Finishing Operations to Enhance Surface Integrity of Parts

Finishing Operations to Enhance Surface Integrity of Parts

Surface integrity management is remarkably important when metal alloys are used to manufacture relevant parts. Advanced materials such as titanium, nickel alloys, non-ferrous alloys, or special steels make surface integrity preservation after machining particularly difficult. Consequently, thorough...

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Bibliographic Details
Other Authors: Dessein, Gilles (Editor), Travieso-Rodriguez, J. Antonio (Editor)
Format: Electronic Book Chapter
Language:English
Published: Basel MDPI - Multidisciplinary Digital Publishing Institute 2023
Subjects:
Technology: general issues
History of engineering & technology
ball burnishing
regular reliefs
surface topography
austenitic stainless steel
fatigue life
t-test
Bayesian rule
sandblasting
precision spheres
non-contact metrology
laser scanning
laser sensors
accelerometer
acoustic emission
natural frequencies
operational deflection shape
piezoelectric
process monitoring
ultrasonic
additive manufacturing
fused filament fabrication
PEI Ultem 9085
postprocessing
finishing operations
surface enhancement
vapor smoothing
thermal annealing
abrasive shot blasting
shot peening
sensitivity analysis
honing
roughness
tool wear
material removal rate
optimization
desirability function
mixture design
finish milling
chatter
part quality
AA2024 floor milling
finishing processes
surface integrity
bearing steel
residual stresses
rolling contact fatigue
slide burnishing
X6CrNiTi18 stainless steel
surface roughness 3D
topography
microhardness
residual stress
positron mean lifetime τmean
tribological interaction
stainless steel
friction coefficient
vibration-assisted ball burnishing
tribology
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Description
Summary:Surface integrity management is remarkably important when metal alloys are used to manufacture relevant parts. Advanced materials such as titanium, nickel alloys, non-ferrous alloys, or special steels make surface integrity preservation after machining particularly difficult. Consequently, thorough finishing techniques are required to rectify the surface integrity. Engineering surfaces that exemplify the importance of surface integrity control are typically found in the transportation industry. Pieces formed using complex curved surfaces, such as turbine blades or landing gears, and molds and dies for upsetting operations are good examples. These kinds of parts are often manufactured through 3- or 5-axis machining with the aid of successive adjacent passes of hemispherical tools, whereas this ball-end milling strategy allows one to achieve complex surfaces by following the desired shape through NC interpolations generated by a CAM (it also has deep constraints). In this context, processes such as burnishing, honing, plateau-honing, grinding, and shot-peening can contribute to improving the described surfaces in terms of texture, residual stress, and hardness, and are easily maneuverable from a procedural point of view. This Special Issue collected the research results on these kinds of finishing processes, which are very important to the transportation industry.
Physical Description:1 electronic resource (182 p.)
ISBN:books978-3-0365-9285-5
9783036592848
9783036592855
Access:Open Access

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