Каталог ARNO монолитный осевой инструмент - страница 458

Material group Brinell hardness HB Tensile strength Rm (N/mm²) Chipping group VHM TiAlN VHM diamond Recommended cutting data Solid carbide end-mill ≤ 5xD Empfohlene Schnittwerte VHM-Schaftfräser ≤ 3xD Cutting speed Structure of the material groups Vc (m/min) and identification letters C ≤ 0.25 % annealed 125 428 P1 100 - 110 - 120 - C > 0.25 … ≤ 0.55 % annealed 190 639 P2 100 - 110 - 120 - C > 0.25 … ≤ 0.55 % hardened and tempered 210 708 P3 80 - 90 - 100 - Unalloyed steel C > 0.55 % annealed 190 639 P4 100 - 110 - 120 - C > 0.55 % hardened and tempered 300 1013 P5 80 - 90 - 100 - Machining steel (short-chipping) tempered 220 745 P6 100 - 110 - 120 - annealed 175 591 P7 65 - 78 - 90 - P Low alloyed steel hardened and temperedhardened and tempered 300 1013 P8 50 - 60 - 70 -3801282P943 - 52 - 60- hardened and tempered 430 1477 P10 43 - 52 - 60 - annealed 200 675 P11 65 - 78 - 90 - High alloyed steel andhigh alloyed tool steelhardened 300 1013 P12 50 - 60 - 70 - hardened 400 1361 P13 43 - 52 - 60 - ferritic / martensitic, annealed 200 675 P14 45 - 53 - 60 - Stainless steel martensitic, hardened and tempered 330 1114 P15 35 - 43 - 50 - austenitic, chilled 200 675 M1 45 - 53 - 60 - M Stainless steel austenitic, precipitation-hardened (PH) 300 1013 M2 35 - 43 - 50 - austenitic-ferritic, Duplex 230 778 M3 45 - 53 - 60 - ferritic 200 675 K1 90 - 110 - 130 - Malleable cast iron pearlitic 260 867 K2 70 - 78 - 85 - low tensile strength 180 602 K3 90 - 110 - 130 - K Cast iron high tensile strength / austenitic 245 825 K4 70 - 78 - 85 - Cast iron with nodular ferritic 155 518 K5 90 - 110 - 130 - graphite pearlitic 265 885 K6 70 - 78 - 85 - GGV (CGI) 200 675 K7 90 - 110 - 130 - Aluminium alloys not heat treatable 30 - N1 - 140 - 260 - 380 long chipping heat treatable, heat treated 100 343 N2 - 140 - 260 - 380 ≤ 12 % Si, not heat treatable 75 260 N3 - 120 - 210 - 300 Casted aluminium alloys ≤ 12 % Si, aushärtbar, ausgehärtet 90 314 N4 - 120 - 210 - 300 > 12 % Si, not heat treatable 130 447 N5 - 120 - 180 - 240 Magnesium alloys 70 250 N6 - 140 - 260 - 380 Unalloyed, elektrolyte copper 100 343 N7 70 - 135 - 200 - N Copper and copper alloys(Brass / Bronze)Brass, BronzeCu-alloys, short-chipping 90 314 N8 70 - 135 - 200 120 - 180 - 240110382N970 - 135 - 200140 - 260 - 380 High-tensile, Ampco 300 1013 N10 70 - 135 - 200 120 - 180 - 240 Lead alloys (without abrasive filling material) - - N11 - - Duroplastic (without abrasive filling material) - - N12 - - Plastic glas fibre reinforced GFRP - - N13 - - Non-ferrous materials Plastic carbon fibre reinforced CFRP - - N14 - - Plastic aramid fibre reinforced AFRP - - N15 - - Graphite (tech.) 80 Shore - N16 - - annealed 200 675 S1 15 - 24 - 33 - Fe-Basis heat treated 280 943 S2 15 - 24 - 33 - High temperatureresistant alloys annealed 250 839 S3 15 - 24 - 33 - Ni- or Co-alloyed heat treated 350 1177 S4 15 - 24 - 33 - S casting 320 1076 S5 15 - 24 - 33 -Pure titan200675S615 - 27 - 39- Titanium alloys α- and β-alloys, heat treated 375 1262 S7 15 - 27 - 39 - β-alloys 410 1396 S8 15 - 27 - 39 - Wolfram alloys 300 1013 S9 - - Molybdän alloys 300 1013 S10 - - hardened 50 HRC - H1 14 - 18 - 22 - H Hardened steel hardenedhardened 55 HRC - H2 10 - 13 - 16 -60 HRC-H38 - 11 - 13- Hardened cast iron hardened 55 HRC - H4 10 - 13 - 16 - The recommended cutting data are only approximate values. It may be necessary to adjust them to each individual machining application. 458 VHM- / PM-HSS Werkzeuge | Solid carbide- / PM-HSS Tools | Outils carbure monobloc / PM-HSS Alle Angaben in mm / Dimensions in mm SP