Search Results for tool life

Figure 13.27: Effects of cutting speed on tool life according to various tool life criteria in cutting of 0.25% C steel ( S ut = 410 MPa) with (a) HSS tool; (b) cemented TiC tool; (c) oxide ceramic tool. (Rake angles: +6° for HSS tool, − 5° for other tools). Refer to Fig. 13.24 More

Fig. 12.18 Effect of tool material and die surface coating on tool life. Source: Ref 12.1 More

Figure 13.26: Qualitative effect of tool geometry on tool life. More

Figure 13.31: Changes in tool life for different tool materials as functions of cutting speed ( VB = 0.5 mm). More

Fig. 12.18 Effect of tool material and die surface coating on tool life. DP, dual phase; CVD, chemical vapor deposition; PVD, physical vapor deposition. Source: Ref 12.1 More

Fig. 26-9 Tool life curves of typical tool materials, and effect of cutting speed on tool life More

Fig. 17.23 Parameters affecting tool life in cold forging [ Yamanaka, 2002 ] More

Fig. 17.25 Procedure for improving tool life [ Yamanaka et al., 2002 ] More

Fig. 11.8 Tool life of ceramic, ceramic-matrix composite, and cemented carbide materials when machining Inconel 718 (feed of 0.2 mm/rev; depth of cut of 2 mm). Source: Ref 11.4 More

Fig. 2 Cutting speed for one-hour tool life versus Brinell hardness number for various through-hardened carbon and alloy steels More

Fig. 10.2 Effect of cutting speed and feed on tool life during the turning of Ti-6Al-4V alpha-beta alloy More

Fig. 10.3 Effect of various cutting fluids and speeds on tool life when drilling Ti-6Al-4V (375 HB). HSS, high-speed steel More

Fig. 10.1 Schematic depiction of porosity influence on tool life. Source: Ref 3 . Reprinted with permission from MPIF, Metal Powder Industries Federation, Princeton, NJ More

Figure 13.32: Effects of lubricant temperature on viscosity and tool life (annealed 3140 steel, HSS tool, f = 0.32 mm, d = 2.5 mm, v = 41 m/min, sulfurized mineral oil). More

Figure 13.36: Effects of cutting-fluid composition and delivery rate on tool life in cutting of Ti-6Al-4V with carbide tools (K20 carbide, f = 0.25 mm, d = 1.5 mm, v = 60 m/min, fluid flow = 1.7 L/min, unless otherwise indicated) More

Figure 13.43: Effects of fluid application on tool life in cutting of annealed 1045 steel (fluids: oil with HSS, 40:0 emulsion with WC). More

Figure 13.45: Effects of machining process on tool life (normalized 1055 steel, f = 0.2 mm/rev, d = 2 mm, tools: M40-T=ISO M40; MAH = micrograin carbide). More

Fig. 26-1 Cutting speed for one-hour tool life vs. Brinell hardness for cast carbon and low alloy steels More

Fig. 26-3 Correlation of 10 minuted tool life during face milling with hardness for various cast steel alloys More

Fig. 26-4 Milling tests. Tool life of high-speed tools for cast 0.34 and 0.25% carbon steels. Conversion: 1 in. = 25.4 mm More