Issue 41

S. Doddamani et alii, Frattura ed Integrità Strutturale, 41 (2017) 484-490; DOI: 10.3221/IGF-ESIS.41.60 490 F UNDING his research received no specific grant from any funding agency in the public, commercial, or not-for-profit sectors. R EFERENCES [1] T .L Anderson Fracture Mechanics-Fundamentals and Applications. 3rd Edition, Taylor & Francis Group, New York, (2013). [2] Doddamani S., Kaleemulla, M., Review of experimental fracture toughness (KIC) of aluminium alloy and aluminium MMCs in Journals Pub, International Journal of Fracture and Damage Mechanics, Vol 1, Issue 2, (2015) 38-51. [3] ASM Handbook, Composites, ASM International, 21 (2001). [4] Devi, N. C., Mahesh, V., Selvaraj, N., Mechanical characterization of Al/SiC composite, International Journal of Applied Engineering Research, Dindigul, 1(4) (2011) 793-799. [5] Doddamani, S., Kaleemulla, M., Begum, Y., Mechanical properties of aluminium–graphite particulate composites, International Journal of Engineering Research & Technology (IJERT), NCERAME, (2015) 119-122. [6] Alaneme, K.K., Aluko, A.O., Fracture toughness (K1C) and tensile properties of as-cast and age-hardened aluminium (6063)–silicon carbide particulate composites, Scientia Iranica A, 19 (4) (2012) 992–996. [7] Ranjbaran, M. M., Experimental investigation of fracture toughness in Al356-SiCp aluminium matrix composite, American Journal of Scientific and Industrial Research, 1(3) (2010) 549-557. [8] Doddamani, S., Kaleemulla, M., Experimental investigation on fracture toughness of Al6061–graphite by using Circumferential Notched Tensile Specimens, Frattura ed Integrità Strutturale, 39 (2017) 274-281. [9] Phillips Agboola, O., Sarioglu, F., Kızılors, C,m Validation of Circumferential Notched Tensile (CNT) Test Procedure for KISCC Determination, Proceedings of the World Congress on Engineering, London, III (2013) 1-4. [10] ASTM Standards, Standard Test Method for Plane-Strain Fracture Toughness of Metallic Materials, ASTM International, E 399-90, (2003). [11] Szymczak, T., Kowalewski, Z. L., Fracture Toughness Investigations of Metal Matrix Composites Using Compact Specimens, Engineering Transactions, 61(3) (2013) 219–229. [12] Doddamani, S., Kaleemulla, M., Indentation Fracture Toughness of Alumnum6061-Graphite Composites in Journals Pub, International Journal of Fracture and Damage Mechanics, 1(1) (2016) 40-46. [13] Nath, S. K., Das, U. K., Effect of Microstructure and Notches on the Fracture Toughness of Medium Carbon Steel, Journal of Naval Architecture and Marine Engineering, 3 (2006) 15-22. [14] Logsdon, W. A., Liaw, P. K., Tensile, fracture toughness and fatigue crack growth rate properties of Silicon carbide whisker and particulate reinforced aluminum metal matrix Composites, Pergamon Journals Ltd, Engineering Fracture Mechanics, 24(5) (1986) 137-151. [15] Flom, Y., Parker, B. H., Chu, H. P., Fracture Toughness of SiC/Al Metal Matrix Composite, NASA Technical Memorandum 100745, (1989) 1-17. [16] Manigandan, K., Srivatsan, T.S., Quick, T., Influence of silicon carbide particulates on tensile fracture behavior of an aluminum alloy, Materials Science and Engineering A, 534 (2012) 711– 715. [17] Chawla, N., Ganesh, V.V., Fatigue crack growth of SiC particle reinforced metal matrix composites, International Journal of Fatigue, 32 (2010) 856–863. [18] ASM Handbook, Mechanical Testing and Evaluation, ASM International, 8 (2000). T