New Theoretical Approach of the Fracture Ductility of Steels and its Relation with the Microscopy Structural Characterization-Reference-Cited by-同舟云学术

New Theoretical Approach of the Fracture Ductility of Steels and its Relation with the Microscopy Structural Characterization

Published:2010-09 Issue: Volume:449 Page:96-103
ISSN:1662-9795
Container-title:Key Engineering Materials
language:
Short-container-title:KEM

Author:

Yermishkin Viacheslav A.¹,Tamayo Meza Pedro A.²,Muñoz Aguirre N.²,Mendez Arait M.³,Vilchis Leonardo D.³

Affiliation:

1. Russian Academy of Science

2. Instituto Politécnico Nacional

3. PIFI Student Program.- IPN

Abstract

It is well known that the formation of a highly hardening state of the standard steels is related with the improvement of its mechanical characteristics, which means an increment in the ductility of the fracture. Commonly, the ductility of the fracture is measured by means of mechanical methods involving large size and geometrical special shape of the sample. Satisfy these requirements in the initial steps of the development of a new material, or during the treatment for improving the hardness, is a dif ficult task. The present work shows the theoretical determination of the ductility of the fracture when the researchers have a small piece of the sample. Also, from the analysis of microscopy images, by the first time, it is demonstrated that an ultra-hardening state of the steel corresponds to a nano-fragmented dislocational structure in accordance to the theory.

Publisher

Trans Tech Publications, Ltd.

Subject

Mechanical Engineering,Mechanics of Materials,General Materials Science

Link

https://www.scientific.net/KEM.449.96.pdf

Reference14 articles.

1. Nott, Dg. F. Osnovye mejaniki razrusheniya M. Metallurgiya 255 s, (1978).

2. Hirth D, Lotte I Teoria dislokacii. M. Atomizdat. 599 s, (1972).

3. Novikov II, Yermishkin VA Fizicheskaya mejanika realnyej materialov M. Nauka. 323 s, (2004).

4. VA Yermishkin, P Tamayo Meza, N Muñoz Aguirre, SP Kulagin and NA Minina, Fracture of 08KP steel at nano-fragmented state, Proceedings of NSTI Nanotech2009-International Conference and Exposition Vol. 1, 405-408 (2009).

5. Hertzberg RW. Deformation and fracture mechanics of engineering materials, New York: John Wiley and Sons, 697 (1973).