Dr Bai specialises in sustainable materials and structural systems, with emphasis on technical advances in low carbon materials and structural systems. His work has been broadly based within the field of concrete science / technology, structural systems and computational optimization, involving research, consultancy, learning and teaching.
He has also been actively involved in international collaborations with partners in Europe and Asia.
Skills And Qualifications
Lead and co-ordinate research activity in the subject
Lead research and collaborative partnerships with external and industrial partners
Interact easily with others to create a stress-free environment
Professional organisational work as editorial board members of Journal and conferences
Networking and collaborating
Be ahead of the curve on innovations in my field
Interests
Photography
Walking
Playing badminton
Responsibilities
Concrete technology
Computational intelligence applications in civil engineering
Mechanics of materials and structures
Structural analysis and design
Building Information Modelling (BIM)
Structural engineering
Publications And Past Projects
AI-based Structural Health Monitoring
Artificial Neural Networks for Predicting Concrete Strength
Durability, Service Life Estimation and Mix Design of Concrete Using an Expert System
Modelling and Analytical Assessment of the Effects of Deposits and Structural Deterioration on Flow Efficiency in Oil and Gas Pipelines for Integrity Management
Static and Dynamic Performance and Design Applications of Steel Beam-Column Connections with Unfitted Stiffeners
Innovative New Construction Applications of Treated Recycled Aggregates Arising from Construction and Demolition (C&D) Waste
Advanced Fibre-Reinforced Polymer (FRP) Composites for Structural Applications
ECOnetus - Support for networks creation in the field of Global Change and ECOsystems
Waste Minimisation through Recycling, Re-use, and Recovery in Industry
Development of analytical technique for concrete durability and assessment of its suitability for applications
Thermal performance of steel lintels and their effect on the energy usage of the building
Low Carbon Steel Lintel Product Development and Conformity Assessment for CE Marking
The Development of A Low-Cost Low-Energy Cement from Waste
Wastepaper Sludge Ash (WSA) Cement
Technological Development of Metakaolin-PFA-PC Blends to Produce High Performance Concrete
Hydration, Pore Development and Chemical Resistance of MK-FA-PC Blends
The Development of Metakaolin as An Accelerating Admixture
The Development of a Rapidly Setting Pipe-Bedding Material from Wastepaper Sludge Ash (WSA)
Innovative Low-Cost Precast Slate Concrete Products and Slate Sintering Process Optimisation
Optimization of Polypropylene Fibres for Concrete Using Slate Aggregate
Investigation of the Use of Wood Wool with Cementitious Materials for Production of Construction Products with High Thermal Resistance
Investigation into Innovative Low-Cost Use of BOS Filter Cake in Concrete Products