What is he best known for?
The fields of study he is best known for:
- Composite material
- Mechanical engineering
- Aluminium
The scientist’s investigation covers issues in Composite material, Machining, Surface finish, Surface roughness and Graphite.
His Composite material research incorporates elements of Chip formation and Cutting tool.
The study incorporates disciplines such as Brittleness and Lapping in addition to Machining.
His study in Surface finish is interdisciplinary in nature, drawing from both Microstructure and Abrasive.
The various areas that Mamidala Ramulu examines in his Surface roughness study include Shot peening and Peening.
Mamidala Ramulu works mostly in the field of Graphite, limiting it down to topics relating to Engineering drawing and, in certain cases, Carbide, as a part of the same area of interest.
His most cited work include:
- Fatigue performance evaluation of selective laser melted Ti–6Al–4V (392 citations)
- Orthogonal cutting mechanisms of graphite/epoxy composite. Part II: multi-directional laminate (238 citations)
- A study on the drilling of composite and titanium stacks (231 citations)
What are the main themes of his work throughout his whole career to date?
Mamidala Ramulu mainly investigates Composite material, Metallurgy, Machining, Titanium and Titanium alloy.
His Composite material study frequently links to other fields, such as Drilling.
His Machining research includes themes of Edge and Abrasive.
The Titanium study combines topics in areas such as Alloy, Flexural strength and Ti 6al 4v.
His work in Surface roughness covers topics such as Peening which are related to areas like Mechanical engineering.
Mamidala Ramulu interconnects Paris' law and Structural engineering in the investigation of issues within Residual stress.
He most often published in these fields:
- Composite material (62.65%)
- Metallurgy (26.85%)
- Machining (25.29%)
What were the highlights of his more recent work (between 2012-2021)?
- Composite material (62.65%)
- Machining (25.29%)
- Titanium alloy (17.12%)
In recent papers he was focusing on the following fields of study:
His main research concerns Composite material, Machining, Titanium alloy, Metallurgy and Titanium.
The Composite material study combines topics in areas such as Drilling and Machinability.
He has included themes like Brittleness, Surface finish and Ceramic in his Machining study.
His biological study spans a wide range of topics, including Diffusion bonding, Work hardening, Metal and Fracture.
In the subject of general Metallurgy, his work in Friction stir welding, Microstructure, Residual stress and Nanoindentation is often linked to Low density, thereby combining diverse domains of study.
His research in Titanium intersects with topics in Graphite, Tensile behavior, Numerical analysis and Abrasive.
Between 2012 and 2021, his most popular works were:
- Fatigue performance evaluation of selective laser melted Ti–6Al–4V (392 citations)
- Electron Beam Additive Manufacturing of Titanium Components: Properties and Performance (220 citations)
- Experimental study of surface quality and damage when drilling unidirectional CFRP composites (83 citations)
In his most recent research, the most cited papers focused on:
- Composite material
- Mechanical engineering
- Aluminium
His primary areas of study are Composite material, Metallurgy, Titanium, Friction stir welding and Machining.
His work on Composite material deals in particular with Fracture toughness, Composite number, Residual stress and Surface roughness.
Microstructure and Titanium alloy are among the areas of Metallurgy where the researcher is concentrating his efforts.
His biological study deals with issues like Surface finish, which deal with fields such as Porosity, Selective laser melting and Laser.
His Friction stir welding research incorporates themes from Ultimate tensile strength and Butt joint.
His Machinability study, which is part of a larger body of work in Machining, is frequently linked to Electron-beam additive manufacturing, bridging the gap between disciplines.
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