fracture tests were performed on surface flawed specimens of aluminum and titanium alloys. A ...
The fracture toughness and fatigue flaw growth characteristics of 2024-T861 and 2124-T851 aluminum w...
An experimental study was conducted to determine the effects of combined bending and membrane cyclic...
Printed copies available from the following: The use of trademarks or names of manufacturers in this...
Fatigue crack growth in 1.6‐mm‐thick sheets of aluminium alloy AA2024‐T3 was investigated under very...
Stress ratio effect on axial load fatigue and crack propagation tests on aluminum alloy sheet
A series of fatigue tests with specimens subjected to constant amplitude and two-step axial loads we...
A series of fatigue tests with specimens subjected to constant amplitude and two-step axial loads we...
A study was made to determine the effects of specimen thickness on fatigue crack growth and fracture...
The stable tearing behavior of thin sheets 2024-T3 aluminum alloy was studied for middle crack tensi...
The stable tearing behavior of thin sheets of 2024-T3 aluminum alloy was investigated for middle cra...
The variation in fatigue crack closure behavior across the thickness of aluminum alloy specimens was...
The fatigue crack growth behavior under constant amplitude and under single overload of 2024 aluminu...
Room-temperature static and cyclic tests were made on 21 aluminum plates in the shape of a 91.4x91.4...
The fatigue crack propagation behavior of two commercial Al alloys was studied using spectrum loadin...
Static fracture tests were performed on surface flawed specimens of aluminum and titanium alloys. A ...
The fracture toughness and fatigue flaw growth characteristics of 2024-T861 and 2124-T851 aluminum w...
An experimental study was conducted to determine the effects of combined bending and membrane cyclic...
Printed copies available from the following: The use of trademarks or names of manufacturers in this...
Fatigue crack growth in 1.6‐mm‐thick sheets of aluminium alloy AA2024‐T3 was investigated under very...
Stress ratio effect on axial load fatigue and crack propagation tests on aluminum alloy sheet
A series of fatigue tests with specimens subjected to constant amplitude and two-step axial loads we...
A series of fatigue tests with specimens subjected to constant amplitude and two-step axial loads we...
A study was made to determine the effects of specimen thickness on fatigue crack growth and fracture...
The stable tearing behavior of thin sheets 2024-T3 aluminum alloy was studied for middle crack tensi...
The stable tearing behavior of thin sheets of 2024-T3 aluminum alloy was investigated for middle cra...
The variation in fatigue crack closure behavior across the thickness of aluminum alloy specimens was...
The fatigue crack growth behavior under constant amplitude and under single overload of 2024 aluminu...
Room-temperature static and cyclic tests were made on 21 aluminum plates in the shape of a 91.4x91.4...
The fatigue crack propagation behavior of two commercial Al alloys was studied using spectrum loadin...
Static fracture tests were performed on surface flawed specimens of aluminum and titanium alloys. A ...
The fracture toughness and fatigue flaw growth characteristics of 2024-T861 and 2124-T851 aluminum w...