X. Chen scite author profile

Scanning laser-MAG hybrid welding with weaving laser was developed for the bead-on-plate welding of high-strength steel. Weaving laser exerted little effect on the droplet transfer behaviour during the scanning laser-MAG hybrid welding process. In order to achieve the keyhole mode of laser welding, the weaving amplitude should be no more than 2 mm. The weld penetration decreased with the increasing weaving frequency. Compared to laser-MAG hybrid weld, the ratio of arc zone width to laser zone width decreased significantly. Scanning laser-MAG hybrid welding could suppress the porosity defects of weld efficiently. The optimal weaving frequency for the porosity defects suppression was 20 Hz. However, the porosity defects increased sharply with the weaving frequency of laser over 40 Hz. The impact-absorbed energy value of specimen fabricated by scanning laser-MAG hybrid welding was about 46 J, increased by about 31.4% compared to about 35 J of laser-MAG hybrid welding.

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Joining of SiC ceramics using CaO-Al2O3-SiO2 (CAS) glass ceramics

Sun

Chen

Mao

et al. 2020

Journal of the European Ceramic Society

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Study on 3-dimensional graphene sponge reinforced C/C composites-TiAl alloy brazed joints

Zhan

Chen

Zhang

et al. 2022

Materials Science and Engineering: A

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Analysis of a latent heat thermal energy storage unit with metal foam insert in both the HTF and PCM sides

Chen

Xia

Wang

et al. 2019

IOP Conf. Ser.: Earth Environ. Sci.

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Latent heat thermal energy storage (LHTES) systems using phase change material (PCM) have received significant research attention in numerous engineering fields. The transient heat transfer phenomenon inside a vertical LHTES unit is numerically investigated, with the paraffin as the PCM and water as the heat transfer fluid (HTF). As a performance enhancement technique, the metal foam insert is applied in both the HTF and PCM sides. The conjugate thermal model for the HTF/foam-wall-PCM/foam system is built, considering the non-equilibrium effect between the solid and fluid phases with two-temperature energy equation and the natural convection inside the PCM with Boussinesq approximation. The enthalpy-based method is employed to account for the solid-liquid phase change problem. The overall performance is compared with other three cases: no foam insert, foam insert in HTF side and foam insert in PCM side. Besides, parametric study is also conducted on the melting features, including the foam structural parameters and inlet conditions of HTF. The results show that foam insert in both sides accelerates the PCM melting effectively. The foam porosity and HTF inlet temperature play important roles in the overall heat transfer, whereas the pore density and HTF inlet velocity have limited effects on the melting rate. The findings can provide referential information for the design of a LHTES system.

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X. Chen

Optical properties of poly(methyl methacrylate)–titania nanostructure thin films containing ellipsoid-shaped titania nanoparticles from ex-situ sol-gel method at low growth temperature

Effects of weaving laser on scanning laser-MAG hybrid welding characteristics of high-strength steel

Joining of SiC ceramics using CaO-Al2O3-SiO2 (CAS) glass ceramics

Study on 3-dimensional graphene sponge reinforced C/C composites-TiAl alloy brazed joints

Analysis of a latent heat thermal energy storage unit with metal foam insert in both the HTF and PCM sides

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