Metallic glasses and their composites / D.V. Louzguine

By: Resource type: Ressourcentyp: Buch (Online)Book (Online)Language: English Series: Materials research foundations ; volume 19Publisher: Millersville, PA : Materials Research Forum, 2018Description: 1 Online-Ressource (336 p)Subject(s): Additional physical formats: 9781945291425 | 9781945291432. | Erscheint auch als: Metallic glasses and their composites. Druck-Ausgabe Millersville, PA, USA : Materials Research Forum LLC, 2018. 325 SeitenDDC classification:
  • 620.16
LOC classification:
  • TN693.M4
Online resources: Summary: 4.1 Structural relaxation and rejuvenation4.2 Phase separation; 4.2.1 Phase separation on cooling liquids; 4.2.2 Phase separation on heating metallic glasses; 4.3 Dissolution of a metastable crystalline phase in a supercooled liquid; 4.4 Crystallization of glassy alloys.; 4.4.1 General features.; 4.4.2 Nanocrystallization.; 4.4.3 Crystallization of metallic glasses above and below Tg; 4.4.4 Formation of in-situ glassy-nanocomposites upon rapid solidification; 4.4.5 Crystallization upon deformation; 4.4.6 Formation of quasicrystals upon devitrificationSummary: 4.4.7 Formation of nanoscale quasicrystals4.4.8 Crystallization of the amorphous alloys containing pre-existing nuclei and nanoparticles; 4.5 Peritectic like reactions involving glassy phase; References; 5; 5.1 Mechanical properties of bulk metallic glasses and their deformation behavior at room temperature; 5.1.1 Elastic properties; 5.1.2 Mechanical strength, hardness and plasticity; 5.1.3 Plastic deformation mechanism; 5.1.4 Structural rejuvenation by deformation; 5.1.5 Strain-rate sensitivity; 5.1.6 Size effect and in-situ deformation studiesSummary: 5.1.7 Fatigue, cyclic and long-term creep deformation in the elastic region.5.1.8 Fracture toughness; 5.1.9 Fracture mechanisms; 5.1.10 Dynamic mechanical properties; 5.1.11 Wear resistance; 5.1.11.1 Macroscopic wear properties; 5.1.11.2 Nano-scale and atomic-scale wear resistance; 5.1.12 Bauschinger-type effect; 5.2 Plastic flow of bulk metallic glasses on heating; 5.3 Deformation of bulk metallic glasses at cryogenic temperature; 5.4 Non-uniform materials with glassy phase; 5.4.1 Porous glasses; 5.4.2 Glassy-crystalline dual phase alloysSummary: Front_Matter; Table of Contents; 1; 1.1 Formation of metallic glasses; 1.2 General physical properties; References; 2; 2.1 Crystal nucleation controlled mechanism; 2.2 Crystal growth controlled mechanism; 2.3 Extrinsic factors influencing glass-forming ability; 2.4 Effect of flux treatment; References; 3; 3.1 Structure of liquids and glasses; 3.2 Thermal expansion detected by X-ray diffraction; 3.3 Structural changes on glass formation from the liquid state; 3.4 Structural changes on mechanical loading; 3.5 Pressure effects, polyamorphism; References; 4PPN: PPN: 101877517XPackage identifier: Produktsigel: ZDB-4-NLEBK
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