Full Length Research Paper
References
Akkurt AS, Akgün OV, Yakupoglu N (1996). The effect of post-heat treatment of laser surface melted AISI 1018 steel. J. Mater. Sci. 31(18):4907-4911. |
|
ASTM E112-13 (2013). Standard test methods for determining average grain size. ASTM International. West Conshohocken. PA. |
|
ASTM E1140-12b (2012). Standard Hardness Conversion Tables for Metals Relationship Among Brinell Hardness Vickers Hardness, Rockwell Hardness, Superficial Hardness, Knoop Hardness, Scleroscope Hardness, and Leeb Hardness. ASTM International. West Conshohocken. PA. |
|
ASTM E18-17e1 (2017). Standard Test Methods for Rockwell Hardness and Rockwell Superficial Hardness of Metallic Materials. ASTM International, West Conshohocken. PA. https://doi.org/10.1520/E0018-17E01 |
|
ASTM E3-11 (2017). Standard Guide for Preparation of Metallographic Specimens. ASTM International, West Conshohocken. PA. |
|
ASTM E8/E8M-16a (2016). Standard test methods for tension testing of metallic materials. ASTM International. West Conshohocken. PA. |
|
ASM International Handbook Committee (2014). ASM Handbook: Heat treating -Volume 4D: Head Treating of Irons and Steels. ASM International. |
|
Atman CJ, Adams RS, Cardella ME, Turns J, Mosborg S, Saleem J (2007). Engineering design processes: A comparison of students and expert practitioners. J. Eng. Educ. 96(4):359-379. |
|
Calik A (2009). Effect of cooling rate on Hardness and Micro structure of AISI 1020, AISI 1040 and AISI 1060 steels. Int. J. Phys. Sci. 4(9):514-518. |
|
Castillo FJ, Marin J (1985). Metallographic study of formed metallic uranium. Nucleotecnica 4(8):19-27. |
|
Clough RB, Webb SC, Armstrong RW (2003). Dynamic hardness measurements using a dropped ball: with application to 1018 steel. Mater. Sci. Eng. A. 360(1):396-407. |
|
Cwjna J, Roskosz S (2001). Effect of microstructure on properties of sintered carbides. Mater. Charact. 46(2-3):197-201. |
|
Daramola OO, Adewuyi BO, Oladele IO (2010). Effects of heat treatment on the mechanical properties of rolled medium carbon steel. J. Miner. Mater. Charact. Eng. 9(08):693-708. |
|
Daunton C, Kothari S. Smith L, Steele D (2012). A history of materials and practices for wound management. Wound Pract. Res. J. Austr. Wound Manag. Assoc. 20(4):174-176. |
|
De-Cooman BC, Speer JG (2011). Fundamentals of steel product physical metallurgy. AIST. Warrendale. PA. |
|
Dieter GE, Bacon DJ (1986). Mechanical metallurgy –Vol:03. New York: McGraw-Hill. |
|
DIN-EN-ISO-6508 (2006). Metallic Materials–Rockwell Hardness Test. ISO. Berlin-Germany. |
|
DobrzaÅ„ski LA, TaÅ„ski T, ÄŒížek L (2007). Heat treatment impact on the structure of die-cast magnesium alloys. J. Achiev. Mater. Manuf. Eng. 20(1-2):431-434. |
|
Doong JL, Tan YH (1989). Effect of laser surface alloying chromium onto AISI 1018 steel on the fatigue crack growth rate. Int. J. Fatigue 11(4):239-247. |
|
Dym CL, Agogino AM, Eris O, Frey DD, Leifer LJ (2005). Engineering Design Thinking, Teaching, and Learning. Int. J. Eng. Educ. 94(1):103-120. |
|
Dutson AJ, Todd RH, Magleby SP, Sorensen CD (1997). A Review of Literature on Teaching Engineering Design Through Projectâ€Oriented Capstone Courses. Int. J. Eng. Educ. 86(1):17-28. |
|
Fadare DA, Fadara TG, Akanbi OY (2011). Effect of heat treatment on mechanical properties and microstructure of NST 37-2 steel. J. Miner. Mater. Charact. Eng. 10(03):299-308. |
|
Frade-Drumond AL, Abdalla AJ, de Moura-Neto C, Manabu-Hashimoto T, de Oliveira-Hein LR (2014). Mechanical characterization of a steel AISI 43100 submitted to different routes of heat treatments. Mater. Sci. Forum. Trans. Tech. Publications 802(1):373-376. |
|
González AG, Mu-oz CA, Arnaldo GJ (2015). Metallographic Study on Alloy Zircaloy-4 of Nuclear Use. Procedia Materials Sci. 8(1):494-501. |
|
Harry C (1995). Heat Treaters Guide: Practice and Procedures for Irons and Steels. ASM International. 2Ed. |
|
He P, Jia D, Lin T, Wang M, Zhou Y (2010). Effects of high-temperature heat treatment on the mechanical properties of unidirectional carbon fiber reinforced geopolymer composites. Ceram. Int. 36(4):1447-1453. |
|
Ikpeseni SC, Onyekpe BO, Momoh IM (2015). Effect of tempering on the microstructure and mechanical properties of austenitic dual phase steel. Int. J. Phys. Sci. 10(16):490-497. |
|
Jayaraman A, Cheng ET, Earthman JC, Wood TK (1997). Axenic aerobic biofilms inhibit corrosion of SAE 1018 steel through oxygen depletion. Appl. Microbiol. Biotechnol. 48(1):11-17. |
|
KuÅ›trowski P, SuÅ‚kowska D, Chmielarz L, Rafalska-Åasocha A, Dudek B. Dziembaj R (2005). Influence of thermal treatment conditions on the activity of hydrotalcite-derived Mg–Al oxides in the aldol condensation of acetone. Microporous Mesoporous Mater. 78(1):11-22. |
|
Mills JE, Treagust DF (2003). Engineering education-Is problem-based or project-based learning the answer. Australas. J. Eng. Educ. 3(2):2-16. |
|
Noguez ME, Balderas JE, Robert T, Ramirez J, Salas G (2002). Propiedades mecánicas de aceros de bajo carbono con esta-o y diferentes contenidos de elementos residuales. Rev. Cienc. Ing. 23(3):31-35. |
|
Parkinson A (1995). Robust mechanical design using engineering models. J. Vib. Acoust. 117(B):48-54. |
|
Schaefer D, Panchal JH. Choi SK, Mistee F (2008). Strategic Design of Engineering Education for the flat world. Int. J. Eng. Ed. 24(2):274- 282. |
|
Selfridge AR (1985). Approximate material properties in isotropic materials. IEEE Trans. Sonics Ultrason. 32(3):381-394. |
|
Stobrawa JP, Rdzawski ZM, GÅ‚uchowski W (2007). Structure and properties of dispersion hardened submicron grained copper. J. Achiev. Mater. Manuf. Eng. 20(1):195-198. |
|
Suzuki A, Mcevily AJ (1979). Microstructural effects on fatigue crack growth in a low carbon steel. Metall. Mater. Trans. A. 10(4):475-481. |
|
Szykman S, Sriram RD, Bochenek C, Racz JW, Senfaute J (2000). Design Repositories: Engineering Design's New Knowledge Base. IEEE Intell. Syst. Appl. 15(3):48-55. |
|
Topçu O, Übeyli M (2009). On the microstructural and mechanical characterizations of a low carbon and micro-alloyed steel. Mater. Des. 30(8):3274-3278. |
|
Vander-Voort GF, Lampman SR, Sander BR, Anton GJ, Polakowski C, Kinson J, Scott-Jr WW (2004). ASM handbook. Metallography and Microstructures 9:44073-0002. |
|
Whitesides GM, Wong AP (2006). The intersection of biology and materials science. MRS Bull. 31(1):19-27. |
|
Williams JC, Starke EA (2003). Progress in structural materials for aerospace systems. Acta Mater. 51(19):5775-5799. |
|
Wojnar L (2016). Application of ASTM standards in quantitative microstructure evaluation. Czasopismo Techniczne. Mechanika Zeszyt 4-M 2016. pp. 41-46. |
Copyright © 2025 Author(s) retain the copyright of this article.
This article is published under the terms of the Creative Commons Attribution License 4.0