Yuyi Mao scite author profile

As electromagnetic absorbers with wide absorption bandwidth are highly pursued in the cutting-edge electronic and telecommunication industries, the traditional dielectric or magnetic bulky absorbers remain concerns of extending the effective absorption bandwidth. In this work, a dual-principle strategy has been proposed to make a better understanding of the impact of utilizing conductive absorption fillers coupled with implementing artificial structures design on the absorption performance. In the comparison based on the microscopic studies, the carbon nanotubes (CNTs)-based absorbers are confined to narrow operating bandwidth and relatively fixed response frequency range, which can not fulfill the ever-growing demands in the application. With subsequent macroscopic structure design based on the CNTs-based dielectric fillers, the artificial patterns show much more broadened absorption bandwidth, covering the majority of C-band, the whole X-band, and Ku-band, due to the tailored electromagnetic parameters and more reflections and scatterings. The results suggest that the combination of developing microscopic powder/bulky absorbers and macroscopic configuration design will fundamentally extend the effective operating bandwidth of microwave.

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The effect of surface condition on acoustic emission during welding of aluminium with CO₂laser radiation

Duley

Mao

1994

J. Phys. D: Appl. Phys.

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The fast Fourier transform spectrum of acoustic emission during CO2 laser welding of Al 1100 shows frequency components in the 3-9 kHz range that can be identified with the presence of a keyhole and correlate with penetration. In addition, a study of the effect of anodization and surface pretreatment of Al 1100 with excimer laser radiation has shown that acoustic emission at 9-10 kHz arises from burning off of surface oxide. A comparison of these results with those predicted from simple thermal and fluid dynamical models yields good agreement with theory. These results indicates that acoustic emission over specific frequency ranges may be highly diagnostic of laser processing conditions.

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Real-Time Fast Fourier Transform Analysis of Acoustic Emission during CO2 Laser Welding of Materials

Mao

Kinsman

Duley

1993

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Real-time fast Fourier transform (FFT) analysis of acoustic emission has been developed for monitoring laser welding processes. Significant differences in acoustic emission have been observed in conduction and keyhole processing regimes. The amplitude fluctuation of acoustic emission becomes intensified in the transition from conduction welding to keyhole welding. The integrated FFT power spectrum emission has been correlated to laser power, welding speed, and focusing parameters. These results suggest a simple way of monitoring the welding process. A simplified physical model has been developed to explain the fluctuation frequency. The predictions of this model are found to be in good agreement with experimental data.

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Enhancing the addition of fly ash from thermal power plants in activated high belite sulfoaluminate cement

Shen

et al. 2014

Construction and Building Materials

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Design and Compressive Fatigue Properties of Irregular Porous Scaffolds for Orthopedics Fabricated Using Selective Laser Melting

Zhu

Liang

et al. 2021

ACS Biomater. Sci. Eng.

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An irregular porous structure plays a major role in bone tissue engineering, and it is more suitable for bone tissue growth than a regular porous structure. The response surface method was used to establish a relationship between the average pore size and the design parameters. The technology of selective laser melting was utilized to fabricate the porous Ti-6Al-4V scaffolds with an irregularity of (0.4) and porosities of (70, 80, and 90%) designed using the Voronoi-tessellation method. Compression tests of porous scaffolds showed an elastic modulus range of 0.84–1.97 GPa and an ultimate strength ranging within 21.0–99.1 MPa. The elastic modulus was mainly influenced by the porosity and heat-treatment process. Furthermore, the fatigue test results suggested that the number of cycles (9 × 104 to 1.8 × 106) was greatly influenced by the porosity and heat-treatment process. The heat treatment of annealing greatly improved the fatigue performance of porous scaffolds. The irregular porous scaffolds with lower porosity and after full annealing exhibited the best fatigue behavior.

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Yuyi Mao

From intrinsic dielectric loss to geometry patterns: Dual-principles strategy for ultrabroad band microwave absorption

The effect of surface condition on acoustic emission during welding of aluminium with CO₂laser radiation

Real-Time Fast Fourier Transform Analysis of Acoustic Emission during CO2 Laser Welding of Materials

Enhancing the addition of fly ash from thermal power plants in activated high belite sulfoaluminate cement

Design and Compressive Fatigue Properties of Irregular Porous Scaffolds for Orthopedics Fabricated Using Selective Laser Melting

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About

Yuyi Mao

From intrinsic dielectric loss to geometry patterns: Dual-principles strategy for ultrabroad band microwave absorption

The effect of surface condition on acoustic emission during welding of aluminium with CO2laser radiation

Real-Time Fast Fourier Transform Analysis of Acoustic Emission during CO2 Laser Welding of Materials

Enhancing the addition of fly ash from thermal power plants in activated high belite sulfoaluminate cement

Design and Compressive Fatigue Properties of Irregular Porous Scaffolds for Orthopedics Fabricated Using Selective Laser Melting

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The effect of surface condition on acoustic emission during welding of aluminium with CO₂laser radiation