SHAOQUAN WANG | Road Engineering | Best Researcher Award

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Dr.SHAOQUAN WANG | Road Engineering | Best Researcher Award

Dr. SHAOQUAN WANG Southeast University China.

Dr. Shaoquan Wang, a PhD graduate in Engineering from Southeast University, has dedicated over 12 years to advanced studies in road engineering, combining expertise in materials science and chemical engineering. His research focuses on innovative solutions for road surface repair, particularly the development of a two-way shape memory pavement crack repair material. This technology addresses critical challenges in the field, such as the coordination of repair materials with pavement cracks and enhancing durability under varying environmental conditions.

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Academic and Professional Background 📚

Dr. Shaoquan Wang holds a PhD in Engineering from Southeast University. Over 12 years of study, he has pursued an in-depth and systematic approach to road engineering. His cross-disciplinary focus has expanded into materials and the chemical industry, keeping him well-versed in cutting-edge developments and trends, with potential for new research directions.

Research and Innovations 🔍

Completed/Ongoing Research Projects:National Natural Science Foundation of China (51878168) (Completed).Scientific Research Foundation of Graduate School of Southeast University (YBPY2159) (Completed).

Contributions 🌟

Dr. Wang is pioneering a two-way shape memory pavement crack repair material that intelligently senses temperature changes. This innovation addresses deformation coordination between repair materials and pavement cracks, enhancing durability during asphalt pavement expansion and contraction. His work offers a novel solution to longstanding issues in pavement crack repair.

📚 Publications

  • Title: A new pavement crack repair sealant with two-way shape memory effect
    Author: Shaoquan Wang et al.
    Year: 2024

 

  • Title: Effects of Periodically Changing Temperatures on the Bond Interface between Crack Sealant and Repaired Pavement
    Author: Shaoquan Wang et al.
    Year: 2024

 

  • Title: Development of a modified bond test for hot applied crack sealants by using hot-cold cycles
    Author: Shaoquan Wang et al.
    Year: 2023

 

  • Title: Dynamic behavior of crack sealant bonding interface in the asphalt pavement crack repair structure under moving vehicle load
    Author: Shaoquan Wang et al.
    Year: 2023

 

  • Title: Stiffening effect of filler on asphalt mastic composite: A new insight based on nearest surface function
    Author: Yanshun Jia et al. (including Shaoquan Wang)
    Year: 2022

 

  • Title: Utilization of iron ore tailing as an alternative mineral filler in asphalt mastic: High-temperature performance and environmental aspects
    Author: Ziyao Wei et al. (including Shaoquan Wang)
    Year: 2022

 

  • Title: Laboratory performance of asphalt mixture with waste tyre rubber and APAO modified asphalt binder
    Author: Kezhen Yan et al. (including Shaoquan Wang)
    Year: 2022

 

  • Title: Evaluation of the Rutting Performance of the Field Specimen Using the Hamburg Wheel‐Tracking Test and Dynamic Modulus Test
    Author: Xiongwei Dai et al. (including Shaoquan Wang)
    Year: 2020

Conclusion

Dr. Shaoquan Wang’s pioneering research in intelligent pavement materials represents a substantial advancement in road engineering. His interdisciplinary approach not only tackles long-standing issues in pavement crack repair but also opens new avenues for further exploration in material science. Given his impactful contributions, extensive experience, and innovative research, Dr. Wang is highly deserving of the Best Researcher Award. His work promises to enhance infrastructure sustainability and performance, making him a valuable asset to both academia and industry.

 

Chen Wang | neural network application | Best Researcher Award

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Prof Dr.Chen Wang | neural network application | Best Researcher Award

Prof Dr Chen Wang School of Mining, Guizhou University China

Wang Chen is a distinguished professor at Guizhou University, specializing in mining engineering and resources and environment. He holds a PhD from the China University of Mining and Technology and has significant expertise in mining methods, rock mechanics, mining system engineering, and the kinematic behavior of rock layers in karst regions.

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📚 Recruitment Discipline Direction

Mining Engineering, Resources and Environment

🔬 Main Research Fields and Directions

Mining Methods,Rock Mechanics,Mining System Engineering,Roadway Support,Kinematic Mechanisms of Rock Layers in Karst Mountainous Areas.

💼 Key Research Projects (2018 – Present)

National Natural Science Foundation General Project (52174072)“Study on the Mechanisms of Rock Layer Movement under Repeated Mining in Karst Mountainous Areas,” 2022.01-2025.12, 580,000 RMB, Principal Investigator, ongoing. 💰National Natural Science Foundation Youth Science Fund Project (51904081)“Study on the Mechanisms of Instability Induced by Mining in Shallowly Buried Coal Layers in Karst Terrain,” 2020.01-2022.12, 240,000 RMB, Principal Investigator, ongoing. 🔍

✍️ Journal Articles:

Wang Chen et al. “An Expert System for Equipment Selection of Thin Coal Seam Mining.” (2019) .Wang Chen et al. “Optimal Selection of a Longwall Mining Method for a Thin Coal Seam Working Face.” (2016) .Wang Chen, Zhou Jie. “New Advances in Automatic Shearer Cutting Technology.” (2021) ⚙️

🥇 Achievements

Patents: 5 granted invention patents related to coal mining technology. Awards: Multiple research awards for contributions to mining technology. 🏆

📚 Publications

  1. Title: Study on strength prediction and strength change of Phosphogypsum-based composite cementitious backfill based on BP neural network
    Authors: Wu, M., Wang, C., Zuo, Y., Zhang, J., Luo, Y.
    Year: 2024
    Journal: Materials Today Communications
    Volume: 41
    Article Number: 110331

 

  1. Title: Correction: Determination of working resistance of support parameter variation of large mining height support: the case of Caojiatan coal mine
    Authors: Xue, B., Zhang, W., Wang, C.
    Year: 2024
    Journal: Geomechanics and Geophysics for Geo-Energy and Geo-Resources
    Volume: 10
    Issue: 1
    Pages: 14

 

  1. Title: Determination of working resistance of support parameter variation of large mining height support: the case of Caojiatan coal mine
    Authors: Xue, B., Zhang, W., Wang, C.
    Year: 2024
    Journal: Geomechanics and Geophysics for Geo-Energy and Geo-Resources
    Volume: 10
    Issue: 1
    Pages: 1

 

  1. Title: Evolution of Broken Coal’s Permeability Characteristics under Cyclic Loading–Unloading Conditions
    Authors: Luo, L., Zhang, L., Pan, J., Wang, C., Li, S.
    Year: 2024
    Journal: Natural Resources Research
    Volume: 33
    Issue: 5
    Pages: 2279–2297

 

  1. Title: Preparation and characterization of green lignin modified mineral cementitious firefighting materials based on uncalcined coal gangue and coal fly ash
    Authors: Dou, G., Wang, C., Zhong, X., Qin, B.
    Year: 2024
    Journal: Construction and Building Materials
    Volume: 435
    Article Number: 136799

 

  1. Title: Mining Technology Evaluation for Steep Coal Seams Based on a GA-BP Neural Network
    Authors: Li, X., Wang, C., Li, C., Luo, Y., Jiang, S.
    Year: 2024
    Journal: ACS Omega
    Volume: 9
    Issue: 23
    Pages: 25309–25321

 

  1. Title: Capturing rate- and temperature-dependent behavior of concrete using a thermodynamically consistent viscoplastic-damage model
    Authors: Tao, J., Yang, X.-G., Lei, Y., Wang, C.
    Year: 2024
    Journal: Construction and Building Materials
    Volume: 422
    Article Number: 135791

Conclusion

Wang Chen’s extensive research and numerous publications significantly contribute to the field of mining engineering. His focus on the complexities of karst geology and the development of intelligent mining technologies positions him as a leader in advancing mining safety and efficiency. His ongoing projects reflect a commitment to addressing contemporary challenges in the mining sector, particularly in relation to environmental sustainability and resource management.