Essays about: "ICME."
Showing result 1 - 5 of 9 essays containing the word ICME..
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1. WSA-ENLIL + Cone ensemble modeling of an Earth-directed ICME : Comparison with in-situ observations by Solar Orbiter and WIND at L1
University essay from Uppsala universitet/Institutionen för fysik och astronomi; Uppsala universitet/Institutet för rymdfysik, UppsalaavdelningenAbstract : Coronal mass ejections (CMEs) are considered the most energetic phenomenon in the heliosphere. Originated in the solar corona, they are formed by ejected plasma driven by strong magnetic fields. READ MORE
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2. Linkage of Macro- and Micro-scale Modelling Tools for Additive Manufacturing
University essay from KTH/MaterialvetenskapAbstract : Additive manufacturing methods for steel are competing against commercial production in an increasing pace. The geometry freedom together with the high strength and toughness due to extreme cooling rates make this method viable to use for high-performance components. The desirable material properties originate from the ultrafine grain structures. READ MORE
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3. Drag based forecast for CME arrival
University essay from Uppsala universitet/Institutionen för fysik och astronomiAbstract : Coronal Mass Ejections (CMEs) are considered to be one of the most energetic events in the heliosphere. Capable of inducing geomagnetic storms on Earth that can cause damage to electronics, a pillar which the modern society we live in leans heavily upon. READ MORE
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4. Modelling of precipitation in an Fe-C-Cr alloy
University essay from KTH/MaterialvetenskapAbstract : Precipitation modelling is interesting from both an academic and an industrial point of view. Such modelling tools may be used in the field of integrated computational materials engineering (ICME) for design and optimization of material properties. READ MORE
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5. Investigation of the effect of alloying elements on the printability of biodegradable material
University essay from KTH/Flerskalig materialmodelleringAbstract : The integration of biodegradable implant into the human body must meet both engineering and physiological requirements. The properties of magnesium such as low density, high specific strength and other biocompatibility properties makes magnesium and its alloy suitable for several biodegradable implant application. READ MORE