Concrete and Earthquake Engineering Research Group

Department of Civil & Structural Engineering

Dr Maurizio Guadagnini

Senior Lecturer
Maurizio Guadagnini

+44 (0)114 222 5757

Department of Civil and Structural Engineering
Sir Frederick Mappin Building
Mappin Street,
S1 3JD


Maurizio Guadagnini is a Senior Lecturer in the Department of Civil and Structural Engineering of the University of Sheffield. He has more than 15 years of research experience in the field of experimental mechanics and advanced modelling of concrete elements utilising both conventional and novel reinforcing systems.

He is the secretary and active member of Task Group 9.3 of the International Federation for Structural Concrete (fib), member of the council of the International Institute for FRP in Construction (IIFC) and member of two RILEM Technical Committees on strengthening of masonry and concrete structures. Dr Guadagnini is the chair and manager of COST Action TU1207 (Next Generation Design Guidelines for Composites in Construction), which currently counts more than 150 participants from 33 countries. He is also the coordinator of the MC ITN Network endure for Durable Reinforcement and Rehabilitation Solutions. The Network comprises 13 academic partners, 1 industry partner and 10 industry associated partners and has a total budget of €3.9M.

He has participated in several EU and nationally funded projects and he is currently involved in the the FP7 funded project Anagennisi, which examines the Innovative Use of all Tyre Components in Concrete.

Recent activities and achievements

  • Chair of COST Action TU1207 on ‘Next Generation Design Guidelines for Composites in Construction’. Action TU1207 aims to coordinate the wide FRP community, including research teams, learned groups (fib, RILEM, CEN), manufacturers and distributors. Action TU1207 has officially started on 12 April 2013 and can already count the support of 23 COST countries and more than 100 researchers and manufacturers.
  • Coordinator of MC ITN endure. The endure network started in October 2013 and will operate for four years. It comprises 13 academic partners, 1 industry partner and 10 Industry associated partners. The network investigates issues related to key priority areas, including seismic rehabilitation and strengthening and a new whole-life performance based philosophy of design. The network will deliver 500 months of training and employ 12 Early Stage Researchers and 5 Experienced Researchers.
  • Secretary of Task Group 9.3 on FRP Reinforcement of the International Federation for Structural Concrete (fib). Work within this TG enabled the development of strong International academic and industrial links.


Postgraduate Certificate in Learning & Teaching, The University of Sheffield, UK, 2009
PhD in Civil and Structural Engineering, University of Sheffield, UK, 2002
Laurea in Structural Engineering, Universita` degli Studi di Bologna, Italy, 1997

Research project(s)

COST Action TU1207

Action TU1207 leverages the already large amount of work carried out on the use of composite reinforcement for structural applications by individual research teams and existing learned groups. Action TU1207 was established in 2013 and operated until 2017. During these four years the Action aimed: to coordinate European research in...


Innovative Use of all Tyre Components in Concrete
Anagennisi: Innovative Use of all Tyre Components in Concrete An estimated one billion tyres are discarded each year. Post-Consumer tyre arisings for EU countries (2010) are 3.4M tonnes per year. At the moment nearly 50% of all recycled tyres/components still end up as fuel, in low grade applications or in...

Clean steel

Clean steel: Re-use of steel cord from tyres as reinforcement in sustainable construction Concept: A method has recently been developed for recovering very high strength steel cord (RTSC) from the significant volumes of pre-vulcanised rubber waste generated during the manufacture of car and truck tyres. Preliminary research has shown this...


(2012). Bond of FRP strengthening systems for concrete structures: A round robin test. In Bridge Maintenance, Safety, Management, Resilience and Sustainability - Proceedings of the 6th International Conference on Bridge Maintenance, Safety and Management (pp. 1179-1186), Abstract: Although various test methods to examine the local bond behaviour of FRP strengthening systems to concrete have been proposed thus far, their implementation can lead to a wide range of results and a standard methodology has yet to be generally accepted. With these issues in mind, a Round Robin...
(2012). Round robin test on the bond behaviour of externally bonded FRP systems to concrete. In The 6th International Conference on FRP Composites in Civil Engineering - CICE 2012 , Abstract: The reliable characterisation of the bond behaviour of an FRP system bonded to concrete is critical for the optimal design and detailing of a strengthening solution. Although various test methods to examine the bond behaviour of externally bonded FRP systems have been proposed thus far, their...
(2012). A new framework for earthquake risk assessment in developing countries. In Proceedings of the 15th World Conference on Earthquake Engineering (15 WCEE) , Abstract: Modern Probabilistic Seismic Hazard Assessment (PSHA) methods usually require seismo-tectonic information that is not readily available in many developing countries. In this study, a new event based PSHA method is developed based on instrumental seismicity and limited information on historical...
(2012). Double shear tests for characterisation of bond between FRP EBR and concrete. In Proceedings of the 3rd Asia-Pacific Conference on FRP in Structures (APFIS 2012) , Abstract: The strengthening potential of FRP Externally Bonded Reinforcement (EBR) is already well established. However, the optimum design of FRP systems cannot yet be achieved due to premature debonding. Despite the large amount of research efforts, existing bond capacity models still lead to either...
(2012). Predicting the shear resistance of RC beams without shear reinforcement using a Bayesian neural network. International Journal of Reliability and Safety, 6 (01-Mar), pp. 82-109.
(2012). Notched strip tests to determine the yield characteristics of stainless steel. In Proc. SCI 4th International Experts Seminar: Stainless Steel in Structures.
(2011). Design guidelines for FRP reinforced concrete structures. Proceedings of the Institution of Civil Engineers: Structures and Buildings., 164 (4), pp. 255-263.