Open Access Journal

ISSN : 2394-2320 (Online)

International Journal of Engineering Research in Computer Science and Engineering (IJERCSE)

Monthly Journal for Computer Science and Engineering

Open Access Journal

International Journal of Engineering Research in Computer Science and Engineering (IJERCSE)

Monthly Journal for Computer Science and Engineering

ISSN : 2394-2320 (Online)

Call For Paper : Vol 11, Issue 03, March 2024

Call for Paper

Vol 11, Issue 03, March 2024

Indexing

The Effect of Remaining Casting Skin on Cast Iron Components Fatigue Strength

Author : Pawan Kumar Singh Nain 1

PDF

Date of Publication :20th November 2017

Abstract: The measurement of the fatigue power of casts with residual casting skin remains a problem. To date, the only consideration of the ruggedness of the casting skin during the design process was the reduction factor. Nevertheless, the consequence of discontinuities including inhomogeneous microstructures, imperfections, pores etc. is ignored by this reduction element. This work shows the rim zone of the cast, consisting of surface ruggedness and a deviating microstructure. In order to evaluate the effect of the casting skin on fatigue strength, fatigue experiments with deviating skin testers have been carried out on EN-GJS-400-15 and EN-GJS-700-2. In cyclical axial stress tests under alternation loading Rт= –1 on small flat specimens extracted from the rim zone, a cyclic conduct of the rim area microstructure was established. In addition, cyclical propensity tests were performed with alternating R5-0=-1 and pulsatory loading R − 0 in the integration of the findings from axial fatigue tests with an effect on surface roughness as well as stress gradients present in the casting components. The conclusions drawn from the study are translated into a formulation for a fatigue examination of the remainder of the casted tissue.

Reference :

    1. M. Shirani and G. Härkegård, “Large scale axial fatigue testing of ductile cast iron for heavy section wind turbine components,” Eng. Fail. Anal., 2011, doi: 10.1016/j.engfailanal.2011.05.005.
    2. S. Boonmee and D. M. Stefanescu, “Occurrence and effect of casting skin in compacted graphite iron,” Int. J. Cast Met. Res., 2016, doi: 10.1179/1743133615Y.0000000017.
    3. S. Nasu, S. Fujita, N. Furusato, S. Yamada, and S. Hiratsuka, “Effect of casting skin condition on fatigue strength of gray cast iron,” 2016.
    4. S. Boonmee and D. M. Stefanescu, “International Journal of Cast Metals Research Occurrence and effect of casting skin in compacted graphite iron Occurrence and effect of casting skin in compacted graphite iron,” Int. J. Cast Met. Res., 2016, doi: 10.1179/1743133615Y.0000000017.
    5. S. Nasu, S. Fujita, N. Furusato, S. Yamada, and S. Hiratsuka, “Effect of casting skin condition on fatigue strength of gray cast iron,” Int. J. Met., 2017, doi: 10.1007/s40962-016-0109-4.
    6. S. Boonmee, “Ductile and Compacted Graphite Iron Casting Skin -- Evaluation, Effect on Fatigue Strength and Elimination,” 2013.
    7. J. W. Soedarsono, B. Suharno, and R. D. Sulamet-Ariobimo, “Effect of casting design to microstructure and mechanical properties of 3 mm TWDI plate,” 2012, doi: 10.4028/www.scientific.net/AMR.415- 417.831.
    8. L. Tian, Z. Li, Q. Ke, E. Jin, and S. Dong, “Nondestructive testing and pull shear performance experiment on bionic heterogeneous compound materials interface,” Nongye Gongcheng Xuebao/Transactions Chinese Soc. Agric. Eng., 2015, doi: 10.3969/j.issn.1002- 6819.2015.06.008.

Recent Article