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Portfolio item number 1

Short description of portfolio item number 1

Portfolio item number 2

Short description of portfolio item number 2

Paper Title Number 1

Published in Journal 1, 2009

This paper is about the number 1. The number 2 is left for future work.

Recommended citation: Your Name, You. (2009). "Paper Title Number 1." Journal 1. 1(1). http://academicpages.github.io/files/paper1.pdf

Paper Title Number 2

Published in Journal 1, 2010

This paper is about the number 2. The number 3 is left for future work.

Recommended citation: Your Name, You. (2010). "Paper Title Number 2." Journal 1. 1(2). http://academicpages.github.io/files/paper2.pdf

Paper Title Number 3

Published in Journal 1, 2015

This paper is about the number 3. The number 4 is left for future work.

Recommended citation: Your Name, You. (2015). "Paper Title Number 3." Journal 1. 1(3). http://academicpages.github.io/files/paper3.pdf

Alkali-Activated Slag amended with Biochar

Research Background

Coral sand is widely encountered in coastal areas of tropical and subtropical regions. Compared with silica sand, it usually exhibits weaker performance from the perspective of engineering geology. To improve the geomechanical performance of coral sand and meet the requirement of foundation construction in coastal areas, a novel alkali activation-based sustainable binder was developed. The alkali-activated slag (AAS) binder material was composed of ground granulated blast-furnace slag (GGBS) and hydrated lime with the amendment of biochar, an agricultural waste-derived material. The biochar-amended AAS stabilized coral sand was subjected to a series of laboratory tests to determine its mechanical, physicochemical, and microstructural characteristics.

Application of Deep Learning Algorithms in Soil Crack Characterization

Research Background

Large Marine Microplastics(MPs) Characterization with Deep Learning

Research Background

Structure from Motion in Geotechnical and Costal Engineering

Research Background

Coral sand is widely encountered in coastal areas of tropical and subtropical regions. Compared with silica sand, it usually exhibits weaker performance from the perspective of engineering geology. To improve the geomechanical performance of coral sand and meet the requirement of foundation construction in coastal areas, a novel alkali activation-based sustainable binder was developed. The alkali-activated slag (AAS) binder material was composed of ground granulated blast-furnace slag (GGBS) and hydrated lime with the amendment of biochar, an agricultural waste-derived material. The biochar-amended AAS stabilized coral sand was subjected to a series of laboratory tests to determine its mechanical, physicochemical, and microstructural characteristics.

Presentation at B2G Atlanta 2018

Published: September 13, 2018

Presentation Topic: Enriching indigenous ureolytic bacteria in beach sand for MICP

Poster at Engineering Mechanics Institute Conference 2019 (EMI 2019)

Published: June 18, 2019

Poster Theme: Stabilization of calcareous sand in coastal area by applying the admixture of alkali-activated slag and biochar

Poster at Geo-Congress 2020

Published: February 25, 2020

Poster Theme: Stabilization of calcareous sand by applying the admixture of alkali-activated slag (AAS) and biochar

Presentation at Mechanistic Machine Learning and Digital Twins for Computational Science, Engineering & Technology (MMLDT-CSET 2021)

Published: September 26, 2021

Presentation Topic: Soil crack detection and characterization through a deep-learning based algorithm

Presentation at Third International Symposium on Coupled Phenomena in Environmental Geotechnics (CPEG2020)

Published: October 20, 2021

Presentation Topic: A laboratory investigation of coastal sand stabilization using biochar-enhanced alkali-activated slag

Presentation at 4th International Conference on Information Technology in Geo-Engineering (4ICITG)

Published: August 04, 2022

Presentation Topic: Structure-from-motion (SFM) method for 3D characterization of desiccation crack in clay

Invited speech at ORE601 class in Fall 2022

Published: December 02, 2022

Presentation Topic: Applications of Structure-from-motion (SFM) method in Engineering fields

Teaching Assistant

Teaching Assistant, University of Hawaii at Manoa, Civil and Environmental Engineering Department, 2017

CEE 355-Geotechnical (I), Fall 2017, Lecturer: Dr Ningjun Jiang
CEE 355-Geotechnical (I), Fall 2018, Lecturer: Dr Ningjun Jiang
CEE 355-Geotechnical (I), Spring 2019, Lecturer: Dr Horst G. Brandes
CEE 355-Geotechnical (I), Fall 2019, Lecturer: Dr Phillip S.K. Ooi

Undergraduate Course

Lecturer, University of Hawaii at Manoa, Civil and Environmental Engineering Department, 2020

CEE 270-Applied Mechanics (I) for Spring 2020