The main objective of the Laboratory is the development of methodologies for the analysis and design of structures. The research activities are centered on structural response of steel, concrete and composite structures under static and dynamic loadings. Moreover the Laboratory staff has participated in a large number of national and international research projects.
Educational and fundamental research.
Participation in projects of applied research (R&D).
Education and training activities.
Consulting services.
Publications.
Investigation of the structural stability of the truss structure covering the main building of Corfu airport.
Development of methods for the seismic strengthening of existing buildings.
Development and pilot production and of a new generation of cementitious composites for the seismic strengthening of existing structures.
Experimental and numerical determination of the ultimate loads of composite slabs with SYMDECK73 corrugated steel sheeting.
Experimental and numerical determination of the ultimate loads of steel scaffold structures.
Seismic strength evaluation of the building complex of Prefecture of Magnesia.
Behaviour of structures in fire–after–earthquake scenarios.
COST – C12: Improvement of buildings structural quality by new technologies.
Advanced thermomechanical modelling of engineering and biomechanical materials and joints using nonsmooth and nonconvex computational mechanics.
Applications of control theory in structural analysis.
Rapid visual screening of School Buildings in the Prefectures of Fthiotida, Magnesia, Karditsa, Larissa, Trikala, Arta, Euritania, Thesprotia.
COST – C26: Urban Habitat Constructions under Catastrophic Events (κοινή ευρωπαϊκή ερευνητική δράση).
Seismic strengthening of the building of the School of Rural and Surveying Engineering in Thessaloniki.
Experimental and numerical verification of steel structures for the installation of PV panels.
Experimental and numerical verification of steel structures for the installation of PV panels.
Strengthening of existing concrete structures exhibiting soft–storey through dissipative metallic devices.
Parallel processing system with 6 dual core processors Intel Core i7 – 3930K.
Parallel processing system with 4 dual core processors ΧΕΟΝ 7220.
10 work stations for undergraduate and graduate students with 19” monitors.
4 work stations for PhD candidates with 19" monitors.
1 heavy duty Laser printer (Α4/Α3 paper handling).
1 heavy duty color Laser printer.
MSC-MARC software for finite element analysis.
SAP2000, ΕΤΑΒS software for the static and dynamic analysis of structures.
CUBUS A.G. Zurich structural analysis and design software with network license for 25 concurrent users.
Custom software for the treatment of special problems (contact and friction, plasticity, large displacements etc) which was developed by the contribution of the laboratory members.
Development of software for the analysis and design of composite slabs.
Tables for the design of composite slabs.
Tables for the design steel scaffold structures.
| Surname | Name | Profession-Position | Phone Number | Web-link | |
|---|---|---|---|---|---|
|
Μυστακίδης
|
Ευριπίδης
|
Διευθυντής
|
emistaki@uth.gr
|
+30 24210 74171
|
|
|
Παναγούλη
|
Ολυμπία
|
Επίκουρος Καθηγητής
|
olpanag@uth.gr
|
+30 24210 74146
|
|
|
Τζάρος
|
Κωνσταντίνος
|
Ερευνητής
|
ktzaros@gmail.com
|
+30 24210 74181
|
|
|
Γεωργιάδη-Στεφανίδη
|
Κυριακή
|
Ερευνητής
|
kelly.geo@gmail.com
|
+30 24210 74181
|
|
|
Παντουσα
|
Δάφνη
|
Ερευνητής
|
dpantousa@gmail.com
|
+30 24210 74181
|
|
|
Κουκουσέλης
|
Απόστολος
|
Υποψήφιος Διδάκτορας
|
akoukouselis@gmail.com
|
+30 24210 74181
|
|
|
Ζωγραφοπούλου
|
Καλλιόπη
|
Υποψήφια Διδάκτορας
|
kazograf@gmail.com
|
+30 24210 74181
|