Influence of Structural Parameters - the Shape of Graphite and Matrix on Change of Ultrasonic Wave Propagation Rate and Value of Attenuation in Graphitic Cast Irons-Reference-Cited by-同舟云学术

Influence of Structural Parameters - the Shape of Graphite and Matrix on Change of Ultrasonic Wave Propagation Rate and Value of Attenuation in Graphitic Cast Irons

Published:2023-02-15 Issue:1 Volume:29 Page:23-27
ISSN:2353-7779
Container-title:Production Engineering Archives
language:en
Short-container-title:

Author:

Belan Juraj¹^ORCID,Tillová Eva¹^ORCID,Uhríčik Milan¹^ORCID,Pastierovičová Lucia¹^ORCID

Affiliation:

1. Faculty of Mechanical Engineering , University of Žilina . Univerzitná 8215/1, 01026 Žilina , The Slovak Republic

Abstract

Abstract Despite the tendency of the current industry, especially the automotive industry, it is to use modern, light and super-strong materials based on Al or HSLA steels, the application of classic materials such as cast iron still makes sense, especially concerning price and excellent castability. The article presents one of the possible ways of using the ultrasonic non-destructive method in quality control and simplification of the identification of the type of cast iron concerning the change of parameters of ultrasound propagation in materials. The main criteria for assessing the quality and determining the type of graphite cast iron were considered to be the rate of propagation of ultrasound - cL and the value of attenuation - α, which vary depending on the shape of the graphite and matrix. Graphitic cast irons with different graphite shapes (lamellar, vermicular, and globular shapes) and a matrix with different ferrite/perlite ratios were used as experimental material. Along with the ultrasonic tests, a metallographic analysis was also performed to quantify the microstructure of cast irons.

Publisher

Stowarzyszenie Menedzerow Jakosci i Produkcji

Subject

Management of Technology and Innovation,Industrial and Manufacturing Engineering,Safety, Risk, Reliability and Quality,Management Information Systems

Link

https://www.sciendo.com/pdf/10.30657/pea.2023.29.4

Reference13 articles.

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2. El-Hadad, S., Ibrahim, M., Mourad, M. et al., 2019. Ultrasonic Detection of Microstructure Features in Ti-Alloyed Ductile Iron. Trans Indian Inst Met, 72, 2349–2358.

3. Emerson, P.J., Simmons, W., 1976. Final Report on the Evaluation of the Graphite Form in Ferritic Ductile Iron by Ultrasonic and Sonic Testing, and the Effect of Graphite Form on Mechanical Properties. AFS Trans., 76-26, 109-128.

4. Fuller, A.G., 1977. Evaluation of the Graphite Form in Pearlitic Ductile Iron by Ultrasonic and Sonic Testing and the Effect of Graphite Form on Mechanical Properties. AFS Trans.,77-102, 509-526.

5. Fuller, A.G., Emerson, P.J., Sergeant, G.F., 1980. A Report on the Effect Upon Mechanical Properties of Variation in Graphite Form in Irons Having Varying Amounts of Ferrite and Pearlite in the Matrix Structure and the Use of ND Tests in the Assessments of Mechanical Properties of Cast Irons. AFS Trans., 80-09, 21-50.

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