Finite Element Modeling the Hardening Layer Depth in Burnishing Process by Adding Rotations Around Crossing Axes

Izdanje: Naučna konferencija Uniteh 2010

Oblast: Design of Machines and Instruments

Stranice: II

Apstrakt:
The paper presents the outcomes from numerical investigations by means of the finite element method of the burnishing process of external cylindrical surfaces in an aspect of microhardness obtained. A numerical experimental design has been conducted. The objective functions are the superficial microhardness and the hardening depth. The governing parameters are: burnishing force, burnishing feed rate, toroidal surface radius of the deforming roller. An optimal second order plan has been used. The mathematical models have been obtained by means of a regresional analysis.
Ključne reči: burnishing, microhardness, FE analysis
Priložene datoteke:
Kategorije objave: Radovi na konferenciji Unitech 2010, Gabrovo, Bugarska

Preuzimanje citata:

BibTeX format 
@article{article,
  author  = {G. V. Dunčeva, K. K. Krumov, I. M. Amudžev and T. V. Kuzmanov}, 
  title   = {Finite Element Modeling the Hardening Layer Depth in Burnishing Process by Adding Rotations Around Crossing Axes},
  journal = {Naučna konferencija Uniteh 2010},
  year    = 2010,
  pages   = {II-70-78}}
RefWorks Tagged format 
RT Conference Proceedings
A1 G. V. Dunčeva
A1 K. K. Krumov
A1 I. M. Amudžev
A1 T. V. Kuzmanov
T1 Finite Element Modeling the Hardening Layer Depth in Burnishing Process by Adding Rotations Around Crossing Axes
AD Naučna konferencija Unitech, Gabrovo, Bugarska
YR 2010
Unapred formatirani prikaz citata
G. V. Dunčeva, K. K. Krumov, I. M. Amudžev and T. V. Kuzmanov, Finite Element Modeling the Hardening Layer Depth in Burnishing Process by Adding Rotations Around Crossing Axes, Naučna konferencija Unitech, 2010