Exfoliation and Fracture Behavior of Oxide Films Formed on Titanium and Its Alloy in High Temperature Environments
p.417
p.417
Interaction between Mechanical Loading in Creep and Reactivity of Zirconium and Zircaloy in Temperature
p.425
p.425
Strains in Thermally Growing Alumina Films Measured In-Situ Using Synchrotron X-Rays
p.433
p.433
Quantitative Adhesion Energy Values of Chromia-Rich Thermal Oxides on Stainless Steels Determined by Blister and Tensile Tests
p.441
p.441
The Effects of Steel Composition on the Oxidation Kinetics, Scale Structure, and Scale-Steel Interface Adherence of Low and Ultra-Low Carbon Steels
p.451
p.451
Deformation and Fracture Behavior of Surface Oxide Scale on Fe-13Cr Alloy in Hot-Rolling Process
p.461
p.461
Hardness of Oxide Scales on Fe-Si Alloys at Room- and High-Temperatures
p.469
p.469
Oxidation Behavior and Scale Properties on the Si Containing Steels
p.477
p.477
In Situ Growth-Stress Measurement of Cr2O3 Scale Formed on Stainless Steels by Raman Spectroscopy
p.489
p.489
The Effects of Steel Composition on the Oxidation Kinetics, Scale Structure, and Scale-Steel Interface Adherence of Low and Ultra-Low Carbon Steels
Abstract:
The oxidation behaviors of several commercial low and ultra low carbon steels in air at 700-950°C were studied. Under isothermal oxidation conditions, the oxidation kinetics, scale structure and scale-steel interface adherence were significantly affected by the steel composition.
You might also be interested in these eBooks
Info:
Periodical:
Materials Science Forum (Volumes 522-523)
Pages:
451-460
Citation:
Online since:
August 2006
Authors:
Keywords:
Price:
Permissions: