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In-situ monitoring of additive friction stir deposition of AA6061: Effect of rotation speed on the microstructure and mechanical properties Journal article
Qiao, Q., Wang, L., Tam, C. W., Gong, X., Dong, X., Lin, Y., Lam, W. I., Qian, H., Guo, D., Zhang, D., Kwok, C. T., Tam, L. M.. In-situ monitoring of additive friction stir deposition of AA6061: Effect of rotation speed on the microstructure and mechanical properties[J]. Materials Science and Engineering: A, 2024, 902, 146620.
Authors:  Qiao, Q.;  Wang, L.;  Tam, C. W.;  Gong, X.;  Dong, X.; et al.
Favorite | TC[WOS]:2 TC[Scopus]:2  IF:6.1/6.2 | Submit date:2024/06/05
Additive Friction Stir Deposition (Afsd)  In-situ Monitoring  Mechanical Properties  Microstructure  Rotation Speed  
In-situ monitoring of additive friction stir deposition of AA6061: Effect of layer thickness on the microstructure and mechanical properties Journal article
Qiao, Q., Zhou, M., Gong, X., Jiang, S., Lin, Y., Wang, H., Lam, W. I., Qian, H., Guo, D., Zhang, D., Kwok, C. T., Li, X., Tam, L. M.. In-situ monitoring of additive friction stir deposition of AA6061: Effect of layer thickness on the microstructure and mechanical properties[J]. Additive Manufacturing, 2024, 84, 104141.
Authors:  Qiao, Q.;  Zhou, M.;  Gong, X.;  Jiang, S.;  Lin, Y.; et al.
Favorite | TC[WOS]:5 TC[Scopus]:7  IF:10.3/12.4 | Submit date:2024/05/16
Additive Friction Stir Deposition (Afsd)  In-situ Monitoring  Mechanical Properties  Microstructure  Texture  
Characterization of laser surface-alloyed Ti-Ni-Ag coatings and evaluation of their corrosion and antibacterial performance Journal article
Qiao, Q., Cristino, V. A.M., Tam, L. M., Chang, W. W., Qian, H. C., Zhang, D. W., Kwok, C. T.. Characterization of laser surface-alloyed Ti-Ni-Ag coatings and evaluation of their corrosion and antibacterial performance[J]. Surface and Coatings Technology, 2023, 474, 130119.
Authors:  Qiao, Q.;  Cristino, V. A.M.;  Tam, L. M.;  Chang, W. W.;  Qian, H. C.; et al.
Adobe PDF | Favorite | TC[WOS]:4 TC[Scopus]:4  IF:5.3/4.9 | Submit date:2024/01/02
Antibacterial Efficacy  Corrosion  Hardness  Laser Surface Alloying  Ti-ni-ag Coatings  Tini Substrate  
A study on formation mechanism of friction-surfaced stainless steel coating via a stop-action method Journal article
Guo, D., Lam, W. I., Kwok, C. T., Chan, S. L.I., Li, W., G. Yang, L. M. Tam. A study on formation mechanism of friction-surfaced stainless steel coating via a stop-action method[J]. Surface and Coatings Technology, 2022, 441, 128511.
Authors:  Guo, D.;  Lam, W. I.;  Kwok, C. T.;  Chan, S. L.I.;  Li, W.; et al.
Favorite | TC[WOS]:2 TC[Scopus]:2  IF:5.3/4.9 | Submit date:2022/06/14
Formation Mechanism  Friction Surfacing  Microstructure  Stainless Steel Coating  Texture  
Surface hardness and corrosion behavior of laser surface-alloyed Ti6Al4V with copper Journal article
Qiao, Q., Tam, L. M., Cristino, V. A.M., Kwok, C. T.. Surface hardness and corrosion behavior of laser surface-alloyed Ti6Al4V with copper[J]. Surface and Coatings Technology, 2022, 444(128663).
Authors:  Qiao, Q.;  Tam, L. M.;  Cristino, V. A.M.;  Kwok, C. T.
Adobe PDF | Favorite | TC[WOS]:13 TC[Scopus]:14  IF:5.3/4.9 | Submit date:2022/08/02
Laser Surface Alloying  Ti6al4v  Copper  Hardness  Corrosion  
Friction surfacing of precipitation hardening stainless steel coatings for cavitation erosion resistance Journal article
D. Guo, J. Chen, V. A.M. Cristino, C. T. Kwok, L. M. Tam, W. Li, G. Yang, H. Qian, D. Zhang, X. Li. Friction surfacing of precipitation hardening stainless steel coatings for cavitation erosion resistance[J]. Surface and Coatings Technology, 2022, 434, 128206.
Authors:  D. Guo;  J. Chen;  V. A.M. Cristino;  C. T. Kwok;  L. M. Tam; et al.
Adobe PDF | Favorite | TC[WOS]:14 TC[Scopus]:16  IF:5.3/4.9 | Submit date:2022/03/28
17-4ph Stainless Steel  Cavitation Erosion  Friction Surfacing  Nano-indentation  Post-aging  
Investigation of microbiologically influenced corrosion inhibition of 304 stainless steel by D-cysteine in the presence of Pseudomonas aeruginosa Journal article
Qian, H. C., Chang, W. W., Liu, W. L., Cui, T. Y., Li, Z., Guo, D. W., Kwok, C. T., Tam, L. M., Zhang, D. W.. Investigation of microbiologically influenced corrosion inhibition of 304 stainless steel by D-cysteine in the presence of Pseudomonas aeruginosa[J]. Bioelectrochemistry, 2022, 143, 107953.
Authors:  Qian, H. C.;  Chang, W. W.;  Liu, W. L.;  Cui, T. Y.;  Li, Z.; et al.
Favorite | TC[WOS]:21 TC[Scopus]:23  IF:4.8/4.5 | Submit date:2022/03/04
A. microbiologicA.ly Influenced Corrosion  B. Stainless Steel  C. d-C.steine  D. Scanning Electrochemical Microscopy  
Laser surface alloying of copper with Cr/Ti/CNT for enhancing surface properties Journal article
Yang, Y. W., Cristino, V. A.M., Tam, L. M., Lo, K. H., Kwok, C. T.. Laser surface alloying of copper with Cr/Ti/CNT for enhancing surface properties[J]. Journal of Materials Research and Technology, 2022, 17, 560-573.
Authors:  Yang, Y. W.;  Cristino, V. A.M.;  Tam, L. M.;  Lo, K. H.;  Kwok, C. T.
Adobe PDF | Favorite | TC[WOS]:14 TC[Scopus]:17  IF:6.2/6.3 | Submit date:2022/03/28
Laser Surface Alloying  Composite  Hardness  Wear  Corrosion  
Pitting corrosion behavior of friction-surfaced 17-4PH stainless steel coatings with and without subsequent heat treatment Journal article
Guo, D., Chen, J., Chen, X., Shi, Q., Cristino, V. A.M., Kwok, C. T., Tam, L. M., Qian, H., Zhang, D., Li, X.. Pitting corrosion behavior of friction-surfaced 17-4PH stainless steel coatings with and without subsequent heat treatment[J]. CORROSION SCIENCE, 2021, 193, 109887.
Authors:  Guo, D.;  Chen, J.;  Chen, X.;  Shi, Q.;  Cristino, V. A.M.; et al.
Adobe PDF | Favorite | TC[WOS]:19 TC[Scopus]:19  IF:7.4/7.9 | Submit date:2021/12/08
17-4ph Stainless Steel  Friction Surfacing  Metastable Pits  Pitting Corrosion  Post-aging  
Multi-mode scanning electrochemical microscopic study of microbiologically influenced corrosion mechanism of 304 stainless steel by thermoacidophilic archaea Journal article
Qian, H. C., Chang, W. W., Cui, T. Y., Li, Z., Guo, D. W., Kwok, C. T., Tam, L. M., Zhang, D. W.. Multi-mode scanning electrochemical microscopic study of microbiologically influenced corrosion mechanism of 304 stainless steel by thermoacidophilic archaea[J]. CORROSION SCIENCE, 2021, 191, 109751.
Authors:  Qian, H. C.;  Chang, W. W.;  Cui, T. Y.;  Li, Z.;  Guo, D. W.; et al.
Favorite | TC[WOS]:23 TC[Scopus]:25  IF:7.4/7.9 | Submit date:2021/12/08
A. microbiologicA.ly Influenced Corrosion  B. Stainless Steels  C. sC.nning eleC.roC.emiC.l miC.osC.py