Lap-Chung Chan scite author profile

Lap-Chung Chan

4Publications

15Citation Statements Received

39Citation Statements Given

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City University of Hong Kong

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Nanostructured laminar tungsten alloy with improved ductility by surface mechanical attrition treatment

Guo

Xia

Chan

et al. 2017

Sci Rep

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A nanostructured laminar W-La2O3 alloy (WL10) with improved ductility was prepared using a surface mechanical attrition treatment (SMAT). φ1.5 mm ZrO2 WL10 balls subjected to SMAT (called φ1.5 mm ZrO2 ball SMATed WL10) samples possess the best surface profile and excellent integrated mechanical properties (the ductile-brittle transition temperature (DBTT) value decreases by approximately 200 °C, and the bending strength decreases by 100 Mpa). A highly dense group of laminates was detected near the surface of the φ1.5 mm ZrO2 ball SMATed WL10 sample. The SMATed WL10 laminates were composed of a micro-grain layer, an ultrafine-grain layer and a nanosized-grain layer. The nanostructured laminar surface layer of the φ1.5 mm ZrO2 ball SMATed WL10 sample is approximately 1–2 μm. The top surface of the WL10 plates with and without the SMAT process possesses residual compressive stress of approximately −883 MPa and −241 MPa, respectively, in the y direction and −859 MPa and −854 MPa, respectively, in the x direction. The SMAT process could be a complementary method to further improve the toughness of tungsten-based materials.

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Bulk monolithic electrodes enabled by surface mechanical attrition treatment-facilitated dealloying

et al. 2016

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Nanocrystalline-grained tungsten prepared by surface mechanical attrition treatment: Microstructure and mechanical properties

Guo

Xia

et al. 2016

Journal of Nuclear Materials

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Author Correction: Nanostructured laminar tungsten alloy with improved ductility by surface mechanical attrition treatment

Guo

Xia

Chan

et al. 2018

Sci Rep

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Lap-Chung Chan

Nanostructured laminar tungsten alloy with improved ductility by surface mechanical attrition treatment

Bulk monolithic electrodes enabled by surface mechanical attrition treatment-facilitated dealloying

Nanocrystalline-grained tungsten prepared by surface mechanical attrition treatment: Microstructure and mechanical properties

Author Correction: Nanostructured laminar tungsten alloy with improved ductility by surface mechanical attrition treatment

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