Muhammad Kashif Anwar | Sustainable infrastructure And Green materials | Best Researcher Award

Mr Muhammad Kashif Anwar | Sustainable infrastructure And Green materials | Best Researcher Award

Master Student/Research Assistant, Tongji University, China

Muhammad Kashif Anwar is a researcher and faculty member at Tongji University, Shanghai, China, specializing in civil engineering, particularly construction and pavement materials. He is known for his expertise in the utilization of waste materials in concrete and asphalt, aiming to promote sustainability in infrastructure. With a focus on advanced materials science, he is deeply involved in studying concrete and polymer composites’ performance under various conditions. Dr. Anwar has contributed significantly to the development of eco-friendly and circular economy-based solutions in the construction industry.

Profile

Google Scholar

Strengths for the Award

Muhammad Kashif Anwar is an exemplary candidate for the Best Researcher Award due to his extensive and impactful contributions to the field of civil engineering, specifically in the areas of sustainable construction materials and environmentally-friendly practices. His research on utilizing waste materials in concrete, asphalt, and polymer composites highlights a commitment to advancing circular economy concepts within the construction industry. With over 40 published papers in reputable international journals, his work on sustainable infrastructure and the development of eco-friendly materials stands out for its relevance to climate change mitigation and green construction. Dr. Anwar’s application of advanced decision-making tools, machine learning techniques, and digital simulations in optimizing construction materials is a testament to his innovative approach and technical expertise.

Furthermore, his consistent collaborations with international researchers and participation in high-impact publications demonstrates his leadership in the field. His work is frequently cited, reflecting the high influence and practical application of his research in real-world scenarios.

Key strengths include

  • Innovative application of waste materials in construction (e.g., fly ash, polymer composites, silica fume).
  • Expertise in circular economy and sustainability in civil engineering.
  • Development of advanced decision-making frameworks and machine learning models.
  • Cross-disciplinary collaboration with researchers from diverse fields such as environmental science and disaster management.

Areas for Improvement

While Dr. Anwar’s research is outstanding, there are areas where continued growth could further enhance his already impressive profile:

  1. Greater Focus on Commercialization and Industry Implementation: Though his work on sustainable materials is highly promising, exploring pathways to bring these innovations to the construction industry at a larger scale would help bridge the gap between research and industry adoption. His involvement in pilot projects or industry partnerships could push his research into practical, real-world applications.
  2. Interdisciplinary Research Integration: Expanding his work into even more interdisciplinary fields, such as energy-efficient building design or smart city infrastructure, could open new avenues for innovation and impact.
  3. Broader Geographic Reach: While his work has substantial influence in Asian regions, collaborating with researchers in other geographically diverse regions could diversify his research’s global impact and widen its applicability to different construction environments.

Education

Dr. Anwar holds a Ph.D. in Civil Engineering from Tongji University, Shanghai, China. His academic journey is centered on sustainable construction materials, with a special emphasis on the mechanical properties of concrete and asphalt mixtures, utilizing alternative and waste-based materials. His research is rooted in the goal of achieving sustainable development in the construction sector, focusing on enhancing material performance while reducing environmental impact.

Experience

Dr. Anwar has extensive experience as a researcher and faculty member at Tongji University. He has collaborated on numerous interdisciplinary projects involving the optimization of construction materials, including self-compacting concrete, polymer concrete composites, and asphalt mixtures. He has also been actively involved in developing sustainable infrastructure solutions, employing advanced techniques such as machine learning and digital analysis. His work includes both experimental and numerical simulation studies, contributing to the advancement of construction technology and disaster risk management frameworks.

Awards and Honors

Dr. Anwar has received recognition for his contributions to the field of civil engineering, particularly in sustainability and construction materials. His work on sustainable concrete, polymer composites, and circular economy applications has earned him several accolades and awards. He has also been featured in prominent academic journals and recognized by international organizations for his innovative research in eco-friendly materials and the development of green construction technologies.

Research Focus

Dr. Anwar’s research focuses on developing sustainable construction materials that promote environmental sustainability. Key areas include the optimization of concrete and asphalt mixtures using waste materials, the application of polymer composites for circular economy solutions, and improving material performance under varying environmental conditions. He is also focused on advancing the application of digital techniques and machine learning in predicting material properties and optimizing construction practices for sustainable infrastructure development.

Publication Top Notes

  • Analysis of mechanical properties of self-compacted concrete by partial replacement of cement with industrial wastes under elevated temperature (2018) 🏗️
  • Scientific risk performance analysis and development of disaster management framework: a case study of developing Asian countries (2021) 🌍
  • Utilization of polymer concrete composites for a circular economy: A comparative review for assessment of recycling and waste utilization (2021) ♻️
  • Recycling and utilization of polymers for road construction projects: An application of the circular economy concept (2021) 🚧
  • Optimization of fresh and mechanical properties of sustainable concrete composite containing ARGF and fly ash (2023) ⚙️
  • Marshall stability and flow analysis of asphalt concrete under progressive temperature conditions (2020) 🌡️
  • Numerical Simulations of GFRP-Reinforced Columns Having Polypropylene and Polyvinyl Alcohol Fibers (2020) 🏢
  • Predicting compressive strength of blast furnace slag and fly ash based sustainable concrete using machine learning techniques (2022) 🤖
  • Performance optimization approach of polymer modified asphalt mixtures with PET and PE wastes (2022) 🔄
  • Symmetric performance analysis for mechanical properties of sustainable asphalt materials under varying temperature conditions (2020) 🌡️
  • Utilization of self-consolidated green material for sustainable development (2021) 🌱
  • Structural performance of GFRP bars based high-strength RC columns (2022) 🏗️
  • Performance evaluation of modified bitumen using EPS beads for green and sustainable development (2020) 🛣️
  • Optimization and utilization of waste fly ash and silica fume based eco-friendly geopolymer mortar (2023) ⚒️
  • Utilization of radium-bead material for road safety (2021) 🚸
  • Evaluating the role of AI and empirical models for predicting regional economic growth and transportation dynamics (2024) 🧠
  • Analysis of Aggregate Shape And Texture By Advance Image Analysis Technique (2019) 🖼️
  • Mitigation of CO2 by Improving Efficiency of Cement Use Through production of Eco-friendly LC3 Cement (2020) 🌍

Conclusion

Muhammad Kashif Anwar is an exceptionally deserving candidate for the Best Researcher Award. His contributions to sustainable construction materials, circular economy principles, and climate-conscious infrastructure make him a pioneering researcher in the field of civil engineering. His consistent record of highly cited publications, interdisciplinary collaborations, and application of advanced technologies positions him as a leading expert who is shaping the future of sustainable infrastructure. With continued focus on practical implementation and global outreach, Dr. Anwar can amplify his influence even further. His work embodies the spirit of innovation, sustainability, and scientific advancement, making him a true asset to both academia and the broader construction industry.

Niloufar Salehi – Circular Economy Implementation – Best Researcher Award

Niloufar Salehi - Circular Economy Implementation - Best Researcher Award

KTH Royal Institute of Technology - Sweden

AUTHOR PROFILE

SCOPUS

NILOUFAR SALEHI 🎓

Niloufar Salehi is a dedicated PhD candidate specializing in Circular Manufacturing Systems at KTH Royal Institute of Technology, Stockholm, Sweden. With over five years of experience, she has developed data-driven decision-support tools aimed at facilitating the transition of manufacturing systems to sustainable and circular practices. Her strategic thinking and strong analytical skills have enabled her to tackle complex problems and contribute significantly to her field. Committed to a sustainable future, she aspires to develop innovative solutions that expand academic knowledge in circular manufacturing.

PROFESSIONAL EXPERIENCE 🏢

As a PhD candidate, Niloufar has led data-gathering efforts for several successful European project proposals, significantly contributing to their writing and coordination. Her work in Horizon Europe’s DiCiM project highlights her ability to manage synergies among demonstrators while overseeing impactful dissemination efforts. Through her involvement in the H2020 ReCiPSS project, she has played a crucial role in implementing circularity principles across major industries, such as automotive and white goods manufacturing.

RESEARCH AND DEVELOPMENT 🔍

Niloufar’s research focuses on enhancing Circular Manufacturing Systems through multi-method simulation models. She has designed workshops and analyzed data to create comprehensive “as-is” and “to-be” scenarios, enabling companies to transition from linear to circular supply chains effectively. Her contributions include developing simulation-based decision-support tools that assess the economic, environmental, and technical performance of stakeholders involved in these supply chains, leading to actionable insights for management teams.

TEACHING AND SUPERVISION 📚

Niloufar is also committed to education, having taught courses on Circular Manufacturing Systems at both the master's and PhD levels. She has supervised multiple theses, guiding students in critical research areas related to sustainability and circularity in manufacturing. Her passion for teaching and mentoring has fostered an environment of academic growth and innovation within her department, inspiring the next generation of engineers and researchers.

COLLABORATIVE INITIATIVES 🤝

Throughout her career, Niloufar has established strong collaborations with international universities and research institutes, resulting in impactful publications and innovative projects. Her modeling skills have been recognized in various collaborative publications, showcasing her expertise in system dynamics and the evaluation of competitive scenarios in the circular economy. Her work reflects a commitment to promoting knowledge sharing and partnership within the academic community.

CONTRIBUTIONS TO SUSTAINABILITY 🌱

Niloufar’s dedication to sustainability extends beyond her academic achievements. She has actively participated in initiatives aimed at reducing industrial carbon footprints and enhancing climate change commitments in her home country, Iran. Her research in anaerobic digestion and techno-economic analysis underscores her commitment to finding sustainable solutions that address real-world environmental challenges. Through her work, she aims to drive meaningful change in manufacturing practices towards a more circular and sustainable future.

FUTURE ASPIRATIONS 🌟

Looking ahead, Niloufar Salehi aims to continue her research in circular manufacturing while expanding her influence through innovative collaborations and practical implementations. Her goal is to create lasting impacts on sustainability practices in the manufacturing sector, ensuring that future industries operate within a circular economy framework. As she approaches the completion of her PhD, her vision remains clear: to lead transformative initiatives that pave the way for a sustainable future.

NOTABLE PUBLICATION

Title: Towards circular economy: A guiding framework for circular supply chain implementation
Authors: Amir, S., Salehi, N., Roci, M., Sweet, S., Rashid, A.
Journal: Business Strategy and the Environment
Year: 2023

Title: Consumer Perceptions of the Circular Business Model: A Case of Leasing Strollers
Authors: Asif, F.M.A., Salehi, N., Lieder, M.
Conference Paper: Lecture Notes in Mechanical Engineering
Year: 2023

Title: Towards circular manufacturing systems implementation: A complex adaptive systems perspective using modelling and simulation as a quantitative analysis tool
Authors: Roci, M., Salehi, N., Amir, S., Mihelič, A., Rashid, A.
Journal: Sustainable Production and Consumption
Year: 2022

Title: A comparative life cycle assessment of stretchable and rigid electronics: a case study of cardiac monitoring devices
Authors: Kokare, S., Asif, F.M.A., Mårtensson, G., Roci, M., Salehi, N.
Journal: International Journal of Environmental Science and Technology
Year: 2022

Title: Multi-method simulation modelling of circular manufacturing systems for enhanced decision-making
Authors: Roci, M., Salehi, N., Amir, S., Shoaib-ul-Hasan, S., Rashid, A.
Journal: MethodsX
Year: 2022

Johanna Esguerra Arce – Circular Economy – Waste Reduction and Management Award

Johanna Esguerra Arce - Circular Economy - Waste Reduction and Management Award

University Colombian School of Engineering Julio Garavito - Colombia

AUTHOR PROFILE

GOOGLE SCHOLAR

🎓 EDUCATIONAL BACKGROUND

Johanna Esguerra Arce is a distinguished researcher with a strong foundation in materials science and engineering. Her educational journey laid the groundwork for her specialized focus on developing advanced materials for orthopedic applications.

🔬 RESEARCH FOCUS AND CONTRIBUTIONS

Esguerra Arce's work primarily centers on the development and characterization of composite coatings, such as calcium phosphate–calcium titanate, for orthopedic applications. Her research contributes to enhancing the biocompatibility and functionality of materials used in medical implants, particularly in the context of improving the interaction between bone and implant surfaces.

🏆 NOTABLE PUBLICATIONS

Her notable publications include a significant study on calcium phosphate–calcium titanate composite coatings published in Ceramics International, which has garnered attention for its impact on orthopedic materials. Additionally, she has explored the tribological behavior of bone against calcium titanate coatings and has investigated the electrochemical behavior of such coatings on stainless steel substrates, providing valuable insights into their potential for biomedical applications.

💡 INNOVATION IN MATERIALS ENGINEERING

Esguerra Arce has made significant contributions to the field of powder metallurgy, particularly in the recycling of aluminum alloys and the processing of aluminum powder from mechanical saw chips. Her innovative approach in this area has led to advancements in the sustainable production and utilization of aluminum-based materials.

🧪 BIOCOMPATIBILITY AND TRIBOLOGY

Her work extends to the study of biocompatibility and tribology, where she examines the wear resistance and adherence of various coatings in simulated body fluids. This research is crucial for the development of implants that can better withstand the physiological conditions within the human body.

🌍 COLLABORATIVE RESEARCH

Throughout her career, Esguerra Arce has collaborated with various researchers and institutions, contributing to a broader understanding of biomaterials. Her interdisciplinary approach combines materials science, chemistry, and biomedical engineering, which has significantly impacted the development of more effective and durable orthopedic implants.

📚 ACADEMIC AND PROFESSIONAL ENGAGEMENT

In addition to her research, Johanna Esguerra Arce is actively involved in academic and professional circles, sharing her expertise through publications, conferences, and collaborative projects. Her dedication to advancing knowledge in the field of biomedical materials continues to inspire and influence the next generation of researchers.

NOTABLE PUBLICATION

Calcium phosphate–calcium titanate composite coatings for orthopedic applications.
Authors: Arce, J.E., Arce, A.E., Aguilar, Y., Yate, L., Moya, S., Rincón, C., Gutiérrez, O.
Year: 2016
Journal: Ceramics International

Production and characterization of aluminum powder derived from mechanical saw chips and its processing through powder metallurgy
Authors: Rojas-Díaz, A.E.A.L.M., Verano-Jiménez, L.E., Muñoz-García, E., Esguerra-Arce, J.
Year: 2019
Journal: Powder Technology

The evolution of the microstructure and properties of ageable Al-Si-Zn-Mg alloy during the recycling of milling chips through powder metallurgy
Authors: Pulido-Suárez, P.A., Uñate-González, K.S., Tirado-González, J.G., Esguerra-Arce, J.
Year: 2020
Journal: Journal of Materials Research and Technology

Influence of the Al content on the in vitro bioactivity and biocompatibility of PVD Ti1−xAlxN coatings for orthopedic applications
Authors: Esguerra-Arce, A., Esguerra-Arce, J., Yate, L., Amaya, C., Coy, L.E., Aguilar, Y., et al.
Year: 2016
Journal: RSC Advances

Morteros geopolimericos reforzados con fibras de carbono basados en un sistema binario de un subproducto industrial
Authors: Bernal, S., Esguerra, J., Galindo, J., de Gutiérrez, R.M., Rodríguez, E., et al.
Year: 2009
Journal: Revista Latinoamericana de Metalurgia y Materiales