Your search keyword '"Wang, Yonghong"' showing total 2 results

1. High-performance digital shearography integrating spatial light modulator with micro-polarizer camera.

Author

Yao, Yanfeng, Wang, Yonghong, Zheng, Zihua, Wang, Biao, and Li, Junrui

Subjects

*SPATIAL light modulators, *NONDESTRUCTIVE testing, *DYNAMIC testing, *PROPERTIES of fluids, *DEFORMATION of surfaces, *POLARIZERS (Light), *ECOLOGICAL disturbances, *MILITARY supplies

Abstract

• The new digital shearography meets the requirements of high standards, making it suitable for dynamic tests while providing high-quality phase maps. • Both shearing direction and amount can be controlled quantitatively and accurately. • Phase maps can be evaluated with a single exposure. • High light efficiency and accurate phase demodulation lead to high-quality phase maps. Digital shearography (DS), a laser-based optical interferometric method, is widely employed for measuring the first-order derivative of an object's surface deformation. Unlike digital holography, DS integrates self-reference optics, enhancing resistance to environmental disturbance and improving detection sensitivity, making it ideal for non-destructive testing (NDT). DS finds applications in diverse fields such as material inspection, fluid property research, medical diagnostics, cultural heritage restoration, and military defense. The conventional temporal phase-shift (TPS) method encounters limitations in dynamic tests, leading to the introduction of the spatial phase-shift (SPS) method. However, SPS is restricted by aperture size, impacting the phase map quality. The spatial light modulator (SLM) introduces a novel approach to DS system development, enabling quantitative shearing adjustments through precise SLM control. Existing DS systems using traditional phase-shift technology rely on interferometers and struggle to achieve high-quality phase maps with a single exposure. The proposed high-performance DS, leveraging both SLM and a micro-polarizer camera, overcomes this limitation, facilitates single-exposure phase map evaluation with the polarization phase-shift technique, and eliminates the need for a tiny aperture, enhancing light beam utilization and phase map quality. [ABSTRACT FROM AUTHOR]

Published

2024

2. Simultaneous dual directional strain measurement using spatial phase-shift digital shearography.

Author

Wang, Yonghong, Gao, Xinya, Xie, Xin, Wu, Sijing, Liu, Yingxue, and Yang, Lianxiang

Subjects

*PHASE shifters, *SHEAROGRAPHY, *MICHELSON interferometer, *STRAINS & stresses (Mechanics), *LIGHTING

Abstract

This paper presents a Dual Directional Sheared Spatial Phase-Shift Digital Shearography (DDS-SPS-DS) system for simultaneous measurement of strains/displacement derivative in two directions. Two Michelson Interferometers are used as the shearing device to create two shearograms, one in the x -shearing direction and one in the y -shearing direction, which are recorded by a single CCD camera. Two lasers with different wavelengths are used for illumination, and corresponding band pass filters are applied in front of each Michelson Interferometer to avoid cross-interference between the two shearing direction channels. Two perpendicular shearing directions in the two measurement channels introduce two different spatial frequency carriers whose spectrums are orientated in different directions after Fourier Transform. Phase maps of the recorded two shearograms can be obtained by applying a windowed inverse Fourier transform, which enables simultaneous measurement of dual directional strains/displacement derivatives. The new system is well suited for nondestructive testing and strain measurement with a continuous or dynamic load. The capability of the dual directional spatial phase-shift digital shearography system is described by theoretical discussions as well as experiments. [ABSTRACT FROM AUTHOR]

Published

2016