Dr. Abdulrahman Saeed Omar Badughaish, Tongji university, China
Dr. Abdulrahman Saeed Omar Badughaish π is a PhD candidate in Transportation Engineering at Tongji University, China (2025), focusing on aging rubberized asphalt. He holds a Masterβs degree in Transportation Engineering (2022) and a Bachelor’s degree in Civil Engineering from Aden University, Yemen (2014). π£οΈ His research includes advanced pavement materials and experimental studies using FTIR, SEM, and HWT tests. With 6 peer-reviewed publications, he has earned accolades such as the Best Master’s Thesis Award (2022) and 1st Prize at TIM 2024. π Multilingual in Arabic, English, and Chinese π, he excels in software like AutoCAD, Revit, and GIS. π
Orcid
Education Background π
Dr. Abdulrahman Saeed Omar Badughaish is currently pursuing a PhD in Transportation Engineering at Tongji University, China, with research focusing on pavement materials and the aging behavior of rubberized asphalt π£οΈ. He previously earned his Master’s degree in Transportation Engineering (2022) from Tongji University, where his research also emphasized advancements in rubberized asphalt technology. π Prior to this, Dr. Abdulrahman completed his Bachelor’s degree in Civil Engineering (2014) from Aden University, Yemen, laying a strong foundation in infrastructure and construction engineering. ποΈ His academic journey reflects a dedication to improving transportation infrastructure through innovative materials research. π§
Professional Experience π’
Dr. Abdulrahman Saeed Omar Badughaish has valuable experience as a Construction Project Manager ποΈ, where he served as the Establishment Branch Official in Rukib area, Mukalla City. In this role, he oversaw construction projects and ensured proper facility maintenance. Additionally, he worked as a Consultant Engineer π§ for the Family Care Association in Hadhramaut Governorate, Yemen. His responsibilities included supervising and providing expert guidance on various infrastructure projects. Through these roles, Dr. Abdulrahman demonstrated exceptional leadership, technical skills, and a commitment to delivering high-quality construction and maintenance solutions. π οΈ
Achievements π
Dr. Abdulrahman Saeed Omar Badughaish has made remarkable accomplishments in his academic and professional journey. He has published six scientific papers in international peer-reviewed journals π. From 2019 to 2022, he served as the Cultural Ambassador π for the College of Transportation Engineering at Tongji University. Honored as a global talent π by Tongji University and the Bank of China, his master’s thesis, titled “Improving Adhesion Property of Rubberized Asphalt by Solution Soaking Method” π£οΈ, was recognized as the Best Thesis in 2022. He also won first prize π₯ at the 7th International Conference on TIM 2024 and received the Excellence Award π₯ in Shanghai for urban sustainability leadership. Additionally, he secured the second prize π₯ for Tongji University’s President Scholarship (2022-2023). π
Experimental Experience π¬
Dr. Abdulrahman Saeed Omar Badughaish possesses extensive hands-on expertise in advanced experimental techniques. His experience includes Fourier Transform Infrared (FTIR) spectroscopy for material analysis π§ͺ, Fluorescent Microscopy (FM) π, and Scanning Electron Microscopy (SEM) for microstructural observation π₯οΈ. He is proficient in Dynamic Shear Rheometer (DSR) testing, Pull-off tests, Hot Tube tests, and Grey Rational Analysis (GRA) π. Additionally, he has performed Penetration and Softening Point tests to evaluate material properties. Dr. Badughaish also conducted Water Boiling tests, Indirect Tensile Strength tests, Wheel Tracking (HWT) π£οΈ, and Thin-Layer Chromatography with Flame Ionization Detection (TLC-FID) for comprehensive material performance analysis. π§
Certifications π
Dr. Abdulrahman Saeed Omar Badughaish has earned numerous certifications to enhance his technical and professional skills. He is proficient in AutoCAD software π₯οΈ, Etabs software for structural analysis, and has completed courses on Level devices and Total Station devices for engineering measurements. He is trained in First Aid during emergencies π and has honed his skills in Creative Thinking π‘. Additionally, he completed programs on Communication and Representational Systems π£οΈ, earned an Automatic Secretary Diploma π, and participated in the Mubadara-Youth Entrepreneurship Program to cultivate leadership and entrepreneurial abilities. π
Research Focus
Dr. Abdulrahman Saeed Omar Badughaishβs research primarily revolves around pavement engineering and advanced asphalt materials. His focus lies in crumb rubber-modified asphalt β»οΈ, emphasizing chemical pre-treatment, rejuvenation mechanisms, and aging effects to enhance performance and sustainability. Through studies published in esteemed journals like Journal of Cleaner Production and ACS Sustainable Chemistry & Engineering, he explores surface chemistry, rheological properties, and fatigue life of recycled asphalt. His work integrates innovative techniques like solution soaking methods π¬ and morphological analysis to optimize rubberized asphalt properties. With contributions to sustainability, recycling, and material behavior, his research aligns with eco-friendly infrastructure goals. π
Publication Top Notes
- Impact of chemical pre-treatment on crumb rubber for coating property of rubberized asphalt π οΈ
Journal of Cleaner Production, 2024
- Modeling Influence of Aging and Rejuvenation Mechanisms on the Recycled Asphalt Pavement (RAP) Binder Fatigue Life π
ACS Sustainable Chemistry & Engineering, 2024
- Morphological and rheological investigation of emulsified asphalt/polymer composite π§ͺ
International Journal of Transportation Science and Technology, 2024
- The effect of solution soaking pretreatments on the surface chemistry of crumb rubber π¬
Journal of Rubber Research, 2022 | Cited by: 7
- A review on the crumb rubber-modified asphalt in the Middle East π
Journal of Material Cycles and Waste Management, 2022 | Cited by: 5
- Adhesion and segregation characteristics of crumb rubberized binders π€
Journal of Cleaner Production, 2022 | Cited by: 10