ESTUDO DA INFLUÊNCIA DA MEDIÇÃO DO RAIO DE ARREDONDAMENTO DA PONTA DA FERRAMENTA NO ACABAMENTO SUPERFICIAL DE PEÇAS TORNEADAS / STUDY OF INFLUENCE OF ROUNDING RADIUS MEASUREMENT OF TOOL TIP ON SURFACE FINISHING OF TURNED PARTS

Aerospace materials experience high levels of mechanical and thermal loading, high/low cycle fatigue, and damage from foreign objects during service, which can lead to premature retirement. Mechanical surface treatments of metallic components, for example, fan blades and blisks, are proven to improve fatigue life, improve wear resistance and avoid stress corrosion by introducing work hardening, compressive residual stresses of sub-surface, and surface finishing. Vibropeening can enhance aerospace materials’ fatigue life involving the kinetic agitation of hardened steel media in a vibratory finishing machine that induces compressive stresses into the component sub-layers while keeping a finished surface. Spherical steel balls are the most widely used shape among steel-based media and have been explored for decades. However, they are not always versatile, which cannot access deep grooves, sharp corners, and intricate profiles. Steel ballcones or satellites, when mixed with round steel balls and other steel media (diagonals, pins, eclipses, cones), works very well in such areas that ball-shaped media are unable to reach. However, a methodology of study the effect of irregularly-shaped media in surface enhancement processes has not been established. This paper proposes a finite element-based model to present a methodology for the parametric study of vibratory surface enhancement with irregularly-shaped media and investigates residual stress profiles within a treated area of an Inconel component. The methodology is discussed in detail, which involves a stochastic simulation of orientation, impact force, and impact location. The contrasting effects of a high aspect ratio, or an edge contact, as opposed to rounded and oblique contacts are demonstrated, with further analysis on the superposition of these effects. Finally, the simulation results are compared with actual residual stress measurements and was found to have a max percent difference of 34% up to 20 [Formula: see text]m below the media surface.

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International Union for Surface Finishing – Interfinish 2021

Transactions of the IMF ◽

10.1080/00202967.2021.1903223 ◽

2021 ◽

pp. 1-1

Keyword(s):

Surface Finishing ◽

International Union

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Numerical Simulation of Effect of Different Initial Morphologies on Melt Hydrodynamics in Laser Polishing of Ti6Al4V

Micromachines ◽

10.3390/mi12050581 ◽

2021 ◽

Vol 12 (5) ◽

pp. 581

Author(s):

Kai Li ◽

Zhenyu Zhao ◽

Houming Zhou ◽

Hao Zhou ◽

Jie Yin ◽

...

Keyword(s):

Flow Behavior ◽

Processing Parameters ◽

Surface Finishing ◽

Polished Surface ◽

Laser Polishing ◽

Starting Position ◽

Double Spiral ◽

The Difference ◽

Thermocapillary Forces ◽

Surface Morphologies

As a surface finishing technique for rapid remelting and re-solidification, laser polishing can effectively eliminate the asperities so as to approach the feature size. Nevertheless, the polished surface quality is significantly sensitive to the processing parameters, especially with respect to melt hydrodynamics. In this paper, a transient two-dimensional model was developed to demonstrate the molten flow behavior for different surface morphologies of the Ti6Al4V alloy. It is illustrated that the complex evolution of the melt hydrodynamics involving heat conduction, thermal convection, thermal radiation, melting and solidification during laser polishing. Results show that the uniformity of the distribution of surface peaks and valleys can improve the molten flow stability and obtain better smoothing effect. The high cooling rate of the molten pool resulting in a shortening of the molten lifetime, which prevents the peaks from being removed by capillary and thermocapillary forces. It is revealed that the mechanism of secondary roughness formation on polished surface. Moreover, the double spiral nest Marangoni convection extrudes the molten to the outsides. It results in the formation of expansion and depression, corresponding to nearby the starting position and at the edges of the polished surface. It is further found that the difference between the simulation and experimental depression depths is only about 2 μm. Correspondingly, the errors are approximately 8.3%, 14.3% and 13.3%, corresponding to Models 1, 2 and 3, respectively. The aforementioned results illustrated that the predicted surface profiles agree reasonably well with the experimentally measured surface height data.

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International Union for Surface Finishing – Interfinish 2020

Transactions of the IMF ◽

10.1080/00202967.2021.1952815 ◽

2021 ◽

Vol 99 (4) ◽

pp. 224-224

Keyword(s):

Surface Finishing ◽

International Union

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Surface finishing of additively manufactured IN718 lattices by electrochemical machining

The International Journal of Advanced Manufacturing Technology ◽

10.1007/s00170-020-05699-8 ◽

2021 ◽

Author(s):

Matthew E. Lynch ◽

Kerisha Williams ◽

Mariana Cabrera ◽

Tommaso Beccuti

Keyword(s):

Electrochemical Machining ◽

Surface Finishing

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Titanium anodizing in a choline dihydrogencitrate salt–oxalic acid deep eutectic solvent: a step towards green chemistry in surface finishing of titanium and its alloys

RSC Advances ◽

10.1039/d1ra01655e ◽

2021 ◽

Vol 11 (34) ◽

pp. 21104-21115

Author(s):

Juliusz Winiarski ◽

Anna Niciejewska ◽

Monika Górnik ◽

Jakub Jakubowski ◽

Włodzimierz Tylus ◽

...

Keyword(s):

Green Chemistry ◽

Oxalic Acid ◽

Deep Eutectic Solvent ◽

Surface Finishing

Fabrication of nanometric color TiO2 layers through polarization of titanium in a choline dihydrogencitrate–oxalic acid DES anodizing bath.

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Experimental investigations on finishing of a brass specimen by magneto-rheological honing technique

Journal of Micromanufacturing ◽

10.1177/25165984211015785 ◽

2021 ◽

pp. 251659842110157

Author(s):

Chinu Kumari ◽

Sanjay Kumar Chak

Keyword(s):

Magnetic Field ◽

Process Parameters ◽

Surface Finish ◽

Rotational Speed ◽

Field Application ◽

Surface Finishing ◽

Experimental Investigations ◽

Significant Parameter ◽

Magnetizing Current ◽

Magneto Rheological

Magneto-rheological abrasive honing (MRAH) is an unconventional surface finishing technique that relies on abrasives mixed with a unique finishing fluid, which changes its characteristics on magnetic field application. This process imparts nanometric-level surface finish with a significant amount of uniformity. Rotating motion of the workpiece and continuous reciprocation of the finishing fluid in the MRAH process are recognized as the major aspects for adopting this process in finishing non-magnetic materials. The finishing obtained through the MRAH process relies on the workpiece’s material properties and process parameters such as concentration of abrasives in finishing fluid, rotational speed of the workpiece, and magnetic field strength/magnetizing current. To study the efficacy of MRAH process, a parametric study was conducted by performing few experiments on a brass workpiece. Design of experiment approach was adopted to plan the experiments, and the effect of different values of magnetizing current, the concentration of abrasives, and rotational speed on the surface finish were analyzed through the application of analysis of variance (ANOVA). From ANOVA, the rotational speed was found as the most significant parameter with a contribution of 48.90% on % reduction in roughness value (%∇Ra). Around 57% of roughness reduction was obtained at the optimized value of process parameters.

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