Yaoqing Gong – Structural Engineering – Best Researcher Award

Posted on by Civil

Yaoqing Gong - Structural Engineering - Best Researcher Award

Henan Polytechnic University - China

AUTHOR PROFILE

SCOPUS
ORCID

SUMMARY

Yaoqing Gong is a distinguished academic in civil and structural engineering, currently serving as Chair Professor at Henan Polytechnic University. With over four decades of teaching, research, and engineering practice, the expertise encompasses semi-analytical structural analysis, finite element modeling, and torsional analysis of complex structures. Editorial roles, committee memberships, and national-level research projects illustrate a strong reputation in academia. Recognized by leading institutions in China, including the Ministry of Education and National Natural Science Foundation, the work influences tall building mechanics and computational analysis. Extensive publications and involvement in conference proceedings highlight an active presence in both theoretical and applied engineering domains.

EDUCATION

Completed a Ph.D. in Civil Engineering at Tsinghua University, renowned for engineering excellence. Previously earned a Master’s degree in Mechanical Engineering from Huazhong University of Science and Technology and a Bachelor’s degree from Ningxia University. The academic progression reflects a deep foundation in engineering sciences, transitioning from mechanical to civil specializations. The multidisciplinary training has significantly shaped advanced research contributions in structural mechanics, particularly in analyzing super-tall buildings and complex beam structures. The educational journey through top-tier Chinese institutions has laid the groundwork for a highly productive academic and research career across decades in civil infrastructure development and modeling.

PROFESSIONAL EXPERIENCE

Began academic career as Assistant Lecturer at Ningxia University, progressing through Lecturer, Associate Professor, and Professor roles from 1981 to 2001. Since 2001, appointed as Chair Professor at Henan Polytechnic University, leading major initiatives in structural engineering. Held several key academic responsibilities, contributing to curriculum design and research mentorship. A strong connection with national academic bodies such as the Ministry of Education and NSF of China has ensured relevance and impact in teaching and applied research. Professional duties have also extended to evaluating high-level research proposals and participating in national engineering education committees, reflecting trust and leadership in the field.

RESEARCH INTEREST

Core research interests include semi-analytical methods for analyzing dynamic loads on super-tall buildings and long-span bridges, torsional behavior of noncircular beam sections, and structural interactions with elastic subgrades. Work is heavily focused on theoretical mechanics, generalized-area-coordinate systems, and conforming finite element formulations. Special emphasis is placed on dynamic load modeling and the interaction between foundation and superstructures, particularly under spatial or multi-directional loading. Research bridges practical civil infrastructure challenges with computational mechanics innovation, advancing knowledge in constrained torsion and spatial vibration of complex geometries. Integration of analytical theory and real-world applications characterizes all research endeavors and academic outputs.

AWARD AND HONOR

Honored with roles that reflect academic prestige, including Editorial Board Membership in the Journal of Engineering Mechanics (Chinese) and Committee Member of the Mechanics Instruction Committee, Ministry of Education, China. Selected as a referee for high-impact national research proposals under the Department of Engineering & Material Science, NSF of China. Contributions to national research projects and leadership in university-affiliated foundations also serve as testimony to recognition by peers. The ability to influence educational and research standards at national levels is a distinguishing achievement. These roles underscore trust, influence, and merit across China’s academic and engineering science communities.

RESEARCH SKILL

Expert in developing semi-analytical and finite element models for structural analysis under dynamic and complex boundary conditions. Advanced in formulating generalized conforming finite elements and utilizing generalized-area-coordinate systems. Skilled in solving torsional behavior for constrained, variable thickness beams with arbitrary noncircular shapes. Familiar with both theoretical development and application to large-scale infrastructure such as super-tall buildings and bridges. Possesses hands-on design experience, including work with steel tower structures for astronomical observatories. Capable of integrating analytical theory with field application, contributing both to academia and practical engineering. Strong background in mathematical modeling, ODE solvers, and high-performance structural analysis.

PUBLICATIONS TOP NOTED

Published in prestigious journals such as Composite Structures, Engineering Structures, European Journal of Mechanics/A Solids, and MethodsX. Key contributions include innovative constrained torsional analysis, theories for stocky beams with noncircular cross-sections, and finite element formulations for thick plate-shell elements. Authored books like “Structural Mechanics” and “Tall Building Structures on Elastic Subgrade,” which serve as foundational texts in Chinese structural engineering education. Presented work at global conferences including the World Congress on Computational Mechanics. Collaborated with notable researchers on interdisciplinary projects, ensuring international visibility. Research outputs continue to shape methodologies used in modern civil engineering and computational structural mechanics.

Title: Composite stocky box girders of variable thickness in high-support expressways: Constrained torsional analysis
Authors: [Not specified]
Journal: Engineering Structures (2021)

Title: An innovative method for surmounting the constrained torsional problems of stocky beams with arbitrary noncircular cross-sectional shapes and with arbitrary elastic material properties
Authors: [Not specified]
Journal: MethodsX (2021)

Title: The torsional centre position of stocky beams with arbitrary noncircular cross-sectional shapes and with arbitrary elastic material properties
Authors: [Not specified]
Journal: European Journal of Mechanics A: Solids (2021)

CONCLUSION

Yaoqing Gong’s contributions span theoretical development, practical design, high-level academic mentorship, and national-level advisory roles. Strong expertise in civil and structural engineering mechanics is demonstrated through sustained publications, impactful research funding, and leadership roles within Chinese engineering education. The emphasis on semi-analytical methods and computational mechanics provides critical solutions for modern engineering problems such as super-tall structures, complex torsional analysis, and elastic subgrade interaction. Through integration of teaching, research, and applied science, continues to influence both academic frameworks and infrastructure practices. The profile stands as a model of excellence in civil engineering innovation, research integrity, and academic leadership.

Le-Xi Zhang – Gas Sensing Materials – Best Researcher Award

Posted on by Civil

Le-Xi Zhang - Gas Sensing Materials - Best Researcher Award

Tianjin University of Technology - China

AUTHOR PROFILE

SCOPUS

ORCID

SUMMARY

Dr. Le-Xi Zhang is an Associate Professor at Tianjin University of Technology, China. With research centered on gas and humidity sensing materials, heterogeneous catalysis, and nanostructured materials, Dr. Zhang has significantly advanced perovskite-based and MOF-derived sensor technologies. His academic contributions span over a decade, supported by numerous national and provincial research grants. He has a robust publication record, with impactful articles in high-ranking SCI journals and a range of patented innovations. His work bridges fundamental material design and practical sensor applications for environmental and physiological monitoring.

EDUCATION

Dr. Zhang earned a Bachelor of Science in Chemistry from Qufu Normal University (2001–2005). He completed his Ph.D. in Materials Science at the Institute of Coal Chemistry, Chinese Academy of Sciences (2005–2012). His academic foundation integrates deep chemical understanding with cutting-edge nanotechnology, equipping him to investigate complex materials systems for practical applications in sensing and catalysis. The rigorous training and interdisciplinary research during his doctoral work laid the groundwork for his current focus on smart functional materials.

PROFESSIONAL EXPERIENCE

Starting as a Lecturer in 2012, Dr. Zhang advanced to Associate Professor at Tianjin University of Technology in 2018. He has led research groups in materials chemistry and sensor development, often collaborating with industry and academic peers. His responsibilities include mentoring graduate students, publishing scientific research, and managing research projects. He is actively involved in academic societies and editorial boards. Through leadership roles and interdisciplinary collaboration, he has fostered innovation in sensor technology and contributed meaningfully to China’s material science research community.

RESEARCH INTEREST

Research areas include gas and humidity sensors, oxide nanostructures, heterogeneous catalysts, and metal–organic frameworks (MOFs). His investigations are focused on synthesizing defect-rich and multifunctional materials to enhance sensitivity, selectivity, and environmental stability. Emphasis is placed on halide perovskites, high-entropy oxides, and carbon-doped nanomaterials. These efforts aim at addressing environmental sensing challenges, particularly in wearable technology and public health diagnostics. His work integrates design, synthesis, and device fabrication, contributing significantly to sensor miniaturization and real-time monitoring applications.

AWARD AND HONOR

Dr. Zhang has been recognized as a Tianjin 131 Innovative Talent (Third Level) and was selected under the "Longcheng Talent Plan" in Jiangsu Province. He has secured multiple competitive national and regional research grants as a principal investigator. His editorial contributions to Rare Metals and Tungsten (both SCI Q1) reflect academic leadership. A prolific reviewer for over 50 SCI journals, Dr. Zhang’s academic reputation is further bolstered by peer endorsements and invitations to prestigious editorial boards in materials science.

RESEARCH SKILL

Dr. Zhang demonstrates advanced skills in materials synthesis (e.g., solvothermal, hydrothermal, molten-salt), structural characterization (e.g., XRD, SEM, TEM), and sensor fabrication. He specializes in designing multifunctional oxide-based and coordination polymer materials for gas sensing. His capabilities extend to defect engineering, photocatalysis studies, and electrochemical performance analysis. He possesses considerable experience in applying nanotechnology to real-world sensing problems and is adept in scaling up material synthesis for prototype development. His integrated approach links material properties with device performance effectively.

PUBLICATIONS TOP NOTED

Dr. Zhang has authored over 50 first or corresponding-author papers in top-tier journals like Sensors and Actuators B, Journal of Materials Chemistry C, and ACS Applied Materials. His publications address humidity sensing, gas detection, and catalytic performance, often involving novel perovskite and MOF materials. Noteworthy papers include studies on lead-free perovskites for physiological humidity monitoring and high-entropy oxides for non-contact sensing. Many works feature interdisciplinary collaboration and real-time application focus, highlighting both theoretical insights and applied breakthroughs.

Title: In-situ pyrolysis of lead-free halide perovskite Cs₂SnCl₆ micro-octahedra to CsCl@Cs₂SnCl₆ composites for robust physiological humidity monitoring
Authors: [Not specified]
Journal: Microchemical Journal (2025)

Title: MOF-derived high-entropy oxides (YTbDyErYb)₂O₃ for boosted non-contact physiological humidity monitoring induced by oxygen vacancy modulation
Authors: [Not specified]
Journal: Journal of Alloys and Compounds (2024)

Title: Cation-oxygen dual-defective ACu₃Ti₄O₁₂ (A = Sr, Ba) perovskites enable high-performance humidity sensors for human-body related moisture monitoring
Authors: [Not specified]
Journal: Ceramics International (2024)

Title: PVDF-PTFE composite-based electrochemical sensor for monitoring humidity during human physiological movements
Authors: [Not specified]
Journal: Sensors and Actuators B: Chemical (2024)

Title: High-Performance Flexible Humidity Sensors Based on MCl (M = Li, Na, K) Doped PVP/PVDF Self-Supporting Films for Boosted Real-Time Noncontact Moisture Monitoring
Authors: [Not specified]
Journal: ACS Applied Polymer Materials (2024)

Title: Halide-dependent humidity sensing of Cs₂SnX₆ (X = Cl, Br, I) perovskites for real-time human physiological moisture detection
Authors: [Not specified]
Journal: Journal of Materials Chemistry C (2024)

CONCLUSION

Dr. Le-Xi Zhang exemplifies interdisciplinary expertise in functional materials for chemical sensing. His innovative research on humidity and gas sensors has positioned him at the forefront of environmental and physiological monitoring technology. By integrating nanostructure engineering and device fabrication, he contributes solutions to critical challenges in smart sensing. His academic leadership, combined with patent-rich output and editorial roles, makes him a key figure in China's material chemistry landscape. Dr. Zhang’s future work is poised to drive sustainable sensor technologies and translational material science.

Rong Chen – Materials Science and Engineering – Women Researcher Award

Posted on by Civil

Rong Chen - Materials Science and Engineering - Women Researcher Award

China university of Geosciences - China

AUTHOR PROFILE

SCOPUS

SUMMARY

Rong Chen is an Associate Professor at China University of Geosciences in Wuhan, recognized for significant contributions to laser manufacturing. Research includes laser welding, laser cladding, and laser 3D printing, focusing on improving joint strength, microstructure manipulation, and composite reinforcement. Over 20 publications have appeared in esteemed journals, addressing advanced manufacturing techniques and material behavior under external fields. With prior experience as a senior research fellow at City University of Hong Kong, the academic background and practical insights position Rong Chen as a leader in applied materials engineering and modern manufacturing technologies.

EDUCATION

A Ph.D. was earned from Huazhong University of Science and Technology in 2018, establishing a strong foundation in materials engineering and laser processing. Postdoctoral experience was gained through a research fellowship at City University of Hong Kong from 2019 to 2020. The academic path has been shaped by multidisciplinary approaches, combining advanced experimental design with theoretical modeling in materials processing. Educational milestones were marked by rigorous training in materials science, welding engineering, and microstructural analysis, leading to a comprehensive skill set relevant to both academic and industrial sectors.

PROFESSIONAL EXPERIENCE

Currently serving as Associate Professor and master’s supervisor at China University of Geosciences, Wuhan. Previously held a senior research fellowship at City University of Hong Kong. Career has focused on laser-based manufacturing processes, supervising graduate-level research, and managing funded scientific projects. Practical roles include leading government-funded initiatives such as the National Natural Science Foundation’s Youth Project and the Wuhan Innovation Foundation. With experience in both academic research and institutional collaboration, the career path demonstrates leadership in cutting-edge manufacturing processes and academic mentorship.

RESEARCH INTEREST

Research concentrates on laser manufacturing technologies, including laser welding, laser cladding, and laser 3D printing. Core areas include interface control, fatigue resistance, magnetic field-assisted welding, and graphene-reinforced composites. Studies also explore intermetallic bonding, joint durability, and microstructural evolution under external influences. Emphasis is placed on sustainable, high-performance fabrication of metal alloys and dissimilar material systems. Advanced characterization techniques are integrated to understand phenomena like crack propagation, crystallographic orientation, and corrosion resistance. Innovations contribute to automotive, aerospace, and structural engineering applications.

AWARD AND HONOR

Recognized through prestigious research funding, including three government-sponsored projects. Achievements include leading roles in the National Natural Science Foundation (Youth Project) and the Wuhan Innovation Foundation. Academic publications in top-tier journals further establish recognition in the global materials science community. Invitations to collaborate and contribute to high-impact research initiatives reflect the professional excellence and impact within laser materials processing and hybrid welding technologies. Contributions are acknowledged by peers and institutions for advancing laser-based joining processes and metal composite developments.

RESEARCH SKILL

Demonstrates expertise in laser-based material processing, magnetic field-assisted welding, and advanced characterization of metal interfaces. Skilled in microstructure-property relationship analysis using modern microscopy and spectroscopic methods. Strong command over experimental design, fatigue testing, corrosion studies, and mechanical property evaluation. Additional competencies include interfacial chemistry analysis, hybrid welding techniques, and metal matrix composite development. Capable of integrating academic theory with practical manufacturing solutions. Offers mentorship in high-level research projects and collaborative innovation with industry partners.

PUBLICATIONS TOP NOTED

Top publications appear in Composite Structures, Materials Science & Engineering A, Journal of Materials Science, and Corrosion Science. Notable studies include interface enhancement using magnetic fields, graphene-reinforced composites, and joint strength optimization. Work in Journal of Materials Processing Technology and Materials Characterization presents advancements in microstructural control and fatigue resistance. Each paper reflects a focused inquiry into material behavior under laser and magnetic influence, contributing significantly to both academic and industrial knowledge in manufacturing and materials design.

Title: Tuning of the mechanical properties of a laser powder bed fused eutectic high entropy alloy Ni30Co30Cr10Fe10Al18W2 through heat treatment
Authors: [Author names not specified in input]
Journal: Materials Science and Engineering A

Title: Multi-Objective Optimization of the Ultrasonic Scalpel Rod and Tip with Improved Performance: Vibration Frequency, Amplitude, and Service Life
Authors: [Author names not specified in input]
Journal: Chinese Journal of Mechanical Engineering (English Edition)

CONCLUSION

Rong Chen stands out as a prominent academic in the field of materials engineering and laser manufacturing. With deep expertise in hybrid welding, external field applications, and composite materials, contributions have shaped current research and practice. A consistent publication record, leadership in funded projects, and a commitment to education and innovation underpin a strong academic presence. Future research aims to integrate sustainable practices with high-performance materials processing, advancing technological development across industries.

Lewis John Gooch – Structural Engineering – Best Researcher Award

Posted on by Civil

Lewis John Gooch - Structural Engineering - Best Researcher Award

The University of Newcastle - Australia

AUTHOR PROFILE

SCOPUS
ORCID
GOOGLE SCHOLAR

SUMMARY

Lewis John Gooch is a dedicated civil engineer and postdoctoral research associate specializing in structural reliability and masonry design. With academic and professional experience in seismic performance analysis, numerical modelling, and experimental mechanics, Lewis contributes to advancing safer, more resilient infrastructure. His work intersects engineering theory, laboratory experimentation, and practical design, producing high-impact research publications and real-world engineering solutions. Recognized with numerous academic and industry awards, Lewis has established strong collaborative ties with research institutions and industry stakeholders. His career reflects a strong commitment to engineering excellence, scholarly advancement, and impactful industry engagement within the Australian civil and structural engineering landscape.

EDUCATION

Lewis completed his Ph.D. in Civil Engineering at The University of Newcastle, focusing on stochastic assessment and structural reliability of unreinforced masonry walls under shear loading. Prior to this, he earned a Bachelor of Civil Engineering (Honours) with University and Faculty Medals, demonstrating exceptional academic performance. He also pursued the Academic Career Preparation Pathway, gaining university teaching competencies. These educational milestones have equipped him with expertise in structural mechanics, probabilistic modelling, and engineering pedagogy, forming a strong foundation for his academic and professional career. His academic training continues to inform his research into innovative and reliable construction design methodologies.

PROFESSIONAL EXPERIENCE

Lewis currently serves as a Postdoctoral Research Associate at the University of Technology Sydney, leading efforts to calibrate masonry design standards under ARC Discovery Project DP220102758. Concurrently, at The University of Newcastle, he contributes to infrastructure performance through digital image correlation and laboratory test development. Formerly a structural engineer at Lindsay Dynan, he managed complex assessments of bridges, concrete structures, and scaffolding systems. These roles demonstrate a seamless transition from professional engineering to high-level research, with responsibilities including supervision of students, development of experimental methods, and national code contributions—showcasing a rare blend of academic insight and practical engineering skill.

RESEARCH INTEREST

Lewis's research explores the intersection of structural engineering, material behaviour, and probabilistic modelling. His primary focus is on the performance of unreinforced masonry (URM) structures under seismic and wind loads. He develops stochastic models to simulate spatial variability and uses finite element analysis to evaluate structural response. Additionally, he investigates material uncertainties, structural reliability, and safety factor calibration within Australian design codes. His interests extend to experimental validation using high-resolution testing methods. Lewis aims to reduce risk in civil infrastructure through improved understanding of material properties and modelling uncertainties—providing engineering solutions backed by scientific rigour and innovation.

AWARD AND HONOR

Lewis has earned multiple prestigious accolades for academic and industry excellence. These include the University Medal and Faculty Medal from The University of Newcastle, along with consistent recognition on the Dean’s Merit and Commendation Lists. He has received industry awards such as the Engineers Australia Prize, Douglas Partners Prize for Applied Geotechnics, and Steel Reinforcement Institute of Australia Award. These distinctions highlight his exceptional performance in both technical proficiency and academic scholarship. His awards reflect a career marked by excellence in geotechnics, water engineering, structural analysis, and masonry design, positioning him as a rising leader in civil engineering research.

RESEARCH SKILL

Lewis demonstrates expertise in high-resolution digital image correlation, finite element modelling, and stochastic analysis of masonry structures. He is proficient in developing and validating experimental testing methods, including shear and tensile strength characterization. He applies statistical models to quantify material variability and risk in structural performance, contributing to design standard calibration. His experience in software tools for structural simulation and data interpretation supports comprehensive model validation. Furthermore, he provides supervision and technical mentorship across undergraduate and postgraduate levels. His research skillset reflects a deep integration of theoretical understanding, practical experimentation, and computational engineering, essential for advancing structural reliability.

PUBLICATIONS TOP NOTED

Lewis has authored influential journal articles and conference papers in leading engineering venues. Noteworthy publications include studies on mortar friction coefficients, URM shear wall behaviour, and statistical assessment of clay brick masonry—appearing in journals like Construction and Building Materials, Journal of Structural Engineering, and Bulletin of Earthquake Engineering. His work is widely cited for advancing knowledge in masonry design, model uncertainty, and stochastic structural analysis. He has also presented internationally on life-cycle monitoring and structural safety. His contributions play a critical role in refining seismic design methods and improving structural resilience, bridging academic research with engineering practice.

Title: Accuracy of stochastic finite element analyses for the safety assessment of unreinforced masonry shear walls
Authors: Lewis J. Gooch, Mark G. Stewart, M. J. Masia
Journal: Civil Engineering and Environmental Systems

Title: Experimental characterisation of the friction coefficient of mortar bed joints in clay-brick masonry
Authors: Lewis J. Gooch, Mark J. Masia, Mark G. Stewart, Michele Spadari
Journal: Construction and Building Materials

Title: Experimental Testing of Unreinforced Masonry Shear Walls and Comparison with Nominal Capacity Predictions
Authors: Lewis J. Gooch, Mark J. Masia, Mark G. Stewart, Md. Akhtar Hossain
Journal: Journal of Structural Engineering

Title: Model accuracy for the prediction of unreinforced clay brick masonry shear wall resistance
Authors: Lewis J. Gooch, Mark G. Stewart, Mark J. Masia
Journal: Bulletin of Earthquake Engineering

Title: Spatial Correlation of Flexural Tensile Bond Strength in Unreinforced Masonry Walls
Authors: Lewis J. Gooch, M. J. Masia, Mark G. Stewart, C. Collard
Journal: Lecture Notes in Civil Engineering

Title: Statistical assessment of tensile and shear properties of unreinforced clay brick masonry
Authors: Lewis J. Gooch, Mark J. Masia, Mark G. Stewart, Chee Yin Lam
Journal: Construction and Building Materials

CONCLUSION

Lewis John Gooch exemplifies the qualities of a modern structural engineering researcher: analytically rigorous, experimentally adept, and industry-aware. His commitment to enhancing infrastructure resilience through advanced modelling and testing informs both academic discourse and practical design. Recognized for academic excellence and industry contribution, Lewis's career continues to evolve through impactful research, scholarly publications, and teaching. With his focus on masonry structures and structural reliability, he contributes meaningfully to national design standards and global understanding of risk-informed engineering. His trajectory highlights a promising future as a thought leader in civil engineering innovation and infrastructure safety assessment.

Yu Wang – Urban Planning – Best Researcher Award

Posted on by Civil

Yu Wang - Urban Planning - Best Researcher Award

Tianjin University - China

AUTHOR PROFILE

ORCID

SUMMARY

Yu Wang is an Associate Professor at Tianjin University, actively contributing to urban and regional planning with a focus on resilient, healthy, and data-driven urban environments. Extensive experience across academia and applied research has enabled significant contributions to urban governance, green space evaluation, smart city strategies, and sustainable planning. Leadership roles and multiple funded projects highlight a consistent drive for innovative solutions in urban development. The work bridges the gap between theoretical insight and practical urban challenges, benefiting both academia and policy-making.

EDUCATION

Academic qualifications include a PhD in Geography and Planning from the University of Liverpool, a Master’s degree in Urban and Regional Planning from Peking University, and a Bachelor’s in Architecture from Wuhan University. This multidisciplinary academic trajectory supports a holistic understanding of spatial planning, urban sustainability, and architectural principles. Each educational milestone has contributed to shaping a comprehensive and globally informed perspective on city planning, enabling in-depth research and teaching that integrates planning theory, spatial analysis, and socio-environmental design.

PROFESSIONAL EXPERIENCE

Currently Vice Director of the Centre of International Cooperation and Associate Professor at Tianjin University, Yu Wang has held prior roles as Teaching Fellow and Research Associate at institutions including the University of Glasgow. Professional roles span leadership, teaching, international collaboration, and consultancy. Experience includes strategic planning, managing interdisciplinary teams, supervising research projects, and delivering expert consultation to urban development authorities. The academic-industry interface has been a consistent part of this career, enriching both research outputs and urban development practices.

RESEARCH INTEREST

Research interests focus on resilient and healthy urban environments, smart city governance, and data-driven urban planning. Themes such as public space utilization, community-level resilience, and spatial accessibility are central. Ongoing inquiries also explore how built environments influence social capital and well-being. There is a strong emphasis on interdisciplinary methods integrating geospatial analysis, big data, and participatory design. The research direction aims to improve urban sustainability, promote equity in public service distribution, and guide decision-making through empirical, scalable evidence.

AWARD AND HONOR

Recognition includes multiple roles as principal investigator on major government and institution-funded projects. Leadership in international symposiums, invited talks, and editorial contributions affirms the role as a respected voice in urban planning discourse. Notable engagements include keynote sessions in ASEAN-China forums and international planning conferences. Participation in major urban policy consultations and reports for the Blue Book of Urban Community Development also reflects professional trust and domain expertise. This standing contributes to ongoing influence in shaping both research trends and policy agendas.

RESEARCH SKILL

Research competencies span geospatial modeling, big data analysis, remote sensing, GIS, and spatial-temporal analytics. Proficiency includes CA–Markov modeling, mobile phone data analysis, urban heat island prediction, and socio-spatial mapping. Additionally, expertise in interdisciplinary methods allows integration of environmental, demographic, and behavioral datasets into actionable urban policies. Skillset also includes advanced urban simulation, design thinking for planning, and participatory assessment methods. The methodological approach combines quantitative precision with qualitative insight, supporting policy-relevant and academically rigorous research outputs.

PUBLICATIONS TOP NOTED

Publications cover high-impact journals including Buildings, PlosONE, Remote Sensing, Sustainable Cities and Society, and ISPRS. Topics include built environment influence on social capital, urban heat islands, green space accessibility, and spatial segregation. Work is characterized by methodological diversity and thematic relevance to pressing urban challenges. Highlights include studies on smart city technologies, epidemic response infrastructure, and urban renewal. Co-authored reports in national planning bluebooks enhance practical application. The publication record reflects a balance of scholarly rigor and real-world policy engagement.

CONCLUSION

Yu Wang exemplifies a modern academic who bridges theoretical innovation with practical application. The academic career is marked by interdisciplinary integration, leadership in funded research, and a commitment to urban resilience and social equity. As cities face complex challenges from aging populations to climate change, the work stands out for providing grounded, data-informed, and forward-thinking solutions. Continued involvement in national and international platforms ensures ongoing contribution to shaping sustainable and inclusive urban futures.

Manali Rathee – Sustainable Development – Women Researcher Award

Posted on by Civil

Manali Rathee - Sustainable Development - Women Researcher Award

IIT JAMMU - India

AUTHOR PROFILE

GOOGLE SCHOLAR

SUMMARY

Manali Rathee’s academic pursuits focus on geopolymer concrete as a sustainable alternative to traditional Portland cement. Emphasis is placed on durability, service life, and low-carbon innovations. Core areas include resistance to chemical attacks, carbonation behavior, microstructural optimization using nanomaterials, and integration of industrial by-products to support circular-economy goals. Research contributes to sustainable structural engineering for climate-resilient infrastructures in line with India’s Net-Zero 2070 agenda. The work aligns strongly with emerging global themes of green construction materials and performance-based structural design for harsh environments such as marine zones and urban industrial sectors.

EDUCATION

Currently pursuing a Ph.D. in Civil Engineering with specialization in Structure and Construction Management at IIT Jammu. Holds a Master's in Structure and Construction Management from NIT Jalandhar, with thesis centered on geopolymer paving blocks using waste materials under a TEQIP-III project. Undergraduate degree in Civil Engineering was earned from GL Bajaj Institute of Technology and Management. Academic background is complemented by the Sakura Science Exchange Program (Japan), multiple certifications in STAAD Pro, AutoCAD, and industry-institute webinars, reflecting a commitment to multidisciplinary learning and international collaboration.

PROFESSIONAL EXPERIENCE

Experience includes multiple teaching assistant roles at IIT Jammu and NIT Jalandhar in subjects like Engineering Mechanics and Structural Engineering. Hands-on industry training gained through internship at NTPC Netra Site as a quality control engineer and summer training at NBCC (India) Ltd. Experience managing and volunteering in international workshops and student-driven events. Exposure to both academic and industry perspectives provides a balanced approach to research and practical application. Active involvement in academic event coordination and cross-cultural exchange programs has enhanced professional growth and leadership.

RESEARCH INTEREST

Primary interest lies in geopolymer concrete systems, particularly their chemical durability, microstructural evolution, and service-life prediction under aggressive exposures. Areas of investigation include chloride and carbonation ingress, interfacial behavior with nanomaterials (MXenes, graphene), and valorization of industrial by-products like copper slag and zinc slag. Research promotes low-carbon construction materials, aiming to optimize the physical and mechanical performance of alkali-activated binders. Strong inclination toward circular economy in construction through waste reuse, targeting environmental sustainability, and material innovation suitable for high-performance structural applications.

AWARD AND HONOR

Secured a TEQIP-III sponsored project during postgraduate studies and ranked among the top 3 in the M.Tech department. Recognized with a funded research internship and project support, alongside multiple GATE qualifications with high percentile scores. Presented research internationally in the UK and Japan, reflecting strong academic visibility. Achievements include presenting in top-tier conferences and contributing to global forums on sustainable concrete technologies. Patent filed for a novel cementitious binder. Recognized as a proactive contributor in both technical education and sustainable innovation initiatives.

RESEARCH SKILL

Proficient in advanced material characterization techniques including XRD, SEM, EDS, FTIR, and beginner-level TEM. Skilled in mechanical performance testing and microstructural analysis of cementitious materials. Proficient in AutoCAD, STAAD Pro, MATLAB, and MS Office. Experienced with data analysis and experimental setup for durability testing under acid, sulfate, and thermal conditions. Competent in operating across Windows, Linux, and Mac platforms. Effective communication skills in English and Hindi. Strong coordination capabilities demonstrated through participation in research events, academic workshops, and student-led conferences.

PUBLICATIONS TOP NOTED

Published in high-impact journals like ACS Materials Au, ACS Applied Engineering Materials, and Magazine of Concrete Research. Key contributions include studies on MXene-geopolymer interactions, thermal and chemical durability of alkali-activated binders, and sustainable concrete with fly ash and slags. Reviewed critical aspects of geopolymerization and carbonation resistance. Authored eight peer-reviewed articles and two accepted papers, addressing both experimental findings and theoretical insights. Publication record highlights strength in multidisciplinary civil engineering, nanomaterials application, and durability modeling for advanced construction materials.

Durability properties of copper slag and coal bottom ash based I-shaped geopolymer paver blocks
M. Rathee, N. Singh
Construction and Building Materials, 347, 128461 (2022)

Carbonation resistance of blended mortars and industrial by-products: A brief review
N. Singh, B. Sharma, M. Rathee
Cleaner Materials, 4, 100058 (2022)

Study of mechanical properties of geopolymer mortar prepared with fly ash and GGBS
M. Rathee, A. Misra, J. Kolleboyina
Materials Today: Proceedings, 93, 377–386 (2023)

Reviewing geopolymer concrete: a possible sustainable structural material of future
M. Rathee, N. Singh
Environment, Development and Sustainability (2024)

Interfacial Chemistry of Ti₃C₂Tₓ MXene in Aluminosilicate Geopolymers for Enhanced Mechanical Strength
M. Rathee, H.K. Surendran, C. Narayana, R. Lo, A. Misra, K. Jayaramulu
ACS Applied Engineering Materials, 2(8), 2027–2037 (2024)

RESEARCH FOCUS

Research emphasizes geopolymer systems’ performance in aggressive environments and the role of functional additives in tailoring binder microstructure. Special attention is paid to circular-economy frameworks by incorporating hazardous waste like copper slag, aiming for safer disposal and improved mechanical properties. The goal is to develop advanced geopolymer composites that meet the dual demands of sustainability and performance. Strategic use of analytical tools supports the development of material models for structural durability, promoting the widespread adoption of low-carbon building technologies across infrastructure sectors.

CONCLUSION

Manali Rathee is a promising civil engineering researcher advancing the field of sustainable and low-carbon construction materials. Through rigorous academic training, field exposure, and impactful publications, significant contributions have been made to geopolymer concrete development. Interdisciplinary approach bridges structural mechanics with material chemistry and environmental sustainability. Patent and project execution underscore innovation and research leadership. Participation in global conferences and workshops marks strong engagement with the international scientific community. The work supports a future-ready construction industry through knowledge integration, experimental innovation, and societal relevance.

Faustyn Recha – Structural Engineering – Academic Achievement in Civil Engineering Award

Posted on by Civil

Faustyn Recha - Structural Engineering - Academic Achievement in Civil Engineering Award

Academy of Silesia - Poland

AUTHOR PROFILE

SCOPUS
ORCID
GOOGLE SCHOLAR

SUMMARY

Faustyn Recha is a civil engineer and academic specializing in reinforced concrete structures and corrosion mechanics. Known for integrating numerical modeling with structural engineering, contributions span across research, teaching, and professional practice. Focus areas include degradation modeling of reinforced concrete due to corrosion, structural mechanics, and practical innovations in building technology. Recha has presented findings at major international conferences and led seminars on cutting-edge topics in structural durability. The research is characterized by deep experimental validation and interdisciplinary collaboration. Engagements with institutions across Europe, the USA, and Asia demonstrate a strong global academic and industrial footprint.

EDUCATION

Earned a Ph.D. in engineering and technical sciences with a specialization in civil engineering and transport from the Silesian University of Technology. Completed both bachelor's and master's degrees in construction engineering, specializing in Building and Engineering Structures, from the Częstochowa University of Technology. Education journey combined strong academic performance with early practical exposure, laying the groundwork for expertise in reinforced concrete and structural analysis. The doctoral dissertation addressed the degradation of reinforced concrete structures caused by reinforcement corrosion, showcasing theoretical innovation supported by experimental data. This academic path equipped Recha with skills vital for high-impact scientific and technical roles.

PROFESSIONAL EXPERIENCE

Currently serves as Assistant Professor at the Academy of Silesia in Katowice, contributing to teaching, research, and coordination within the Civil Engineering, Geodesy, and Transport discipline. Gained experience through prior design studio work and technical supervision roles. Served internships in Germany and Slovakia, focusing on concrete durability and structural analysis. Has held responsibilities in teaching structural mechanics, corrosion science, and advanced construction methods. Practical contributions include over 200 construction projects, technical evaluations, and design solutions. Verified experience in managing construction sites and coordinating with municipalities and industry professionals, ensuring real-world application of academic expertise.

RESEARCH INTEREST

Research interests revolve around the durability and mechanics of reinforced concrete structures, particularly degradation mechanisms triggered by reinforcement corrosion. Investigates thermomechanical modeling, numerical simulation, and probabilistic assessments of structural failure. Current focus includes developing non-invasive methods for estimating corrosion current density through structural deflection analysis. Engages in experimental and theoretical studies to enhance modeling precision and reliability. Other interests encompass geopolymer materials, utility-based mix design optimization, and interval analysis for material degradation. These research areas reflect an integration of structural theory with emerging technologies in material science, contributing to safer and more durable infrastructure.

AWARD AND HONOR

Recognized with several academic distinctions, including a scholarship from the Rector of the Silesian University of Technology. Earned second place in the young scientists’ poster session at the 66th Scientific Conference of the Polish Academy of Sciences. Achieved notable rankings in the "Modern Engineer" technical knowledge competitions. Actively invited as a reviewer for international journals and speaker at prestigious conferences. Recha’s achievements reflect continuous contributions to civil engineering and academic excellence. Ongoing innovations, including a pending patent for prefabricated slab connections, underline a commitment to impactful engineering practices and scientific advancement.

RESEARCH SKILL

Highly skilled in structural modeling, experimental mechanics, advanced FEM simulations, and degradation analysis of reinforced concrete. Proficient in formulating thermomechanical models and corrosion-related strain tensors. Experienced in Monte Carlo simulation for sensitivity analysis, non-invasive diagnostic techniques, and concrete mix design optimization. Adept at scientific writing, technical reporting, and cross-disciplinary collaboration. Skilled in preparing structural design documentation and assessing the condition of existing structures. Familiar with patent development and engineering innovation processes. Expertise spans both laboratory-based experimental methods and computational modeling, enabling comprehensive investigation and application in structural engineering challenges.

PUBLICATIONS TOP NOTED

Published in leading journals such as Materials, Open Engineering, and Przegląd Budowlany. Notable works include the formulation and experimental verification of models estimating corrosion current in reinforced concrete, assessments of structural degradation, and optimization of geopolymer mortar mixes. Recent articles explore interval analysis in concrete degradation and innovative techniques in non-invasive corrosion measurement. Contributions are often co-authored with international collaborators, reflecting broad engagement with global research communities. Participation in conference proceedings and edited volumes further amplifies the academic footprint. Publications address both theoretical frameworks and practical applications, aligning scholarly impact with industry relevance.

Title: Zasady przeprowadzania okresowych badań technicznych obiektów budowlanych w zakresie bezpieczeństwa i użytkowania
Authors: F. Recha, P. Nagel
Journal: BUILDER

Title: Application of Interval Analysis to Assess Concrete Cover Degradation in Accelerated Corrosion Tests
Authors: F. Recha, K. Yurkova, T. Krykowski
Journal: Materials

Title: Estimation method of corrosion current density of RC elements
Author: F. Recha
Journal: Open Engineering

Title: Application of a Generalized Utility Function to Determine the Optimal Composition of Geopolymer Mortar
Authors: M. Kępniak, F. Recha, P. Prochoń
Journal: Materials

Title: Experimental Verification of the Model for Estimating the Corrosion Current of Reinforcement in an RC Element
Authors: F. Recha, W. Raczkiewicz, K. Bacharz, A. Wójcicki, P. Bujňáková, P. Koteš
Journal: Materials

CONCLUSION

Faustyn Recha demonstrates a strong integration of academic knowledge and practical expertise in civil engineering. Research activities, teaching engagements, and industrial collaborations reflect a commitment to innovation, precision, and long-term infrastructure sustainability. By focusing on corrosion-induced degradation and material performance, Recha contributes meaningfully to modern construction challenges. Recognition from academic and professional circles confirms the value and originality of the work. Continued development of new methods, publication of impactful findings, and involvement in structural innovation underline the role as a thought leader in civil engineering and material durability.

Wioletta Raczkiewicz – Materials Science and Engineering – Best Researcher Award

Posted on by Civil

Wioletta Raczkiewicz - Materials Science and Engineering - Best Researcher Award

Kielce University of Technology - Poland

AUTHOR PROFILE

SCOPUS
GOOGLE SCHOLAR
ORCID

SUMMARY

Wioletta Raczkiewicz is a civil engineering expert with extensive academic and professional engagement in concrete structures, building renovation, and historic building conservation. With nearly three decades of involvement in technical education and structural research, the profile is marked by progressive academic roles at Kielce University of Technology. Key contributions include the development of stochastic models for fiber-reinforced concrete and ongoing dedication to educational and architectural engineering excellence. Current responsibilities as Associate Professor include teaching, mentoring, and research leadership in advanced concrete technologies and structural diagnostics.

EDUCATION

Earned a Master of Engineering in Civil Engineering in 1994 from Kielce University of Technology, with a specialization in Building Renovations and Historic Conservation. The thesis focused on adaptive reconstruction of Villa Zielona into a guesthouse. In 2008, completed a Doctor of Technical Sciences degree in Civil Engineering, specializing in Concrete Structures. The doctoral dissertation investigated stochastic parameter distributions in fiber-reinforced concrete under variable loading, reflecting a high level of analytical and modeling capability within modern structural engineering contexts.

PROFESSIONAL EXPERIENCE

Began professional career in 1995 at the Research Institute of Roads and Bridges in Warsaw, Kielce branch, as a technologist. Continued academic work at Kielce University of Technology from 1997 onward across multiple faculty transformations, evolving from early technical roles to current designation as Associate Professor since December 2023. Over the years, responsibilities have included curriculum development, scientific research, and faculty service. Academic progression reflects long-term contributions in concrete technology, civil infrastructure diagnostics, and the integration of historic and modern construction methods.

RESEARCH INTEREST

Focus areas include fiber-reinforced concrete behavior under variable loads, stochastic modeling in structural engineering, diagnostics of construction materials, and conservation technologies for historical buildings. Interested in the development of innovative rehabilitation solutions and structural assessments through computational and empirical approaches. Emphasizes interdisciplinary integration between modern construction science and architectural heritage preservation. Research aims at improving reliability and sustainability of concrete structures while advancing methodologies in structural health monitoring and damage prediction under real-world operational conditions.

AWARD AND HONOR

Recognized within institutional settings for consistent academic performance and contributions to structural engineering research. While no international honors are explicitly listed, appointment to Associate Professor reflects institutional acknowledgment of scholarly merit and educational impact. Continued involvement in faculty development and mentoring underscores professional credibility and recognition within the academic engineering community. Contributions to doctoral supervision and peer-reviewed scientific work further illustrate recognition and trust in research excellence and educational leadership in civil engineering.

RESEARCH SKILL

Possesses advanced capabilities in stochastic modeling, finite element analysis, material diagnostics, and structural assessment techniques. Proficient in the application of probabilistic methods to evaluate concrete behavior under stress conditions. Skilled in developing interdisciplinary projects involving historic building technologies and sustainable construction practices. Demonstrates technical proficiency in laboratory methods for testing fiber-reinforced composites and interpreting complex data sets for real-world engineering applications. Also experienced in supervising engineering theses and managing collaborative academic research projects with a focus on reliability and material performance.

PUBLICATIONS TOP NOTED

Authored several technical publications in the field of concrete structures and structural modeling. Focus areas in these works include reliability assessment of fiber-reinforced materials and diagnostic techniques in civil engineering structures. Publications contribute to ongoing discourse in probabilistic evaluation of construction materials and are regularly cited within specialized journals of civil engineering and materials science. Key works also address structural behavior under dynamic and cyclic loads, further emphasizing expertise in advanced analysis of concrete and historical restoration frameworks.

Title: Reinforcement corrosion testing in concrete and fiber reinforced concrete specimens exposed to aggressive external factors
Authors: W. Raczkiewicz, M. Bacharz, K. Bacharz, M. Teodorczyk
Journal: Materials

Title: Determination of the linear correlation coefficient between Young’s modulus and the compressive strength in fibre-reinforced concrete based on experimental studies
Authors: A. Czajkowska, W. Raczkiewicz, M. Ingaldi
Journal: Production Engineering Archives

Title: Innovative strengthening of RC columns using a layer of a fibre reinforced concrete
Authors: P. Koteš, M. Vavruš, W. Raczkiewicz
Journal: Acta Polytechnica CTU Proceedings

Title: Temperature impact on the assessment of reinforcement corrosion risk in concrete by galvanostatic pulse method
Authors: W. Raczkiewicz, A. Wojcicki
Journal: Applied Sciences

Title: Use of polypropylene fibres to increase the resistance of reinforcement to chloride corrosion in concretes
Author: W. Raczkiewicz
Journal: Science and Engineering of Composite Materials

CONCLUSION

Wioletta Raczkiewicz exemplifies scholarly excellence in civil engineering, particularly in structural analysis and building conservation. The academic and research trajectory demonstrates a commitment to combining theoretical modeling with practical engineering applications. Contributions to educational development, research innovation, and technical diagnostics reinforce a leadership position within the field. With a stable academic tenure and impactful scientific output, the profile remains a valuable asset to structural engineering advancement, especially in concrete technologies and heritage restoration methodologies.

Faustyn Recha | Civil Engineering | Academic Achievement in Civil Engineering Award

Posted on by Civil

Dr. Faustyn Recha | Civil Engineering | Academic Achievement in Civil Engineering Award

Assistant professor at Academy of Silesia, Poland.

Dr. Faustyn Recha, PhD, C.Eng, is a passionate civil engineering researcher and practitioner from Poland 🇵🇱. With expertise in reinforced concrete durability and structural mechanics 🏗️, he merges academic rigor with practical design. He earned his PhD in Civil Engineering and Transport in 2021, focusing on modeling reinforcement corrosion 🧪. Currently, he serves as an Assistant Professor at the Academy of Silesia, where he teaches and conducts innovative research 👨‍🏫. Dr. Recha is the author of over 200 technical designs and multiple scientific publications 📚. He collaborates internationally with institutions in Germany, Slovakia, China, and the USA 🌍. In addition to research, he is involved in structural inspections, prefabrication innovations, and has developed a patented balcony slab connection system 🔧. His career is a blend of science, teaching, and hands-on engineering — continuously pushing boundaries in civil infrastructure 💡.

Professional Profile

Scopus

ORCID

Google Scholar

Suitability for Academic Achievement in Civil Engineering Award – Dr. Faustyn Recha

Dr. Faustyn Recha exemplifies what this award represents — exceptional academic performance, original research, and meaningful impact on civil engineering education and practice. He demonstrates consistent scholarly excellence, leadership in academic settings, and contributions that merge scientific advancement with industry relevance. From high-level research to real-world design, his career highlights a dedication to elevating civil engineering standards.

Education 

Dr. Faustyn Recha began his academic journey by graduating with distinction from high school in Psary in 2010 🎓. He earned his B.Eng. (2014) and M.Sc. (2015) in Civil Engineering from the Częstochowa University of Technology 🏫, specializing in Building and Engineering Structures 🏗️. Passionate about deeper inquiry, he pursued a PhD at the Silesian University of Technology, completing it in 2021 🧠. His doctoral thesis focused on modeling the degradation of reinforced concrete due to reinforcement corrosion, combining thermomechanical theory and experimental verification 🔬📐. This solid educational foundation underpins his academic and engineering expertise.

Professional Development 

Dr. Recha’s professional journey began in 2015 in a reinforced concrete design studio 🏢. Alongside his doctoral studies from 2016, he gained hands-on experience in design offices and achieved full construction qualifications in 2018 🔧📐. Since 2021, he has served as an Assistant Professor at the Academy of Silesia, teaching subjects such as concrete structures, mechanics, and corrosion science 👨‍🏫. He has also coordinated the Civil Engineering discipline at the academy since 2022 🏛️. Internationally active, Dr. Recha completed scientific internships in Germany 🇩🇪 and Slovakia 🇸🇰, and maintains collaborations with researchers in China and the USA 🌐. His dual role as an academic and practicing engineer bridges research with real-world construction applications. As a designer, he has authored over 200 construction designs, assessments, and structural analyses 🧱🧮. His contributions reflect a dynamic blend of research, education, and professional engineering excellence 💼📊.

Research Focus Area 

Dr. Faustyn Recha’s research primarily focuses on the durability and degradation of reinforced concrete structures under corrosion effects 🏗️⚙️. His work centers around modeling corrosion-induced damage in reinforced concrete elements, with an emphasis on thermomechanical and electrochemical processes 🔬🧪. He has developed advanced numerical models to predict crack propagation and structural degradation using parameters like corrosion current density and volumetric strain tensors 💡📊. Dr. Recha’s studies also include non-invasive diagnostic methods, aiming to estimate corrosion current based on deflection – a significant step in preventive infrastructure maintenance 🛠️. His research is deeply relevant to sustainable construction, extending the life of concrete structures and reducing repair costs 🔍♻️. With collaborations across Europe and Asia 🌍, he bridges scientific theory with structural safety and real-world application, ensuring his research contributes meaningfully to the field of civil engineering infrastructure and materials science 🧱🌐.

Research Skills 

Dr. Recha brings an impressive array of research skills to the civil engineering domain 📘🧪. He excels in numerical modeling, particularly Finite Element Method (FEM) simulations for analyzing stress, deflection, and crack propagation in reinforced concrete elements 💻🔍. He is skilled in experimental verification, having conducted advanced lab testing to correlate corrosion levels with structural behavior ⚗️📏. His work in thermo-mechanical coupling and electrochemical modeling reflects high proficiency in cross-disciplinary research 🔄🧠. Dr. Recha is also proficient in probabilistic simulation methods such as Monte Carlo analysis for assessing model sensitivity under uncertainty 🎲📈. In addition to technical modeling, he demonstrates strong analytical writing, technical reporting, and journal publication skills 📝📚. His ability to integrate theoretical models with real-world applications — including construction diagnostics and structural design — makes him a rare blend of researcher and practitioner ⚙️🏗️. He also actively contributes to academic peer review and interdisciplinary collaborations 🤝🌍.

Awards & Honors

Dr. Faustyn Recha’s dedication to civil engineering has earned him multiple honors and recognitions 🏆. He received a prestigious Rector’s Scholarship from the Silesian University of Technology for academic excellence 🎓🌟. In 2020, he was awarded second place in the poster session for young scientists at the 66th Conference of the Polish Academy of Sciences 🖼️🥈. His achievements also include top placements in the “Modern Engineer” competition organized by the Silesian Chamber of Construction Engineers, securing 4th and 7th places in 2018 and 2019 respectively 🏗️🎯. His growing reputation as a researcher and educator has led to international internship invitations and reviewer roles in scientific journals 📄🌍. In addition, his patent-pending innovation for prefabricated slab connections underlines his contribution to practical engineering and technological advancement ⚙️📑. These awards reflect his consistent pursuit of excellence in both academic and industrial domains.

Publication Top Notes

1. A Cracking Model for Reinforced Concrete Cover Taking Account of the Accumulation of Corrosion Products in the ITZ Layer, and Including Computational and Experimental Verification

  • Authors: T. Krykowski, T. Jaśniok, F. Recha, M. Karolak

  • Journal: Materials, 13(23), Article 5375

  • Year: 2020

  • Citations: 16

  • Summary:
    This paper presents a comprehensive model for simulating the cracking of reinforced concrete (RC) covers, with special attention to the interfacial transition zone (ITZ) between the steel and concrete. It accounts for the accumulation of corrosion products, which induces expansive stresses leading to cracking. Both computational simulations and experimental results are provided, confirming the model’s effectiveness in predicting crack initiation and propagation due to rebar corrosion.

2. The Simulation of Corrosion Degradation of Concrete Specimen in Stationary Heat and Moisture Conditions

  • Authors: F. Recha, T. Jaśniok, T. Krykowski

  • Journal: Architecture, Civil Engineering, Environment, 10(4)

  • Year: 2018

  • Citations: 6

  • Summary:
    This study uses numerical simulations to analyze the degradation of concrete due to corrosion under constant thermal and moisture conditions. The results show how environmental stability influences the rate of corrosion and crack formation. The simulation helps in understanding the long-term performance of RC structures exposed to consistent environmental stressors.

3. Estimation Method of Corrosion Current Density of RC Elements

  • Author: F. Recha

  • Journal: Open Engineering, 13(1), Article 20220430

  • Year: 2023

  • Citations: 4

  • Summary:
    The paper introduces a new method to estimate corrosion current density in RC elements. The method is based on measurable physical parameters and provides a practical tool for engineers to assess corrosion levels without invasive testing. It contributes to better monitoring and prediction of RC degradation.

4.Numerical simulation of the load-bearing capacity decrease of reinforced concrete structure due to reinforcement corrosion

  • Authors: F. Recha, T.J. Krykowski, T. Jaśniok

  • Conference: 15th Int. Conf. on New Trends in Statics and Dynamics of Buildings

  • Year: 2017

  • Citations: 4

  • Summary:
    This conference paper details a numerical study of how reinforcement corrosion reduces the load-bearing capacity of RC structures over time. The simulation includes the progressive loss of cross-section and bond strength, providing insight into long-term structural performance and failure risks due to corrosion.

5.Principles for conducting periodic technical inspections of buildings in terms of safety and use

  • Authors: F. Recha, P. Nagel

  • Journal: BUILDER, 295(2), pp. 12–14

  • Year: 2022

  • Citations: 3

  • Summary:
    A practical article outlining procedures and legal requirements for routine inspections of buildings. It emphasizes safety, usability, and the early detection of degradation phenomena such as corrosion. The paper serves as a guideline for engineers and inspectors to ensure compliance and structural integrity.

6. Application of Interval Analysis to Assess Concrete Cover Degradation in Accelerated Corrosion Tests

  • Authors: F. Recha, K. Yurkova, T. Krykowski

  • Journal: Materials

  • Year: 2023

  • Citations: 2

  • Summary:
    This research explores the use of interval analysis to model and evaluate the degradation of concrete covers during accelerated corrosion testing. The interval approach allows for uncertainty in material properties and measurement data, offering a more robust assessment tool for interpreting test results in corrosion studies.

Conclusion

Dr. Faustyn Recha is an ideal recipient of the Academic Achievement in Civil Engineering Award. His blend of rigorous research, innovative thinking, and educational leadership defines him as a transformative figure in modern civil engineering academia. With a PhD that breaks new ground, significant teaching responsibilities, and global collaboration, Dr. Recha not only achieves academic excellence — he inspires it in others. Recognizing his work would honor a career committed to advancing civil engineering knowledge, resilience, and practice.

Anis Asadi Ardebili – Construction Management – Best Researcher Award

Posted on by Civil

Anis Asadi Ardebili - Construction Management - Best Researcher Award

Polytechnic university of Madrid - Australia

AUTHOR PROFILE

SCOPUS

SUMMARY

Anis Asadi Ardebili is a research-driven architectural and building innovation specialist focused on sustainable material development and construction practices. With advanced academic training from the Polytechnic University of Madrid, he contributes to the integration of technological innovations in civil and architectural engineering. His work explores material reuse, urban sustainability, and performance optimization of construction systems. His academic pursuits are reinforced by practical experience in design and teaching, providing a holistic approach to research, education, and innovation. He continues to contribute to high-impact publications and international academic platforms in architecture, construction materials, and environmental building practices.

EDUCATION

Completed advanced studies in architecture and technological innovation in building across prominent Iranian and Spanish institutions. Gained specialized knowledge in public building design, ethnomusicological space planning, and architectural identity through bachelor's, master’s, and doctoral programs. Key academic contributions include architectural thesis projects focusing on cultural and urban design themes. His PhD at the Polytechnic University of Madrid centers on sustainable construction materials and technological improvements in building performance. Academic mentors and institutional affiliations have shaped his multidisciplinary understanding of architecture, design theory, and building technology within both traditional and contemporary contexts.

PROFESSIONAL EXPERIENCE

Experience spans academic instruction and applied architectural research. Contributed as a lecturer and teaching assistant in foundational architecture courses, engaging with large student groups and assisting in curriculum design and evaluation. Responsibilities included delivering lessons on geometry, perspective, and architectural comprehension. Additionally, collaborated on academic research addressing environmental and technological aspects of architecture. Through these roles, demonstrated a commitment to pedagogical clarity and intellectual development in design education. Professional practice also includes analyzing architectural identity and sustainable urban growth, merging theoretical research with practical applications to inform innovative and eco-conscious construction solutions.

RESEARCH INTEREST

Research focuses on sustainable construction technologies and material innovation. Key areas include optimization of grout mixtures using industrial waste and alternative binders, and evaluating their performance under variable environmental conditions. Investigates how recycled materials from demolition and automotive sectors can enhance the mechanical and ecological performance of building composites. Also explores energy-efficient rehabilitation of public buildings and user-centered design strategies. Broader interests extend to assessing the environmental footprint of construction practices and incorporating human-centric parameters in architecture for urban sustainability, thermal comfort, and resource efficiency in contemporary and historical architectural contexts.

AWARD AND HONOR

Recognized for contributions to civil engineering research and architectural sustainability, particularly in advancing material reuse and energy-efficient construction strategies. Participated in national and international collaborations that highlight emerging research on waste incorporation into construction materials. Award considerations stem from academic excellence, multidisciplinary research outcomes, and commitment to environmentally responsible design. Engagement with institutions in Spain and Iran positions his research as globally relevant, aligning with both academic and industry-driven goals in sustainable development. Future accolades are anticipated from his ongoing submissions to high-impact journals and participation in research symposiums and sustainability initiatives.

RESEARCH SKILL

Proficient in material testing, performance evaluation, and comparative analysis of composite systems. Skilled in designing experimental studies involving recycled waste incorporation into gypsum and cementitious products. Adept in analyzing thermal comfort parameters in architectural spaces and assessing environmental impacts using quantitative and qualitative methods. Possesses architectural design abilities informed by cultural context and urban dynamics. Combines technical laboratory skills with theoretical understanding of sustainable design. Research capabilities are further demonstrated through contributions to peer-reviewed publications, manuscript development, and academic instruction in architectural fundamentals and design-oriented problem-solving.

PUBLICATIONS TOP NOTED

Published multiple peer-reviewed articles in journals such as Materials in Civil Engineering and Construction and Building Materials. Noteworthy publications include: "Mechanical characterization of gypsum-based composites with single-use sling waste fibers," and "Mechanical characterization of gypsum mortars with waste from the automotive sector." Other key works examine urban tourism's impact on sustainability and identity in Iranian architecture. A submitted manuscript titled "Thermal Comfort and Energy Efficiency in Public Building Rehabilitation" reflects a growing focus on integrating building science with user needs. These works reflect a blend of material science, environmental responsibility, and urban design.

CONCLUSION

Anis Asadi Ardebili’s academic and research trajectory demonstrates a strong commitment to sustainable building practices and innovative architectural solutions. His interdisciplinary focus connects material technology with urban development and human-centered design. With expertise in both theoretical analysis and applied research, he bridges the gap between tradition and innovation in architecture. His dedication to advancing environmentally conscious construction methods and engaging in impactful teaching solidifies his position as a forward-thinking contributor to architectural education and civil engineering research. Continued publication, research collaboration, and educational leadership will define the next phase of his career.