CoreLine – Thread milling cutter with chamfer facet – SFSE ▲ Profile-corrected ▲ Chamfer section at end of shank ▲ Standard Cutting SFSE M 60° ≤ 2xD R/L DCONMS OAL DC LS 45° APMX Ø DC X X ZEFP LF Ø DCSKX PHD APMX TP Ti500 Solid carbide CX DC Thread TP OAL LS APMX DCONMS h6 DCSKX LF ZEFP PHD 54 815 ... mm mm mm mm mm mm mm mm mm 4,00 M5 0,80 62 36 12,3 8 5,3 12,98 3 4,20 5481505000 1) 4,80 M6 1,00 62 36 14,4 8 6,3 15,18 3 5,00 5481506000 1) 6,50 M8 1,25 74 40 19,0 10 8,3 20,19 3 6,80 5481508000 7,95 M10 1,50 80 45 23,0 12 10,3 24,25 3 8,50 5481510000 9,90 M12 1,75 90 45 28,6 14 12,3 29,94 4 10,25 5481512000 11,60 M14 2,00 100 48 32,6 16 14,3 34,20 4 12,00 5481514000 11,95 M16 2,00 90 45 36,6 12 4 14,00 5481516000 2) 13,95 M18 2,50 110 50 38,0 20 18,3 40,50 4 15,50 5481518000 15,95 M20 2,50 100 48 43,3 16 4 17,50 5481520000 2) P ● M ● K ● N ● S ● H ○ O ● 1) Without Through Coolant 2) Chamfer section at the front of the tool → Here you will find the cutting data standard values. 132 → Here you will find the formulas for calculating the cutting data. 148 When calculating the feedrate for circular milling it is important to know whether contour feed vf or feed on the center path vfm is used. Circular and Thread Milling SFSE
