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Impact of machining on the texture, surface stress field, microstructure and corrosion behaviour of metals

Identyfikatory
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
It is well admitted that machining processes can introduce residual stresses at the surface of machined workpieces and can modify significantly the microstructure and texture in a small volume c1ose to the surface. Such changes are important in controlling the corrosion behaviour of these workpieces in the presence of an aggressive environment and the initiation of fracture processes. Therefore, it is of major importance to quantify residual stresses and texture components and to determine the machining-induced microstructure to understand and predict the corrosion behaviour of modified surfaces. In the present paper, particular attention was paid to pure copper considered as a modeling system. The influence of the nose radius of the tool, the cutting speed and the lubricant on the surface stress field and the surface texture was quantified by means of XRD techniques. On the other band, the microstructural modifications at !be specimen surface and in depth were evaluated using scanning electron microscopy. The electrochemical behaviour of modified surfaces were studied from local measurements in 1M NaClO4 using the electrochemical microcell technique.
Rocznik
Strony
128--140
Opis fizyczny
Bibliogr. 15 poz., rys., tab.
Twórcy
autor
autor
autor
  • LRRS, UMR 5613 CNRS-Univ. de Bourgogne, BP 47870, 21078 Dijon Cedex, France
Bibliografia
  • [1] To S, Lee WB, Deformation behaviour of aluminium single crystals in ultraprecision diamond turning. Journal of Materials Processing Technology 113 (2001), pp 296-300.
  • [2] Ueda K, Amano A, Ogawa K, Takamstu H, Sakuta S, Murai S, Machining high precision mirrors using newly developed CNC machine. Annals of CIRP 40 (1991), pp 555-565.
  • [3] Yuan Z. J, He J.C, Yao X.Y., The optimum crystal plane of natural diamond tool for precision machining. Annals of CIRP 41 (1992), pp 65-69.
  • [4] Thiele JD, Melkote SN. Effect of cutting edge geometry and work-piece hardness on surface generation in the finish bard turning of AISI521O0 steel. Journal of Materials Processing Technology 94 (1999), pp 216-226.
  • [5] Capello E, Davoli P, Bassanini G, Bisi A, Residual stresses and surface roughness in turning. Journal of Engineering Materials and Technology 121 (1999), pp 346-351.
  • [6] Jacobson M. Surface integrity of hard-turned M50 steel. Proceedings of the Institution of Mechanical Engineers, Part B. Journal of Engineering Manufacture. 216 (2002), pp 47-54.
  • [7] Gunnberg F, Escursell M, Jacobson M. The influence of cutting parameters on residual stresses and surface topography during bard turning of 18Mcr5 case carburised steel. Journal of Materials Processing Technology. 147 (2004), pp 82-90
  • [8] Jacobus K, DeVor RE, Kapoor SG. Machining-Induced Residual stress : Experimentation and Modeling. Journal of Manufacturing Science and Engineering. 122 (2000), pp20-31.
  • [9] Salio M, Berruti T, De foli G. International Journal of Mechanical Sciences. 48 (2006), pp976-984.
  • [10] Grum J, Kisin M. The influence of the microstructure of three Al-SI alloys on the cutting-force amplitude during fine turning. International Journal of Machine Tools & Manufacture. 46 (2006), pp. 769-781.
  • [11] Coelho R.T, Silva L.R, Braghini A, Bezerra A.A. Same effects of cutting edge preparation and geometric modifications when turning next term INCONEL 718TM at high cutting speeds. Journal of Materials Processing Technology. 148 (2004), pp. 147-153.
  • [12] Ramesh A, Melkote SN, AlIard LF, Riester L, Watkins TR. Analysis of white layers formed in bard turning of AISI 52100 steel. Materials Science & Engineering A. 390 (2005), pp. 88-97.
  • [13] Dolle H. The influence of Multiaxial Stress, Stress Gradient and Elastic Anisotropy on the evaluation of residual stresses by X-rays. Journal of applied crystallography 12 (1979), pp, 489-510.
  • [14] Skrzypek S.J, Baczmanski A. Progress in X-ray Diffraction of Residual Macro-stress Determination Related to Surface Layer Gradients and' Anisotropy. Advances in X-ray Analysis,44 (2001), pp. 134-144.
  • [15] Suter T,. Böhni H, A new microelectrochemical method to study pit initiation on stainless steels. Electrochimica Acta. 42 (1997), pp. 3275-3280.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-article-BPG5-0027-0016
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