Q.M. Wang scite author profile

For the firsttime supersonic molecular beam injection (SMBI) and cluster jet injection (CJI) were applied to mitigate edge-localized modes (ELMs) in HL-2A successfully. The ELM frequency increased by a factor of 2-3 and the heat flux on the divertor target plates decreased by 50% on average after SMBI or CJI. Energetic particle induced modes were observed in different frequency ranges with high-power electron cyclotron resonance heating (ECRH). The high frequency (200-350kHz) of the modes with a relatively small amplitude was close to the gap frequency of the toroidicity-induced Alfven eigenmode. The coexistent multi-mode magnetic structures in the high temperature and low-collision plasma could affect the plasma transport dramatically. Long-lived saturated ideal magnetohydrodynamic instabilities during strong neutral beam injection heating could be suppressed by high-power ECRH. The absolute rate of nonlinear energy transfer between turbulence and zonal flows was measured and the secondary mode competition between low-frequency (LF) zonal flows (ZFs) and geodesic acoustic modes (GAMs) was identified, which demonstrated that ZFs played an important role in the L-H transition. The spontaneously generated E × Bshear flow was identified to be responsible for the generation of a large-scale coherent structure (LSCS), which provided unambiguous experimental evidence for the LSCS generation mechanism. New meso-scale electric potential fluctuations (MSEFs) at frequency f ∼ 10.5 kHz with two components of n = 0 and m/n = 6/2were also identified in the edge plasmas for the first time. The MSEFs coexisted and interacted with magnetic islandsof m/n = 6/2, turbulence and LF ZFs.

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Study on thermal barrier coatings deposited by detonation gun spraying

Wang

et al. 2005

Surface and Coatings Technology

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Improvement of oxidation-resistance of NiCrAlY coatings by application of CrN or CrON interlayer

Yao

Wang

et al. 2008

J. Mater. Res.

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NiCrAlY coatings with and without CrN or CrON interlayer as diffusion barrier were deposited on superalloy DSM11 by arc ion plating (AIP). The oxidation performance of the coating systems was evaluated by isothermal oxidation tests at 1100°C for 100 h. The element interdiffusion and oxidation behavior of the coating systems were described. It was found that the NiCrAlY coatings provided protective effect for the DSM11 substrate. However, serious interdiffusion between the coatings and substrate resulted in rapid degradation of the coatings. The addition of CrN or CrON interlayer between the coatings and substrate markedly decreased the interdiffusion. CrON interlayer performed better than CrN interlayer, which was attributed to the excellent diffusion barrier ability of Al 2 O 3 layer formed in the interlayer at high temperature. Also, the NiCrAlY/CrON coating system exhibited more effective protection for DSM11 than the NiCrAlY/CrN coating system.

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Interdiffusion reaction in the CrN interlayer in the NiCrAlY/CrN/DSM11 system during thermal treatment

Wang

Gong

et al. 2009

Applied Surface Science

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Preparation and oxidation behavior of NiCrAlYSi coating on a cobalt-base superalloy K40S

et al. 2008

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Q.M. Wang

Preparation and hot corrosion behaviour of an Al-gradient NiCoCrAlYSiB coating on a Ni-base superalloy

Ion-plated Al–O–N and Cr–O–N films on Ni-base superalloys as diffusion barriers

The preparation and hot corrosion resistance of gradient NiCoCrAlYSiB coatings

An overview of recent HL-2A experiments

Study on thermal barrier coatings deposited by detonation gun spraying

Improvement of oxidation-resistance of NiCrAlY coatings by application of CrN or CrON interlayer

Interdiffusion reaction in the CrN interlayer in the NiCrAlY/CrN/DSM11 system during thermal treatment

Preparation and oxidation behavior of NiCrAlYSi coating on a cobalt-base superalloy K40S

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