Wesley Kauppila scite author profile

Wesley Kauppila

2Publications

16Citation Statements Received

287Citation Statements Given

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263

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University of Maine

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Mechanical testing of two-dimensional materials: a brief review

Al-Quraishi

Kauppila

et al. 2020

International Journal of Smart and Nano Materials

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Two-dimensional (2D) materials have dominated nanoscience for the last two decades. Among all 2D materials, graphene, MoS 2 , and h-BN are extremely popular and have been tentatively scaled up to fabricate nanocomposites, energy storage devices, flexible electronics, etc., ex situ and in situ mechanical characterization of 2D crystals can help us understand their mechanical behavior and measure their mechanical properties, which are of great significance in both fundamental science and practical engineering. To date, a great effort has been devoted to both theoretical and experimental mechanics with a focus on unveiling mechanical behaviors and quantifying mechanical properties. Beyond original research, several insightful review works have been published with a specific focus on the mechanics of 2D materials. To have a complementary contribution to the overview of the mechanics of 2D materials, we would like to review the developed experimental techniques being used to mechanically characterize 2D materials. The working mechanism and associated advantages and disadvantages of the techniques will be briefly discussed. Based on the existence of arguments in mechanical properties and behaviors of 2D crystals, and immature mechanical characterization of 2D materials, more intensive and comprehensive studies are expected toward a full understanding of these novel and promising materials.

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Strengthening the interface between individual aramid fibers and polymer at room and elevated temperatures

Al-Quraishi

Wang

Liang

et al. 2020

Materials Today Communications

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Wesley Kauppila

Mechanical testing of two-dimensional materials: a brief review

Strengthening the interface between individual aramid fibers and polymer at room and elevated temperatures

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