Effect of microstructure of low carbon steels on ultrasonic attenuation

Author

Ahn, Bongyoung ; Seok Lee, Seung

Author_Institution

NDE Group, Korea Res. Inst. of Stand. & Sci., Taejon, South Korea

Volume

47

Issue

3

fYear

2000

fDate

5/1/2000 12:00:00 AM

Firstpage

620

Lastpage

629

Abstract

The ultrasonic attenuation in low carbon steel with 0.04 wt% C to 0.80 wt% C was measured over a frequency range of 5 to 15 MHz, and the effects of the carbon content and normalizing temperature were analyzed. In pure iron, the attenuation is determined from the average grain size, which increases as the normalizing temperature increases; there is a noticeable effect caused by a few large grains. In the case of the hypoeutectoid steels, the proeutectoid ferrite grain, the size of which depends on prior austenite grain size, acts as the main scatterer. The prior austenite grain size increases as the carbon content decreases and the normalizing temperature increases. The colony is responsible for scattering in the eutectoid steel; scattering by pearlite is greater than that by ferrite.

Keywords

carbon steel; grain size; normalising; ultrasonic absorption; 5 to 15 MHz; austenite; carbon content; eutectoid steel; ferrite; grain size; hypoeutectoid steel; low carbon steel; microstructure; normalizing temperature; pearlite; polycrystalline alloy; pure iron; ultrasonic attenuation; ultrasonic scattering; Attenuation measurement; Ferrites; Frequency measurement; Grain size; Iron; Microstructure; Scattering; Steel; Temperature distribution; Ultrasonic variables measurement;

fLanguage

English

Journal_Title

Ultrasonics, Ferroelectrics, and Frequency Control, IEEE Transactions on

Publisher

ieee

ISSN

0885-3010

Type

jour

DOI

10.1109/58.842049

Filename

842049