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Image
Published: 30 September 2023
Figure 13.15: Effects of rake angle and cutting speed on chip formation in cutting of 60/40 brass with HSS tools. (a) v = 16.5 mm/min; (b) v = 53 mm/min; (c) v = 415 mm/min.
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Published: 30 September 2023
Figure 13.17: Spread of cutting zone with blunt tool (a) and cutting with a tool having a chamfered edge (b)
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Published: 30 September 2023
Figure 13.28: Effects of feed and cutting speed on flank wear in cutting of normalized 1055 steel with carbide tools (ISO P15). The failure criterion for this data is VB = 0.3 mm (see Fig. 13.24 ).
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Published: 01 November 2013
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in Machining and Chemical Shaping of Titanium[1]
> Titanium: Physical Metallurgy, Processing, and Applications
Published: 01 January 2015
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Published: 01 June 2008
Fig. 9.5 Relative contributions of particle cutting and dislocation bowing
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Published: 01 June 2008
Fig. 22.17 Elevated-temperature performance of cutting tool materials. Source: Ref 9
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Published: 01 December 1984
Figure 2-1 Influence of cutting procedure on deformation and damage to porcelain-enameled steel, 45 ×, 2% nital, polarized light. (Courtesy of A. O. Benscoter, Bethlehem Steel Corp.)
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Published: 01 December 1984
Figure 2-3 Depth of deformation in different metals due to cutting method. (From Wellner, Ref. 6, courtesy of Dr. Riederer-Verlag, GmbH.)
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Published: 01 December 1984
Figure 3-75 Microstructure of a sintered carbide cutting tool made from an WC-Co alloy, 640 ×.
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Published: 01 December 2001
Fig. 7 Microstructure of alloy C36000 (free-cutting brass) showing globules of lead (dark) and alpha grains (light)
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Published: 01 December 2001
Fig. 2 Microstructure of 85WC-9(Ta,Ti,Nb)C-6Co steel-cutting grade of cemented carbide, medium grain size. The gray angular particles are WC, and the dark gray, rounded particles are solid-solution carbides. The white areas are cobalt binder. 1500×
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in Microstructure of Aluminum-Silicon Technical Casting Alloys
> Aluminum-Silicon Casting Alloys: Atlas of Microstructures
Published: 01 December 2016
Fig. 3.1 Schema of the examined cast part, showing cutting points of the metallography specimens
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Published: 01 October 2012
Fig. 2.35 High-speed-machined thin-wall structure. (a) Step cutting. (b) Two-flute carbide end mill. (c) Deep-web machining
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Published: 01 July 1997
Fig. 1 Use of air-carbon arc cutting to produce a groove in a plate. Electrode holder is equipped with a jet of compressed air in line with the electrode to blow away the molten metal.
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in Attributes of Advanced High-Strength Steels
> Advanced-High Strength Steels: Science, Technology, and Applications
Published: 01 August 2013
Fig. 4.24 Effect of cutting tool on hole expansion. Source: Ref 4.1
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Published: 01 November 2007
Fig. 5.16 Development of curvature on the cutting edge of a samurai sword caused by martensite formation during quenching
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in Metallographic Specimen Preparation
> Metallographer’s Guide: Practices and Procedures for Irons and Steels
Published: 01 March 2002
Fig. 7.13 Band-saw blades bonded with tungsten carbide particles along the cutting edge. The top blade is toothless, whereas the bottom blade is gulleted (notched) to help carry away the cutting debris.
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