FeSiB Annealing Technology Based on Amorphous Ribbons of the Linear Expansion Coefficient

Chun Ying Huang; Man Hua Wan; Xiao Jun Wang

doi:10.4028/www.scientific.net/KEM.428-429.537

Paper Titles

Multi-Channels PCs Polarization Filter and Analysis of Influence Factors
p.519

Study on Polyurethane/Polyurethane Emulsion Water-Based Ink
p.524

Characteristics of Networked Manufacturing Resources
p.528

Synthesis and Magnetic Properties of Water-Based Fe₃O₄ Ferrofluid
p.533

FeSiB Annealing Technology Based on Amorphous Ribbons of the Linear Expansion Coefficient
p.537

Research on Quantum State in Fabricating Poly-Si Films
p.540

Microstructures of Strontium Aluminates and Polystyrene Phosphorescent Composite Films
p.544

Size-Dependent Conductivity of Polypyrrole Doped with Anthraquinone-2-Sulfonic Acid Sodium
p.548

Preparation and Properties of PZN-PZT/PVDF Piezoelectric Composites Modified by Graphite
p.552

HomeKey Engineering MaterialsKey Engineering Materials Vols. 428-429FeSiB Annealing Technology Based on Amorphous...

FeSiB Annealing Technology Based on Amorphous Ribbons of the Linear Expansion Coefficient

Abstract:

The 4.5mm wide 25μm thick Fe78Si9B13 amorphous alloys were prepared by single-roller method, and it was annealed. The elastic modulus, tensile deformation and line expansion coefficient were investigated by Q800 (dynamic mechanical thermal analyses, DMA). The results showed that the elastic modulus, tensile deformation and line expansion coefficient were enhanced when annealed. Comparing with the annealed ribbons, the change rules of elastic modulus, tensile deformation and line expansion coefficient of the quenched are evident, that the elastic modulus decreases and tensile deformation increase with temperature increases, but line expansion coefficient firstly increase then decrease with temperature increases.