Essays about: "intermetalliska föreningar"

Found 3 essays containing the words intermetalliska föreningar.

  1. 1. Intermetallic Compound Formation in Ni-Ti-Fe Powder Mixtures

    University essay from Lunds universitet/Materialteknik

    Author : Tea Bertilsson; [2018]
    Keywords : Phase Evolution; Ni-Ti-Fe System; Intermetallics; Powder Metallurgy; Reactive Sintering; DSC; SEM; EDS; XRD; Technology and Engineering;

    Abstract : The Ni-Ti system has a broad range of applications, in areas as diverse as biomedicine and robotics. This is in large due to the NiTi intermetallic compound, which exhibits the shape memory effect. In addition to this property, the intermetallic compound is also biocompatible, has good mechanical properties and good corrosion resistance. READ MORE

  3. 2. Synthesis and characterizationof rare earth free magnetic materialsfor permanent magnet applications

    University essay from Institutionen för kemi - Ångström

    Author : Johan Cedervall; [2013]
    Keywords : permanent magnet; magnetism; intermetallic compounds; iron alloys; permanentmagneter; magnetism; intermetalliska föreningar; järnlegeringar;

    Abstract : In this thesis the compounds Fe5SiB2 and Fe5PB2 have beensynthesized via high temperature synthesis, including arc melting anddrop synthesis. The structure for both compounds are of Cr5B3 typewith the space group I4/mcm. The cell parameters were refined toa = 5.5533 Å and c = 10. READ MORE

  4. 3. Hydrogen absorption/desorption properties of the Sc(AlxNi1-x)2 system

    University essay from Oorganisk kemi

    Author : Jonas Ångström; [2011]
    Keywords : hydrogen storage; Laves phases; Ni-MH batteries; intermetallic compounds; alloy; alloys; Nickel; Hydrogen; Scandium; Sc; Ni; Aluminium; Aluminum; Al; Nickel metal hydride batteries; Laves phase; vätelagrning; Lavesfaser; Ni-MH batteri; intermetalliska föreningar; legering; legeringar; nickel; väte; skandium; aluminium; Lavesfas;

    Abstract : Sc(AlxNi1-x)2 is a pseudobinary C14 Laves phase and a potential interstitial hydrogen storage material or anode in a Ni-MH battery. A previous study showed that Sc1Al1Ni1 can store hydrogen reversibly; both interstitially and trough decomposition into ScH2 and AlNi. READ MORE