Description
Volume is indexed by Thomson Reuters BCI (WoS).This volume summarizes the most important results of the ongoing research in the Center of Excellence on Applied Materials Science and Nanotechnology at the Faculty of Materials Science and Engineering, University of Miskolc, Hungary. The primary goal of the research activities is the extension of the knowledge available for materials exhibiting special properties.
Materials scientists at the Hungarian institute that began in the 18th century as a mining and metallurgy college, describe some recent research conducted there in physical metallurgy, plastic deformation, solidification, simulation, polymers, and miscellaneous matters. The topics include a comparative study of precipitation hardened and equal channel angular pressed powder metallurgical aluminum alloy samples, evaluating residual stress during fatigue test of a shoot peened steel sample, developing an amorphous and microstructured surface layer by laser surface treatment, simulating grain coarsening using one-dimensional cellular automaton, and optimally balanced active-passive corrosion protection by zinc-rich paint coatings featuring proper hybrid formulations with polypyrrole modified carbon nanotubes.
Chapter
Hf Particles Reinforced Cu-Zr-Al Amorphous Powder Produced by Milling
Analysis of Lead in SnAg Based Solders Using X-Ray Fluorescence
The Role of Pb Impurity in SAC Solder Alloy
Description of the PM Process by Using Ishikawa-Analysis
Effect of High Rotating Magnetic Field on the Solidified Structure of Al–7wt.%Si–1wt.%Fe Alloy
Chapter 2: Plastic Deformation
The Constitutive Behavior of Al 7075 Aluminium Alloy under Hot Compression Test
Microstructure Characterization of Deep-Drawn DP780-Grade Dual Phase Steel
Limitations in Measuring the Flow Stress
Residual Stress Evolution during Fatigue Test of a Shoot Peened Steel Sample
Determination of the Onset of the Dynamic Recystallization of a 7075 Al Alloy
Modelling of Crown on Cold Rolled Aluminium Sheet
Development of a Complex Optimizing Model of Wire Drawing Technology
Design Curves for High-Cycle Fatigue Loaded Structural Elements
Chapter 3: Solidification
A New Method to Examine the Annealing of Two Alloying Elements of 3004-Grade Cast Aluminum by Resistivity and Thermoelectric Power
Comparison of Measured and Numerically Simulated Angular Velocity of Magnetically Stirred Liquid Ga-ln Alloy
Investigation of Microstructure of Cast Iron by Color Etching
Development of Amorphous and Microstructured Surface Layer by Laser Surface Treatment
Effect of the Technological Parameters on the Thermal Conditions of Die-Casting Tool
The Effect of Homogenization on the Annealing of Al-1,5%Mn Aluminium Alloy
Simulation of Isothermal Nucleation of Austenite in Spheroidite Plain Carbon Steels
Modelling of Flow Properties of Asphalt Mastics
Simulation of Grain Coarsening Using One-Dimensional Cellular Automaton
Preparation and Evaluation of Novell Wood-PVC Systems
The Effect of Technological Parameters on the Quality of UHMWPE Products
Effect of Crystallinity on PLA’s Microbiological Behaviour
Tribological Testing Results Comparison by Microscope Techniques
The Effect of Aluminium and Nickel on some Spectral Lines of Alkaline-Earth Metals in the Course of ICP-AES Analysis
Modelling of Ion Distribution in Single, Binary and Ternary Ion Exchanged Zeolite Used for Biomedical Applications
Optimally Balanced Active-Passive Corrosion Protection by Zinc-Rich Paint Coatings Featuring Proper Hybrid Formulation with Polypyrrole Modified Carbon Nanotubes
Laboratory Preparation and Characterization of Electroless Nickel Coated Powders of Industrially Produced Aluminium and Iron(III) Oxides
The Effect of Micro-Impulse Current on the Morphology of Tin Electrodeposited from Chloride Solutions
Scanning Transmission Electron Microscopy Analysis of Diesel Soot Particles for Source Attribution
Materials Science at University of Miskolc
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