2023 - Research.com Mechanical and Aerospace Engineering in Italy Leader Award
2023 - Research.com Materials Science in Italy Leader Award
2022 - Research.com Mechanical and Aerospace Engineering in Norway Leader Award
2022 - Research.com Materials Science in Norway Leader Award
His scientific interests lie mostly in Strain energy density function, Structural engineering, Composite material, Stress intensity factor and Control volume. His Strain energy density function study also includes fields such as
His Stress intensity factor study deals with Strength of materials intersecting with Fixture and Polymethyl methacrylate. His research integrates issues of Amplitude and Edge in his study of Control volume. His Fracture research includes themes of Radius, Mode coupling and Fracture mechanics.
Filippo Berto spends much of his time researching Composite material, Structural engineering, Strain energy density function, Fracture and Finite element method. His is involved in several facets of Composite material study, as is seen by his studies on Ultimate tensile strength, Fracture toughness, Mixed mode, Brittleness and Graphite. His Structural engineering research integrates issues from Stress, Mechanics and Welding.
His biological study deals with issues like Control volume, which deal with fields such as Edge. His Fracture research incorporates elements of Fracture mechanics and Plasticity. His primary area of study in Finite element method is in the field of Linear elasticity.
Filippo Berto mainly investigates Composite material, Fracture, Ultimate tensile strength, Structural engineering and Strain energy density function. His Composite material study is mostly concerned with Microstructure, Alloy, Selective laser melting, Fatigue limit and Scanning electron microscope. Filippo Berto works mostly in the field of Fracture, limiting it down to concerns involving Fracture mechanics and, occasionally, Stress field.
In his research on the topic of Structural engineering, Residual stress is strongly related with Welding. His Residual stress study which covers Finite element method that intersects with Mechanical engineering. The Strain energy density function study combines topics in areas such as Mechanics, Control volume and Work.
His main research concerns Composite material, Corrosion, Selective laser melting, Strain energy density function and Fracture. His Strain energy density function study integrates concerns from other disciplines, such as Fatigue limit, Work, Welding, Control volume and Joint. His work in Control volume tackles topics such as Finite element simulation which are related to areas like Mechanics.
Stress intensity factor is closely connected to Brittle fracture in his research, which is encompassed under the umbrella topic of Joint. Filippo Berto combines subjects such as Friction stir welding, Microstructure, Acoustic emission, Plasticity and Rapid prototyping with his study of Fracture. His study in the fields of Fretting under the domain of Structural engineering overlaps with other disciplines such as Dovetail joint.
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Recent developments in brittle and quasi-brittle failure assessment of engineering materials by means of local approaches
F. Berto;P. Lazzarin.
Materials Science & Engineering R-reports (2014)
A review of the volume-based strain energy density approach applied to V-notches and welded structures
F. Berto;P. Lazzarin.
Theoretical and Applied Fracture Mechanics (2009)
Some Expressions for the Strain Energy in a Finite Volume Surrounding the Root of Blunt V-notches
P. Lazzarin;F. Berto.
International Journal of Fracture (2005)
Rapid calculations of notch stress intensity factors based on averaged strain energy density from coarse meshes: Theoretical bases and applications
Paolo Lazzarin;Filippo Berto;Michele Zappalorto.
International Journal of Fatigue (2010)
Mechanical design and multifunctional applications of chiral mechanical metamaterials: A review
Wenwang Wu;Wenwang Wu;Wenxia Hu;Guian Qian;Haitao Liao.
Materials & Design (2019)
Local strain energy to assess the static failure of U-notches in plates under mixed mode loading
F. J. Gómez;M. Elices;F. Berto;P. Lazzarin.
International Journal of Fracture (2007)
Some advantages derived from the use of the strain energy density over a control volume in fatigue strength assessments of welded joints
P. Lazzarin;F. Berto;F.J. Gomez;M. Zappalorto.
International Journal of Fatigue (2008)
Local strain energy density and fatigue strength of welded joints under uniaxial and multiaxial loading
P. Lazzarin;P. Livieri;F. Berto;M. Zappalorto.
Engineering Fracture Mechanics (2008)
Metal additive manufacturing in aerospace: A review
Byron Blakey-Milner;Byron Blakey-Milner;Paul Gradl;Glen Snedden;Michael Brooks.
Materials & Design (2021)
Fatigue strength of severely notched specimens made of Ti–6Al–4V under multiaxial loading
F. Berto;A. Campagnolo;P. Lazzarin.
Fatigue & Fracture of Engineering Materials & Structures (2015)
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