Nuclear energy offers a response to the fast growing needs for low carbon energy supply in the coming 50 years and has to meet important civil engineering challenges: design of new generation power plants, emerging threats and hazards, increasing the term of operation, operating and dismantling the existing buildings with a strong emphasis on safety and waste management according to the demanding criteria of sustainable development.
Apart from nuclear energy, other industries and all complex civil engineering works need safe structures built with innovative materials, design techniques, construction methodologies and computer aided methods as BIM. These major issues increase the need for high level civil engineering in the world. TINCE has the ambition to provide a support to this need by providing an enrichment of the knowledge and technologies of the nuclear civil engineering and the conventional one. This will be carried out through the scientific and technical exchanges between the specialist working within this very specific industry and also with researchers and industrial practitioners that may face comparable constraints.
In 2013 and 2014, the diversity of subjects and the high quality of the presentations have offered the opportunity to build new partnerships, to rethink the way to cope with issues and to take up more and more interesting challenges. It was the opportunity to build and reinforce a link between generations of civil engineers.
This is also the place to explore feasibility of application of the most innovative and advanced technologies to the exceptional structures of the nuclear sites. Therefore it is important that academics and engineers whose domains are within the field of the topics to join the event. Indeed there are many opportunities for them to find a place of application their new technologies as they will not find easily situations that are more intellectually challenging than the ones that the nuclear industry may generate.
If you are still wondering if TINCE may be the right place for you to share your latest design and construction technologies or your research, or if you are still wondering if the Civil Engineering may find an innovative place in the Nuclear Industry, I warmly invite you to come at TINCE 2016 to be convinced and provide us your highly appreciated scientific contribution.
Advanced Materials
Material Performance and Innovations (concrete, reinforcement, prestressing steel, FRP, anchorages, liner…), Early-age concrete, Mass concrete-heat of hydration, Shrinkage and creep, Prestressing Losses, Tendon relaxation, Impact-proof Materials, Composite materials, Material Databases, Sustainability of concrete, Waterproof concrete, Creep-proof concrete, Workability and pumpability of concrete, Healing concrete, Recycling or reuse of concrete
Design and Hazard Assessment
Standards and Codes of Practice, Analysis Techniques, Reinforced and prestressed concrete design , Innovations in Design, Design for Durability, Beyond Design Basis Accidents, Blast and Impact Design, Impact loads mitigating devices, Climatic and External Hazard Mitigation, Seismic Design, Seismic Isolation Technologies, Design stratefy, Innovations in design, Design for durability, Sustainable design
Civil Works Construction
Assessment of construction Techniques, Innovations in construction, Co-Engineering, Construction Management, Steel Works, Liner Construction, Precast reinforced concrete, Prestressing manufacturer innovations, New construction techniques, Concrete industry innovations, Building Information Modeling (BIM), 4D Techniques
Long Term Operation and Maintenance
Ageing and Assessment of Existing Structures, Plant Life Management (PLiM), Maintenance, Monitoring and inspection, Extended Service Life Prediction, Non destructive examination, Materials for Retrofitting, Fiber optic, Digital image correlation, Health monitoring system, Monitoring devices and technologies, Reinforcement scanning and positioning
Dismantling of Civil Works and Civil Works in Hostile Environment
Design for decommissioning, dismantling and demolition, Dismantling and Demolition Technologies, Spent fuel and waste structures, Construction Management in Hostile Environment, Recycling or reuse of concrete, Construction waste treatment, Processing of contaminated soil, Drones and Robots Aided Construction
Geotechnical Design and Construction and Fluid Structure Interaction
Site Effects, Soil Reinforcement Methods, Soil-Structure Interaction Improvement, Soil-Structure Interaction Design, Geodynamics, Fluid Structure Interaction Design, Deep Burial, Piles and Deep Foundations, Tsunamis Proof Structures, Seawall Construction Techniques, Seawall Design
09月05日
2016
09月09日
2016
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