2014 - Fellow of the Royal Academy of Engineering (UK)
His Composite material study frequently links to adjacent areas such as Layer (electronics). Layer (electronics) is closely attributed to Composite material in his work. His Carbon fibers research extends to the thematically linked field of Composite number. Carbon fibers is closely attributed to Composite number in his work. Composite laminates and Finite element method are frequently intertwined in his study. His studies link Composite laminates with Finite element method. His Structural engineering study frequently draws connections between adjacent fields such as Transverse plane. His Structural engineering research extends to the thematically linked field of Transverse plane. He combines Compressive strength and Compression (physics) in his studies.
Many of his studies on Composite material involve topics that are commonly interrelated, such as Ultimate tensile strength. In most of his Ultimate tensile strength studies, his work intersects topics such as Composite material. His Carbon fibers research extends to the thematically linked field of Composite number. His studies link Composite number with Carbon fibers. He frequently studies issues relating to Stiffness and Structural engineering. He frequently studies issues relating to Structural engineering and Stiffness. His research brings together the fields of Finite element method and Composite laminates. Finite element method is closely attributed to Composite laminates in his work. Constantinos Soutis combines topics linked to Subduction with his work on Paleontology.
His study explores the link between Waste management and topics such as Smoke that cross with problems in Organic chemistry. His Organic chemistry study frequently links to related topics such as Smoke. Within one scientific family, he focuses on topics pertaining to Mechanical engineering under Work (physics), and may sometimes address concerns connected to Container (type theory). Damage mechanics and Composite laminates are the main areas of his Finite element method studies. His Composite laminates study frequently links to related topics such as Finite element method. Throughout his Fracture mechanics studies, he incorporates elements of other sciences such as Damage mechanics and Ultimate tensile strength. He undertakes multidisciplinary studies into Ultimate tensile strength and Fracture mechanics in his work. His work in Composite material is not limited to one particular discipline; it also encompasses Cracking. In his works, he performs multidisciplinary study on Aerospace engineering and Aerospace.
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Recent developments in advanced aircraft aluminium alloys
Tolga Dursun;Costas Soutis.
Materials & Design (2014)
Fibre reinforced composites in aircraft construction
C. Soutis.
Progress in Aerospace Sciences (2005)
Damage detection in composite materials using lamb wave methods
Seth S Kessler;S Mark Spearing;Constantinos Soutis.
Smart Materials and Structures (2002)
Carbon fiber reinforced plastics in aircraft construction
C. Soutis.
Materials Science and Engineering A-structural Materials Properties Microstructure and Processing (2005)
Structural health monitoring techniques for aircraft composite structures
K. Diamanti;C. Soutis.
Progress in Aerospace Sciences (2010)
Modelling damage evolution in composite laminates subjected to low velocity impact
Y. Shi;T. Swait;C. Soutis.
Composite Structures (2012)
Damage detection in composite materials using frequency response methods
Seth S. Kessler;S.Mark Spearing;Mauro J. Atalla;Carlos E.S. Cesnik.
Composites Part B-engineering (2002)
Finite Element Modelling of Composite Materials and Structures
Frank L. Matthews;G.A.O. Davies;D Hitchings;C Soutis.
(2000)
Prediction of the post-impact compressive strength of CFRP laminated composites
C. Soutis;P.T. Curtis.
Composites Science and Technology (1996)
Failure Prediction Technique for Compression Loaded Carbon Fibre-Epoxy Laminate with Open Holes:
C. Soutis;N. A. Fleck;P. A. Smith.
Journal of Composite Materials (1991)
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