Haoyu Huang | Structural engineering | Young Scientist Award

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Ā Dr . Haoyu Huang | Structural engineering | Young Scientist Award

šŸ‘Øā€šŸ«Profile Summary

A distinguished civil engineer with a Ph.D. from the University of Bath, UK, specializing in structural vibration control and modern timber structures. Extensive experience as a lecturer at Newcastle University, UK, and Beijing University of Technology, China, with a focus on bio-based material constructions and smart materials. Recognized for leading initiatives in timber floor vibration standards and developing multiple tuned mass damper systems. Principal Investigator for projects funded by prestigious organizations. Active involvement in consultancy, research, and academic engagement, including editorial roles and conference organization. Committed to advancing the field through teaching, research, and administrative leadership.

šŸŒ Professional Profiles

 

  1. Scopus Profile

Qualifications šŸŽ“

I was awarded a Bachelor of Engineering degree in civil engineering, and then focused on structural vibration control and modern timber structures during my Ph.D. degree. My Ph.D. thesis explored a temperature controlled semi-active tuned mass damper using
shape memory alloy for vibration reduction applications. Certificates summary: 06/2023, Fellowship of the Institute of Higher Education Academy, UK 09/2018, Teaching Certification by Ministry of Education, Peopleā€™s Republic of China 07/2017, PhD in Civil Engineering, University of Bath, UK
07/2013, BEng in Civil Engineering, Beijing University of Technology, China

Employment History šŸ’¼

  • Lecturer in Structural Engineering, Newcastle University, UK, 2022-present
  • Lecturer, Faulty of Architecture, Civil and Transportation Engineering, Beijing University of Technology, China, 2017-2022

Research Interests šŸ”¬

  • Leading research on bio-based material constructions for earthquake response, wind/human-induced vibration, innovative use of smart materials, and structural vibration control.

Impact šŸ’„

  • Leading initiatives in timber floor vibration standards and development of multiple tuned mass damper systems for timber floors.
  • Investigating wind-induced vibration of tall timber structures across Europe, contributing to industry design standards.

Research Projects šŸš€

  • Principal Investigator for multiple projects funded by National Natural Science Foundation of China and other organizations.
  • Collaborator on various research projects focusing on seismic control, wind-induced vibration, and urban viaduct mechanisms.

Consultancy Projects šŸ—ļø

  • Conducted consultancy on wind-induced vibration of timber structures for Martisons, Sweden.

Research and Personal Awards šŸ†

  • Received Assessment with Excellence awards from Beijing University of Technology.

Invited Seminars/Lectures šŸ—£ļø

  • Delivered seminars on timber floor vibrations, seismic control, and shape memory alloy applications at various institutions.

External Academic Engagement šŸŒ

  • Editorial board member and guest editor for journals, reviewer for multiple academic journals, and active member of Wood Technical Forum.

Conference Organization šŸŽŖ

  • Co-organized international conferences and served as conference coordinator.

Teaching and Supervision šŸ“š

  • Taught undergraduate and postgraduate courses in structural engineering and supervised numerous student projects.

Administrative Role šŸ¢

  • School Exchange Coordinator at Newcastle University, providing mentorship and organizing internationalization seminars for students.

šŸ“šTop Noted Publication

    • Title: Enhancing resilience in timber connections with SMA dowel and DVW reinforcement
      • Authors: Huang H.*, Chang WS.
      • Year: 2023
      • Journal: Proceedings of the Institution of Civil Engineers ā€“ Engineering History and Heritage

 

    • Title: Cross-laminated timber (CLT) floor serviceability under multi-person loading: impact of beamā€“panel connections
      • Authors: Zhang J, Zhang C, Li Y, Chang W-S, Huang H.*
      • Year: 2023
      • Journal: Engineering Structures

 

    • Title: Seismic control of cross laminated timber (CLT) structure with shape memory alloy-based semi-active tuned mass damper (SMA-STMD)
      • Authors: Yan L, Li Y, Chang W-S, Huang H*.
      • Year: 2023
      • Journal: Structures

 

    • Title: Reinforcement of Timber Dowel-Type Connections Using Self-Tapping Screws and the Influence of Thread Configurations
      • Authors: Zhang C, Huang H, Li X, Xue S, Chang W, Sun G.
      • Year: 2023
      • Journal: Forests

 

    • Title: Research status of vibration performance of orthogonal glulam floor slabs under artificial excitation
      • Authors: Huang H*, Wang C, Du X.
      • Year: 2022
      • Journal: Journal of Nanjing Tech University

 

    • Title: The Effect of the Environment on the Serviceability of the Cross-Laminated Timber (CLT) Floor: Virtual Reality as a Research Tool
      • Authors: Huang H*, Zhang J, Uttley J, Chang WS, Wang BJ.
      • Year: 2022
      • Journal: Advances in Civil Engineering

 

    • Title: Parametric design of developable structure based on yoshimura origami pattern
      • Authors: Jiang H, Liu W*, Huang H, Wang Y.
      • Year: 2022
      • Journal: Sustainable Structures

 

    • Title: A study on the microstructural evolution and subgrain size dependent constitutive equation of a type of maraging steel in the solid solution treatment process
      • Authors: Zhu YZ, Zhao TY, Huang H, Peng H, Hu FW, Yin SY.
      • Year: 2021
      • Journal: Materials Research Express

 

    • Title: Performance of the hollow-core cross-laminated timber (HC-CLT) floor under human-induced vibration
      • Authors: Huang, H.*, Lin, X., Zhang, J., Wu, Z., Wang, C., Wang B. J.
      • Year: 2021
      • Journal: Structures

 

    • Title: A study on the microstructural evolution and subgrain size dependent constitutive equation of a type of maraging steel in the solid solution treatment process
      • Authors: Zhu, Y.*, Zhao, T., Huang, H., Peng, H., Hu, F., Yin, S.
      • Year: 2021
      • Journal: Materials Research Express

 

    • Title: Predicting the human-induced vibration of cross laminated timber floor under multi-person loadings
      • Authors: Wang, C., Chang, W.-S., Yan, W., Huang. H.*
      • Year: 2021
      • Journal: Structures

 

    • Title: Reducing human-induced vibration of cross laminated timber floor – Application of multi-TMD system
      • Authors: Huang, H., Wang, C., Chang, W. -S. *
      • Year: 2020
      • Journal: Structural Control and Health Monitoring

 

    • Title: Adaptive tuned mass damper with shape memory alloy for seismic application
      • Authors: Huang, H., Mosalam, K. M., Chang, W. -S. *
      • Year: 2020
      • Journal: Engineering Structures

 

    • Title: Abnormal grain growth mechanism of the twin-roller cast Al-Fe-Si alloy in the annealing process
      • Authors: Zhu, Y-Z.*, Peng, H., Huang, H. and Li, J.
      • Year: 2020
      • Journal: Advances in Materials Science and Engineering

 

    • Title: Re-tuning an off-tuned tuned mass damper by adjusting temperature of shape memory alloy: exposed to wind action
      • Authors: Huang, H., Chang, W. -S.*,
      • Year: 2020
      • Journal: Structures

 

Bingye Han| Pavement Engineering | Young Scientist Award

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Assist Prof Dr. Bingye Han |Pavement Engineering | Young Scientist Award

šŸ‘Øā€šŸ«Profile Summary

With a background spanning from bachelor’s to doctoral degrees in Road, Bridge, and River Crossing Engineering, along with extensive research experience in Road and Railway Engineering, this individual has made remarkable contributions to transportation infrastructure. Their work, supported by prestigious grants and projects, focuses on innovative pavement materials and engineering solutions. Through numerous publications, patents, and awards, they have demonstrated expertise in environmental impact assessment, dynamic performance modeling, and pavement material innovation. Additionally, their involvement in academic organizations and editorial boards underscores their commitment to advancing the field of transportation engineering on a global scale.

šŸŒ Professional Profiles

šŸŽ“Education:

Chang’an University (2008.09 – 2012.07) Bachelor’s degree in Road, Bridge, and River Crossing Engineering. Tongji University (2012.09 – 2018.12) PhD in Road and Railway Engineering. Supervisor: Ling Jianming. University of Tennessee, USA (2015.11 – 2017.12) Participated in a joint training program for doctoral students sponsored by national high-level universities. Study abroad program. University of Tennessee, USA (2016.08 – 2019.12) PhD in Civil Engineering. Supervisor: Huang Baoshan.

šŸ”¬Research Experience:

Host topics/projects:

National Natural Science Foundation of China – Research on strength formation mechanism of polyurethane mixtures. National Ministry of Science and Technology – Technical research on porous pavement noise reduction materials. National Natural Science Foundation of China – Development and performance evaluation of polyurethane concrete stress absorption layer. Beijing Municipal Education Commission – Multi-scale experimental research on the interaction mechanism of polyurethane and mineral materials. Jiangsu Ecological Road Technology Industrialization Engineering Research Center – Research on low-carbon durable polyurethane mixture compaction machine. Key Laboratory of Civil Aviation Flight Area Facilities Durability – Research on strength formation rules of polyurethane concrete for rapid repair of airport pavements. 7-12. Various projects from Beijing University of Civil Engineering and Architecture and Ministry of Transport.

Participate in topics/projects:

National Ministry of Science and Technology – Life evolution mechanism and behavior theory of pavement structure and function. 2-3. Various projects from the National Ministry of Science and Technology. 4-12. Various projects from National Natural Science Foundation of China, U.S. Federal Highway Administration, Highway Science Institute of the Ministry of Transport, Beijing Municipal Transportation Commission, and Shanxi Provincial Department of Transportation.

šŸŒŸEIč®ŗꖇ (5ēƇ):

Han, B., Ling, J., & Zhao, H. (2018). Environmental Impacts of Different Maintenance and Rehabilitation Strategies for Asphalt Pavement. Presented at the 2nd Transportation Research Congress, Beijing, China. Han, B., Du, Z., Ling, J., & Zhao, H. (2021). Modeling the Dynamic Performance of Transportation Infrastructure Using Panel Data Model in State-space Specifications. Journal of Traffic and Transportation Engineering (English Edition), 10(3), 441-453. Han, B., et al. (2021). New innovations in pavement materials and engineering: A review on pavement engineering research 2021. Journal of Traffic and Transportation Engineering (English Edition), 8(6), 815-999. Ji, J., Changwei, H., Tong, M., Xinqiang, X., Jian, Z., & Han, B. (2023). Evaluation of the effect of compatibilizer on improving the compatibility of direct coal liquefaction residue and petroleum asphalt. Journal of Chinese Highways, 36(6), 1-13. Ji, J., Ben, L., Han, B., Zhi, S., Jiani, W., & Haichen, Y. (2023). Review of soil solidification technology in Chinese road engineering. Journal of Transportation Engineering, 23(2), 47-66.

šŸ“šPublish monograph:

  • Ji, J., Zhe, W., Han, B., & Wei, J. (2021). Development and application of asphalt materials modified by direct coal liquefaction residue. People’s Communications Press.

šŸ“Patents:

  • Han, B. et al. Various patents related to positioning devices, chiseling concrete, and asphalt mixtures preparation methods.

šŸ‘©ā€šŸ”¬Social work:

  • Editorial board member of multiple journals.
  • Member of academic committees.
  • SCI journal reviewer and reviewers for other journals.
  • Member of various transportation-related organizations.
  • Former Director of Science and Technology Department, Chinese Students and Scholars Association, University of Tennessee.

Academic exchange/conference papers:

  • Participated in and presented keynote reports at international conferences.
  • Presented research papers at various conferences.

šŸ†Awards:

Received scholarships and awards for outstanding academic achievements. Overall, the individual has made significant contributions to research in transportation infrastructure, particularly in the field of pavement materials and engineering, and has received recognition for their work through publications, patents, and awards.

šŸ“šTop Noted Publication

  1. New innovations in pavement materials and engineering: A review on pavement engineering research 2021
    • Authors: JE Office, J Chen, H Dan, Y Ding, Y Gao, M Guo, S Guo, B Han, B Hong, …
    • Journal: Journal of Traffic and Transportation Engineering (English Edition)
    • Volume: 8
    • Issue: 6
    • Pages: 108
    • Year: 2021

 

  1. Rheological and aging characteristics of the recycled asphalt binders with different rejuvenator incorporation methods
    • Authors: Y Ma, W Hu, PA Polaczyk, B Han, R Xiao, M Zhang, B Huang
    • Journal: Journal of Cleaner Production
    • Volume: 262
    • Pages: 121249
    • Year: 2020

 

  1. Direct shear properties of railway ballast mixed with tire derived aggregates: Experimental and numerical investigations
    • Authors: H Gong, W Song, B Huang, X Shu, B Han, H Wu, J Zou
    • Journal: Construction and Building Materials
    • Volume: 200
    • Pages: 465-473
    • Year: 2019

 

  1. Laboratory investigation of particle size effects on the shear behavior of aggregate-geogrid interface
    • Authors: B Han, J Ling, X Shu, H Gong, B Huang
    • Journal: Construction and Building Materials
    • Volume: 158
    • Pages: 1015-1025
    • Year: 2018

 

  1. Experimental investigation of utilizing waste flue gas desulfurized gypsum as backfill materials
    • Authors: Y Ma, Q Nie, R Xiao, W Hu, B Han, PA Polaczyk, B Huang
    • Journal: Construction and Building Materials
    • Volume: 245
    • Pages: 118393
    • Year: 2020

 

  1. Analysis of airfield composite pavement responses using full-scale accelerated pavement testing and finite element method
    • Authors: J Ling, F Wei, H Zhao, Y Tian, B Han
    • Journal: Construction and Building Materials
    • Volume: 212
    • Pages: 596-606
    • Year: 2019

 

  1. Quantifying the effects of geogrid reinforcement in unbound granular base
    • Authors: B Han, J Ling, X Shu, W Song, RL Boudreau, W Hu, B Huang
    • Journal: Geotextiles and Geomembranes
    • Volume: 47
    • Issue: 3
    • Pages: 369-376
    • Year: 2019

 

  1. Evaluation of the hot mix asphalt compactability utilizing the impact compaction method
    • Authors: P Polaczyk, B Han, B Huang, X Jia, X Shu
    • Journal: Construction and Building Materials
    • Volume: 187
    • Pages: 131-137
    • Year: 2018

 

  1. Continuous compaction control technology for granite residual subgrade compaction
    • Authors: J Ling, S Lin, J Qian, J Zhang, B Han, M Liu
    • Journal: Journal of Materials in Civil Engineering
    • Volume: 30
    • Issue: 12
    • Pages: 04018316
    • Year: 2018

 

  1. Improved estimation of dynamic modulus for hot mix asphalt using deep learning
    • Authors: H Gong, Y Sun, Y Dong, B Han, P Polaczyk, W Hu, B Huang
    • Journal: Construction and Building Materials
    • Volume: 263
    • Pages: 119912
    • Year: 2020