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Fatigue properties were obtained using the strain-life approach with the use of smooth uniform gage section specimens under axial fully-reversed loading.
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Butterfly geometry with a blunted notch and roving orientation parallel to the applied load is found to have a uniform shear stress in the gage section.
In the measurement of elastic constants of materials, test specimen geometries and fixtures should be designed in such a manner as to introduce a uniform uniaxial state of stress in the gage section.
The design of a new displacement and rotation gage is presented that allows non-contact measurement at the gage section.
The dimension of the nano-tension gage section can vary from 50 to 1000 nm.
A four-point bending configuration is used at the gage section of the setup.
Digital image correlation technique was used to measure and map the strains over the specimen's gage section.
Results are promising as they indicated that failure in the majority of the IM7/977-2 specimens occurred in the gage section.
Finally, tests of samples with printed architecture localized to the gage section revealed an effect in which fatigue performance appeared to drastically improve despite the localization of strain.
The stress and strain state in the gage section is designed to produce essentially "pure" simple shear, mode II in-plane shear, in a compact-sample geometry.
It makes use of flat dogbone-shaped, notched, central hole and smiley-shear micro-specimens that have been scaled down from their macroscopic counterparts in a way that the critical gage section dimensions do not exceed 500 μm.
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Justyna Jupowicz-Kozak
CEO of Professional Science Editing for Scientists @ prosciediting.com