This article describes the fatigue testing of QT steel in ultrasonic frequencies. Different possibilities, challenges and prejudices are reviewed
Ultrasonic fatigue testing is a relative recent fatigue methodology that uses resonant principles fo...
High-cycle and very-high-cycle fatigue tests via rotary bending (52.5 Hz), electromagnetic resonance...
Titanium alloys have been widely used in the structural parts of deep-sea equipment and aviation ind...
Until 1970´s, fatigue properties of materials were usually studied and evaluated up to the HCF regim...
When the fatigue cycle is extended from high cycle (105~107) to very high cycle (107~109), the fatig...
Welded parts fabricated from high-strength steel (HSS) require an almost infinite lifetime, i.e., a ...
This article briefly discusses the history of the development of ultrasonic fatigue testing methods,...
An accelerated ultrasonic fatigue test(UFT) has been used for analyzing very high cycle fatigue( VHC...
There is a limited data on VHCF for structural steels and their weldments for > 107cycles. Unalloyed...
There are limited experimental data on VHCF for structural steels for >107 cycles. Unalloyed low-car...
Ultrasonic Fatigue Testing (UFT) is an accelerated fatigue testing method, capable of running at 20 ...
AbstractAt the Institute of Materials Science and Engineering an ultrasonic testing facility (UTF) f...
Any system consisting of structural material often undergoes fatigue, which is caused by dynamic loa...
An increasing number of engineering components are expected to have fatigue life in the range of 107...
The objective of this paper is to study the gigacycle fatigue behavior of an austenitic steel at tem...
Ultrasonic fatigue testing is a relative recent fatigue methodology that uses resonant principles fo...
High-cycle and very-high-cycle fatigue tests via rotary bending (52.5 Hz), electromagnetic resonance...
Titanium alloys have been widely used in the structural parts of deep-sea equipment and aviation ind...
Until 1970´s, fatigue properties of materials were usually studied and evaluated up to the HCF regim...
When the fatigue cycle is extended from high cycle (105~107) to very high cycle (107~109), the fatig...
Welded parts fabricated from high-strength steel (HSS) require an almost infinite lifetime, i.e., a ...
This article briefly discusses the history of the development of ultrasonic fatigue testing methods,...
An accelerated ultrasonic fatigue test(UFT) has been used for analyzing very high cycle fatigue( VHC...
There is a limited data on VHCF for structural steels and their weldments for > 107cycles. Unalloyed...
There are limited experimental data on VHCF for structural steels for >107 cycles. Unalloyed low-car...
Ultrasonic Fatigue Testing (UFT) is an accelerated fatigue testing method, capable of running at 20 ...
AbstractAt the Institute of Materials Science and Engineering an ultrasonic testing facility (UTF) f...
Any system consisting of structural material often undergoes fatigue, which is caused by dynamic loa...
An increasing number of engineering components are expected to have fatigue life in the range of 107...
The objective of this paper is to study the gigacycle fatigue behavior of an austenitic steel at tem...
Ultrasonic fatigue testing is a relative recent fatigue methodology that uses resonant principles fo...
High-cycle and very-high-cycle fatigue tests via rotary bending (52.5 Hz), electromagnetic resonance...
Titanium alloys have been widely used in the structural parts of deep-sea equipment and aviation ind...
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