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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. More
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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) More
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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 ). More
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Published: 01 November 2013
Fig. 7 (a) Orthogonal cutting. (b) Oblique cutting. Source: Ref 6 More
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Published: 01 January 2015
Fig. 13.2 Effect of cutting speed on cutting temperature for carbide and high-speed steel More
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Published: 01 June 2008
Fig. 9.5 Relative contributions of particle cutting and dislocation bowing More
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Published: 01 June 2008
Fig. 22.17 Elevated-temperature performance of cutting tool materials. Source: Ref 9 More
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Published: 01 June 2008
Fig. 22.18 Cutting speed versus material removal More
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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.) More
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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.) More
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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 ×. More
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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) More
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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× More
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Published: 01 December 2016
Fig. 3.1 Schema of the examined cast part, showing cutting points of the metallography specimens More
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Published: 01 October 2012
Fig. 2.34 Step-cutting methodology More
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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 More
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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. More
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Published: 01 August 2013
Fig. 4.24 Effect of cutting tool on hole expansion. Source: Ref 4.1 More
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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 More
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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. More