Yong Shang scite author profile

High temperature creep resistance is a critical characteristic of Ni-based single crystal (SX) superalloys. In this work, the creep behavior of a Ni-based SX superalloy was in situ characterized at 980 °C by ultraviolet (UV) imaging combined two-dimensional digital image correlation (DIC) in vacuum environment. The surface pattern was fabricated to maintain stable over 65 h at 980 °C. The pattern images captured by UV imaging were analyzed using mean gray value and the full-field strain map of creep deformation was obtained. A laser displacement senor (LDS) was employed for measuring the creep strain on the specimen for comparison. The creep deformation result shows a good agreement between DIC and LDS, the microstructure of the different creep areas on the specimens also demonstrate that the results of DIC are reliable. The in situ creep characterization by UV-DIC shows a great potential for investigating creep behaviors at high temperatures.

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Experimental Investigation of Novel Impact Hydroforming Technology on Sheet Metal Formability

Zhang

et al. 2018

J. Phys.: Conf. Ser.

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Development of deposition beam current dependent microstructure and nanomechanical properties in ZrO2-8wt%Y2O3 thermal barrier coatings produced by electron beam-physical vapor deposition technique

Guo

Zhou

Shang

et al. 2021

Materials Chemistry and Physics

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Effect of Impact Hydroforming Loads on the Formability of AA5A06 Sheet Metal

Zhang

et al. 2018

IOP Conf. Ser.: Mater. Sci. Eng.

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Yong Shang

High temperature tensile behavior of a thin-walled Ni based single-crystal superalloy with cooling hole: In-situ experiment and finite element calculation

In Situ Creep Behavior Characterization of Single Crystal Superalloy by UV-DIC at 980 °C

Experimental Investigation of Novel Impact Hydroforming Technology on Sheet Metal Formability

Development of deposition beam current dependent microstructure and nanomechanical properties in ZrO2-8wt%Y2O3 thermal barrier coatings produced by electron beam-physical vapor deposition technique

Effect of Impact Hydroforming Loads on the Formability of AA5A06 Sheet Metal

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