Jan-Erik Svensson

What is he best known for?

The fields of study he is best known for:

• Oxygen
• Organic chemistry
• Metallurgy

Jan-Erik Svensson mostly deals with Metallurgy, Corrosion, Oxide, Chromium and High-temperature corrosion. Jan-Erik Svensson is studying Alloy, which is a component of Metallurgy. His Corrosion research is multidisciplinary, incorporating perspectives in Inorganic chemistry, Oxygen, Water vapor, Magnesium and Carbon dioxide.

Jan-Erik Svensson has included themes like Evaporation, Evaporation, Spinel and Microstructure in his Oxide study. His Chromium research incorporates themes from Volumetric flow rate and Austenitic stainless steel. His work in High-temperature corrosion addresses issues such as Grain boundary, which are connected to fields such as Environmental scanning electron microscope and Nickel.

His most cited work include:

• Fundamentals and advances in magnesium alloy corrosion (556 citations)
• Influence of Water Vapor and Flow Rate on the High-Temperature Oxidation of 304L; Effect of Chromium Oxide Hydroxide Evaporation (236 citations)
• Indication of Chromium Oxide Hydroxide Evaporation During Oxidation of 304L at 873 K in the Presence of 10% Water Vapor (220 citations)

What are the main themes of his work throughout his whole career to date?

His primary areas of study are Metallurgy, Corrosion, Oxide, Alloy and Chromium. Jan-Erik Svensson combines subjects such as Layer and Scanning electron microscope with his study of Metallurgy. His Corrosion research includes themes of Inorganic chemistry, Aluminium, Relative humidity and Chloride.

His research integrates issues of Chemical engineering, Spinel, Analytical chemistry, Evaporation and Coating in his study of Oxide. He works mostly in the field of Alloy, limiting it down to topics relating to Water vapor and, in certain cases, Oxygen. His studies in Chromium integrate themes in fields like Evaporation, Nuclear chemistry, Volumetric flow rate and Vaporization.

He most often published in these fields:

• Metallurgy (70.45%)
• Corrosion (53.85%)
• Oxide (51.82%)

What were the highlights of his more recent work (between 2015-2021)?

• Metallurgy (70.45%)
• Corrosion (53.85%)
• Oxide (51.82%)

In recent papers he was focusing on the following fields of study:

Jan-Erik Svensson mainly focuses on Metallurgy, Corrosion, Oxide, Alloy and Microstructure. Jan-Erik Svensson has included themes like Composite material and Alkali metal in his Metallurgy study. In general Corrosion, his work in High-temperature corrosion is often linked to Atmosphere linking many areas of study.

His research integrates issues of Chemical engineering, Spinel, Analytical chemistry, Chromium and Coating in his study of Oxide. The Alloy study combines topics in areas such as Inorganic chemistry, Secondary ion mass spectrometry, Crystallography and Nitrogen. His research in Microstructure intersects with topics in Bobbin and Intermetallic.

Between 2015 and 2021, his most popular works were:

• Fundamentals and advances in magnesium alloy corrosion (556 citations)
• Oxidation After Breakdown of the Chromium-Rich Scale on Stainless Steels at High Temperature: Internal Oxidation (47 citations)
• New insights into the corrosion of magnesium alloys — The role of aluminum (44 citations)

In his most recent research, the most cited papers focused on:

• Oxygen
• Organic chemistry
• Hydrogen

Jan-Erik Svensson spends much of his time researching Metallurgy, Corrosion, Microstructure, Alloy and Oxide. The concepts of his Corrosion study are interwoven with issues in Hydrogen, Solid oxide fuel cell, Cathode, Oxygen and Formability. His work carried out in the field of Microstructure brings together such families of science as Bobbin, Aluminium and Welding.

He has researched Alloy in several fields, including Number density and Analytical chemistry. His Oxide study combines topics in areas such as Spinodal decomposition, Layer, Spinel, Chromium and Chemical engineering. His Chemical engineering study incorporates themes from Evaporation and Scanning electron microscope.

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