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Nome e cognome Gianmario Riganti

Dipartimento/Scuola/Unità Settore materiali e strutture
Laboratorio SUPSI Dynamat
Istituto di ingegneria meccanica e tecnologie dei materiali
Istituto materiali e costruzioni

Email gianmario.riganti@supsi.ch

Ufficio Trevano - Blocco C
Via Trevano, 6952 Canobbio

Telefono interno +41586666367

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Articolo di un giornale scientifico 3 Elementi

Bragov, A., Konstantinov, A., Lomunov, A., Forni, D., Riganti, G.& Cadoni, E. (2015) High strain rate response of UHP(FR)C in compression. EPJ Web of Conferences, vol. 94. » in dettaglio Grazka, M., Janiszewski, J., Kruszka, L., Cadoni, E., Forni, D.& Riganti, G. (2014) Identification Methods of Parameters for Johnson-Cook Constitutive Equation - Comparison. Applied Mechanics and Materials, vol. 566 pp.97-103. » in dettaglio Riganti, G.& Cadoni, E. (2014) Numerical simulation of the high strain-rate behaviour of quenched and self-tempered reinforcing steel in tension. Materials and Design, vol. 57 pp.156-167. » in dettaglio

Articolo in documento di una conferenza 4 Elementi

Cadoni, E., Dotta, M., Forni, D., Riganti, G.& Albertini, C. (2015) First application of the 3D-MHB on dynamic compressive behavior of UHPC. In EPJ Web of Conferences , pp.1031-1031. » in dettaglio Cadoni, E., Dotta, M., Forni, D., Riganti, G.& Kaufmann, H. (2015) Experimental and numerical analysis of the dynamic behaviour in tension of an armour steel for applications in defence industry. In EPJ Web of Conferences , pp.5004-5004. » in dettaglio Riganti, G.& Cadoni, E. (2015) use of the Split Hopkinson Bar tests to assess the material models for concrete, The. In 16th International Symposium for the Interaction of the Effects of Munitions with Structures. » in dettaglio Cadoni, E., Dotta, M., Forni, D., Riganti, G.& Tesio, N. (2013) Tensile behaviour at high strain rate of UHPFRC for protective structures. » in dettaglio

Capitolo di un libro 1 Elemento

Cadoni, E., Albertini, C., Dotta, M., Forni, D., Giorgetti, P.& Riganti, G. 2009. Mechanical characterization of rocks at high strain-rate by the JRC modified Hopkinson bar: a tool in blast and impact assessment. In Rock fragmentation by blasting, vol. 1, pp.35-41. Taylor & Francis Group. » in dettaglio

Progetti di cui è membro

High strain-rate behaviour of E01141325 material at high and room temperature » in dettaglio Mechanical behavior of UHPFRC under high loading rate (impact, explosion, earthquake, hurricane). » in dettaglio Behaviour of structural steels under fire in a wide range of strain rates » in dettaglio Dynamic fracture of rocks under high rate mechanical and electric breakdown induced loads » in dettaglio Construction materials under high strain rate » in dettaglio Split Hopkinson bar test on UHPFRC/HPC » in dettaglio Triaxially Compressed Hopkinson Bar (TriHB) for Geomaterial and Construction Material Testing » in dettaglio Rate and scale effects in fracture of concrete and rocks » in dettaglio Basalt fibre reiforced mortars » in dettaglio Advanced Cementitious Composites In DEsign and coNstruction of safe Tunnel » in dettaglio Studio del comportamento dinamico di lamiere in acciaio per il settore automobilistico » in dettaglio Laboratorio Interdipartimentale DynaMat » in dettaglio

 
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