Microstructure Refinement of Medium Carbon Steel through Ti Deoxidation

Shuai Shao; Yun Fu Shen; Ya Hui Zhou; Shou Wang Chen; Xin Li; Fan Xia; Jiu Feng Zhang; Zheng Yu Cai; Hui Kong

doi:10.4028/www.scientific.net/AMR.634-638.3075

Paper Titles

Novel Synthesis and Characterization of Titanium Carbide Coatings on Graphite Flakes
p.3052

Dissolution of Pyrite Particles by Chemical Oxidation and Bioleaching
p.3059

Dynamic Study on Lime Carbonation
p.3065

Effect of pH on PCP Remediation by Smectite Supported Pd / Fe
p.3071

Microstructure Refinement of Medium Carbon Steel through Ti Deoxidation
p.3075

Influence on Concentration of Magnetite with Changing of Fe³⁺/Fe²⁺ in Copper Slag
p.3080

Removal of Boron from Metallurgical Grade Silicon by Chloride Molten Salt
p.3084

Simulation of the Coupled Mass Transfer and Gas-Solid Reaction in Porous Packed Beds
p.3088

Study on the Kinetic Models of the Combustion in Sintering Process
p.3092

HomeAdvanced Materials ResearchAdvanced Materials Research Vols. 634-638Microstructure Refinement of Medium Carbon Steel...

Microstructure Refinement of Medium Carbon Steel through Ti Deoxidation

Abstract:

The medium carbon steel (C: 0.26%, mass percentage) was deoxidized by Ti alloys, and its features of inclusion and microstructure were systemically studied through the scanning electron microscope (SEM) and Energy Dispersive Spectrometer (EDS). The results show that the element of titanium in inclusions coexists with manganese, and no single-phase oxides of titanium are observed. Through the statistical analysis, it can be seen that the average size of Ti-contained inclusions is similar to the inclusions without the Ti, and the percentage of large inclusions (>5μm) is smaller in Ti-contained inclusions, which may reduce the harmful effect of inclusions. After etching in 3Vol% Nital solution, it’s found that the Ti-contained inclusions can act as nucleation sits for the intragranular acicular ferrite.