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Image
Effect of surface temperature of polisher on polishing rate. (a) Chemical a...
Available to PurchasePublished: 31 December 2017
Fig. 28 Effect of surface temperature of polisher on polishing rate. (a) Chemical and mechanical polishing (CMP) of silicon wafer with polyurethane polisher, 1.5 M-KOH aq. and 0.1 μm ZrO 2 5 wt%, polishing pressure 120 gf/cm 2 , polisher rotary speed 90 rpm, air. Source: Ref 49 . (b
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in Failure of Boilers and Related Equipment
> Analysis and Prevention of Component and Equipment Failures
Published: 30 August 2021
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Effects of various grinding and polishing stages on the specimen surface. (...
Available to PurchasePublished: 01 December 2004
Fig. 11 Effects of various grinding and polishing stages on the specimen surface. (a) The rolling action of diamond particles on a hard lap surface during planar grinding produces a flat specimen with a minimal amount of damage to the coating. (b) During fine grinding, rotating the specimen
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Micrograph of the surface of a silk polishing cloth. The interstitial areas...
Available to Purchase
in Rough Grinding and Polishing of Fiber-Reinforced Composite Samples[1]
> Metallography and Microstructures
Published: 01 December 2004
Fig. 7 Micrograph of the surface of a silk polishing cloth. The interstitial areas are where the abrasive material is able to be mechanically locked into the weave. Polarized light, 1 4 wave plate, 10× objective
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Book Chapter
Thermal Aspects of Surface Finishing Processes
Available to PurchaseBook: Surface Engineering
Series: ASM Handbook
Volume: 5
Publisher: ASM International
Published: 01 January 1994
DOI: 10.31399/asm.hb.v05.a0001239
EISBN: 978-1-62708-170-2
... components with controlled surface properties. Emphasis is placed on kinematically simple configurations of finishing processes, such as surface grinding, flat surface polishing, and lapping. flat surface polishing grinding lapping surface finishing surface properties thermal damage thermal...
Abstract
Thermal phenomena play a key role in the mechanics of surface finishing processes. This article provides information on the analysis and measurement of temperatures and associated thermal damage generated by finishing processes that are essential to the production of engineered components with controlled surface properties. Emphasis is placed on kinematically simple configurations of finishing processes, such as surface grinding, flat surface polishing, and lapping.
Book: Surface Engineering
Series: ASM Handbook
Volume: 5
Publisher: ASM International
Published: 01 January 1994
DOI: 10.31399/asm.hb.v05.a0001315
EISBN: 978-1-62708-170-2
... and finishing processes. It explains how to remove parting lines and presents several mechanical finishing methods, including surface polishing, brushing, controlled shot peening, and buffing. It also provides information on solvent cleaning, emulsion cleaning, aqueous detergent or alkaline cleaning...
Abstract
Zinc and zinc alloys require surface engineering prior to coating or use to improve adhesion and corrosion resistance. Die-cast zinc parts, in addition, must be trimmed and finished to remove flash and parting lines. This article covers zinc cleaning procedures as well as coating and finishing processes. It explains how to remove parting lines and presents several mechanical finishing methods, including surface polishing, brushing, controlled shot peening, and buffing. It also provides information on solvent cleaning, emulsion cleaning, aqueous detergent or alkaline cleaning), electrocleaning, acid dipping, and zinc conversion coating treatments.
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Line scan across the surface of a polished and etched pearlite sample (a) a...
Available to PurchasePublished: 01 January 1986
Fig. 7 Line scan across the surface of a polished and etched pearlite sample (a) and the effect of beam diameter, d s , on the secondary electron signal intensity (b).
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Published: 01 January 1987
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Published: 01 January 2002
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Published: 01 January 1994
Fig. 5 Surface roughness of Si 3 N 4 after (a) 0.25 μm diamond polish and (b) mechanochemical polish
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Relief effects observable on a polished surface of Ni-50.3Ti-2W are charact...
Available to PurchasePublished: 01 December 2004
Fig. 23 Relief effects observable on a polished surface of Ni-50.3Ti-2W are characteristic of the martensitic transformation; water quenched from 550 °C (1020 °F). Source: Ref 19 . Reprinted with permission
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The various steps in preparing a polished and etched surface on a roll surf...
Available to PurchasePublished: 01 December 2004
Fig. 10 The various steps in preparing a polished and etched surface on a roll surface. (a) Grinding an area on the roll. (b) Blow-drying the region with compressed air. (c) The polishing stage. Applying a diamond compound from an aerosol can. (d) The final polished area. (e) Reflection seen
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Martensite formed on the free polished surface of High-Expansion 22-3 alloy...
Available to PurchasePublished: 01 December 2004
Fig. 14 Martensite formed on the free polished surface of High-Expansion 22-3 alloy after refrigeration to −73 °C (−100 °F) to convert any unstable austenite to martensite. The specimen was brought back to room temperature, cleaned, and viewed with Nomarski differential interference contrast
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As-polished surfaces of (a) AM60 and AZ91D pressure die cast specimens prep...
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in Metallography and Microstructures of Magnesium and Its Alloys
> Metallography and Microstructures
Published: 01 December 2004
Fig. 23 As-polished surfaces of (a) AM60 and AZ91D pressure die cast specimens prepared using Masterprep alumina for the final step. Courtesy of G.F. Vander Voort, Buehler Ltd.
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Published: 31 December 2017
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Surface profiles of a polished steel specimen obtained using white light in...
Available to PurchasePublished: 31 December 2017
Fig. 1 Surface profiles of a polished steel specimen obtained using white light interferometry. (a) Surface map. (b) Line profile along XX . (c) Line profile along YY
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Nomarski DIC reveals low-carbon martensite formed on the as-polished surfac...
Available to PurchasePublished: 15 December 2019
Fig. 43 Nomarski DIC reveals low-carbon martensite formed on the as-polished surface of Carpenter Technology Corp.’s Temperature Compensator “30” alloy, type 2 (Fe-0.12%C-0.6%Mn-0.25%Si-30%Ni) after refrigeration in liquid nitrogen, which converted any unstable austenite to martensite with its
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Microstructure of inner-diameter (ID) surface. (a) As-polished view showing...
Available to Purchase
in Failure of Boilers and Related Equipment
> Analysis and Prevention of Component and Equipment Failures
Published: 30 August 2021
Fig. 35 Microstructure of inner-diameter (ID) surface. (a) As-polished view showing layered porous scale with penetration into the grain boundaries at the ID edge. (b) ID microstructure of ferrite grains with grain-boundary fissures. Original magnification: 200×
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in Failure Analysis of Railroad Components
> Analysis and Prevention of Component and Equipment Failures
Published: 30 August 2021
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Optical microscopy image of cross section of as-polished fracture surface s...
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in Analysis and Prevention of Environmental- and Corrosion-Related Failures
> Failure Analysis and Prevention
Published: 15 January 2021
Fig. 9 Optical microscopy image of cross section of as-polished fracture surface showing dezincification. Original magnification: 64.5×
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