Liheng Wu – space structure – Best Researcher Award

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Liheng Wu - space structure - Best Researcher Award

Southeast University - China

AUTHOR PROFILE

SCOPUS

🔧 RESEARCH FOCUS

Liheng Wu is a postdoctoral researcher at Southeast University, specializing in civil engineering. His research spans kinematics, dynamics, compliant mechanisms, robotics, and tensegrity structures. He integrates advanced mechanical theories to develop cutting-edge solutions in both theoretical and applied mechanics.

📚 EDUCATIONAL BACKGROUND

Liheng completed his PhD in Mechanical Engineering at Tianjin University in 2020. With an MS from Hebei University of Technology and a Bachelor's in Engineering from Chongqing Business and Technology University, his educational journey has been marked by a deep focus on mechanical and structural dynamics.

⚙️ KINEMATIC DISCOVERIES

One of Liheng’s key contributions is his work on matrix methods for identifying linkages with first-order mobility. He has also contributed to understanding second-order kinematic constraints and discovered a new Euler-Savary equation of four-bar linkages, pushing the boundaries of mechanical design theory.

🏗️ TENSEGRITY STRUCTURES

In the field of tensegrity structures, Liheng has pioneered novel transformations between linkage-truss systems and tensegrity structures. His work on prestress-stability analysis and prismatic tensegrity systems has influenced structural design methodologies in mechanical engineering.

💡 INNOVATIVE MECHANISMS

Liheng is known for designing innovative displacement amplifying mechanisms using curvature theory. These mechanisms are crucial in enhancing the precision and efficiency of compliant systems, leading to new applications in robotics and dynamic systems.

🔋 SOLITON IN METAMATERIALS

A significant area of his research is the generation of solitary waves in electrical transmission networks. By leveraging soliton dynamics in metamaterials, Liheng's work has the potential to revolutionize energy transmission and network stability.

🏆 PUBLICATIONS & IMPACT

Liheng has published influential papers in leading journals such as Mechanisms and Machine Theory and Journal of Mechanical Design. His research has broad applications, from structural mechanics to advanced robotics, making him a recognized voice in his field.

NOTABLE PUBLICATION

Analyzing Higher-Order Curvature of Four-Bar Linkages with Derivatives of Screws
Authors: Wu, L., Cai, J., Dai, J.S.
Year: 2024
Journal: Machines, 12(8), 576

A Novel Ortho-Triplex Tensegrity Derived by the Linkage-Truss Transformation with Prestress-Stability Analysis Using Screw Theory
Authors: Wu, L., Dai, J.S.
Year: 2021
Journal: Journal of Mechanical Design, 143(1), 013302

A Matrix Method to Determine Infinitesimally Mobile Linkages with Only First-Order Infinitesimal Mobility
Authors: Wu, L., Müller, A., Dai, J.S.
Year: 2020
Journal: Mechanism and Machine Theory, 148, 103776

Matrix Analysis of Second-Order Kinematic Constraints of Single-Loop Linkages in Screw Coordinates
Authors: Wu, L., Müller, A., Dai, J.S.
Year: 2018

Gholamreza Baghban Golpasand – Fiber Reinforced Concrete – Environmental Leadership in Civil Engineering Award

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Gholamreza Baghban Golpasand - Fiber Reinforced Concrete - Environmental Leadership in Civil Engineering Award

Seraj higher education of institute - Iran

AUTHOR PROFILE

GOOGLE SCHOLAR

GHOLAMREZA BAGHBAN GOLPASAND: EXPERT IN STEEL FIBER REINFORCED CONCRETE 🏗️

Gholamreza Baghban Golpasand is a distinguished researcher at Seraj Higher Education Institute, specializing in the behavior of recycled steel fiber reinforced concrete (SFRC) under various stress conditions. His work delves into the uniaxial cyclic compression and biaxial tests of SFRC, significantly contributing to the understanding and improvement of construction materials.

PIONEER IN STEEL FIBER REINFORCED CONCRETE RESEARCH 🏢

Gholamreza has made notable advancements in the study of steel fiber reinforced concrete, focusing on its performance under uniaxial cyclic compression and biaxial tests. His research is crucial for enhancing the durability and resilience of construction materials, which is vital for modern infrastructure.

FEM INVESTIGATION OF SFRCs USING SUBSTEPPING INTEGRATION 📊

One of his significant research contributions includes the finite element method (FEM) investigation of SFRCs. He employs a substepping integration approach for constitutive equations, providing a more accurate and detailed analysis of SFRC behavior. This method improves the predictive capabilities for the material's performance under various conditions.

CITATIONS AND RESEARCH IMPACT 📚

Since 2019, Gholamreza's work has garnered 49 citations, reflecting the impact and relevance of his research in the field of concrete technology. His citation count is a testament to the significance of his contributions to the academic and engineering communities.

ACADEMIC INFLUENCE: H-INDEX AND I10-INDEX 📈

Gholamreza boasts an h-index of 2 and an i10-index of 1, indicating his research's influence and the number of publications that have received significant citations. These metrics highlight his role as a leading researcher in the field of steel fiber reinforced concrete.

ADVANCING CONSTRUCTION MATERIALS SCIENCE 🔧

Through his work, Gholamreza is advancing the science of construction materials, particularly recycled steel fiber reinforced concrete. His research addresses critical aspects of material performance, contributing to the development of more sustainable and durable construction practices.

EDUCATOR AND MENTOR AT SERAJ HIGHER EDUCATION INSTITUTE 🎓

At Seraj Higher Education Institute, Gholamreza is not only a researcher but also an educator, guiding the next generation of engineers and researchers. His expertise and dedication to teaching ensure that his knowledge and innovations are passed on to future leaders in the field.

COMMITTED TO SUSTAINABILITY AND INNOVATION 🌍

Gholamreza's research emphasizes the use of recycled materials, promoting sustainability in construction. His innovative approaches to material testing and analysis are paving the way for more eco-friendly and efficient building practices, reflecting his commitment to sustainable development.

NOTABLE PUBLICATION

Triaxial behavior of concrete containing recycled fibers-an experimental study 2023

Investigation on the efficiency of different methods for evaluation of ground settlement due to excavation of Tabriz metro tunnel, line 2 2022 (1)

Behavior of recycled steel fiber reinforced concrete under uniaxial cyclic compression and biaxial tests 2020 (39)

Experimental and numerical investigation of the effect of steel fiber on fiber reinforced concrete under multiaxial compression 2021 (2)

Shen Zhan – Structural Engineering – Best Scholar Award

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Shen Zhan - Structural Engineering - Best Scholar Award

China University of Mining and Technology - China

AUTHOR PROFILE

Scopus

EARLY ACADEMIC PURSUITS

Shen Zhan began his academic journey in Engineering Mechanics at North China University of Water Resources and Electric Power. This foundational education provided him with essential knowledge and skills in structural analysis and mechanics, laying the groundwork for his specialization in structural engineering during his master's studies at China University of Mining and Technology.

PROFESSIONAL ENDEAVORS

Since commencing his master's program in Structural Engineering, Shen Zhan has been actively engaged in research and academic pursuits. His work focuses on conducting experiments and developing models to enhance the understanding of material behavior and structural performance under high-temperature conditions, particularly in large-span bridge cable systems.

CONTRIBUTIONS AND RESEARCH FOCUS

Shen Zhan's research contributions are significant, particularly in the field of Structural Engineering. He has conducted extensive experiments on high-strength steel wire and large-diameter bridge cable models to investigate material laws, creep behavior, stress relaxation, and fire resistance. His findings have led to the establishment of predictive models and innovative testing methods, providing valuable insights and technical support for the fire protection and design optimization of cable systems in large-span bridges.

IMPACT AND INFLUENCE

Shen Zhan's research has the potential to make a substantial impact on the field of structural engineering, particularly in the realm of fire protection for large-span bridge cable systems. By elucidating material degradation mechanisms and proposing effective fire-resistant design strategies, his work contributes to ensuring the safety, economy, and effectiveness of structural systems in challenging environments.

ACADEMIC CITES

Shen Zhan's research has been recognized and cited by peers in the field, underscoring the relevance and significance of his contributions to structural engineering literature. His publications in esteemed journals such as Structures and China Civil Engineering Journal attest to the quality and impact of his research findings.

LEGACY AND FUTURE CONTRIBUTIONS

As Shen Zhan continues his academic and professional journey in Structural Engineering, his legacy is poised to grow further. By further refining his research focus and expanding his contributions to address emerging challenges in structural design and safety, he has the potential to leave a lasting impact on the field. Through continued innovation and collaboration, Shen Zhan's future contributions will contribute to advancing the state-of-the-art in structural engineering practice and theory.

NOTABLE PUBLICATION

Research on Indoor Wireless Access Network of Hybrid VLC-WiFi System  2017 (4)

A novel distance estimation method for target localization in coal mine assisted by mobile beacons  2017 (1)

Fingerprinting Localization Method Based on TOA and Particle Filtering for Mines  2017 (12)

Localization techniques of mobile objects in coal mines: challenges, solutions and trends  2016 (23)