Общий каталог Sumitomo 2019 - 2020 - страница 475

High-speedCast IronNon-ferrousMetalChamferingGroove /T-SlotR / 3DProfilingRadiusMulti-PurposeHigh FeedShoulderMillingFace MillingMillingCutters SEC-Sumi Dual Mill DGC Type ■ Application Examples Part / Work Material Cast Steel Automotive Components Par t/ Work Material Machine Components / S50C Type DGC Type Conventional Tool Type DGC Type Conventional Tool Body DGCM13080R (ø80) ø80 Body DGCM13160R (ø160) ø160 Tool Insert SNMT13T6ANER-G Single-Sided(8 Corners)Specification (4 Corners) Tool Insert SNMT13T6ANER-FG Single-Sided(8 Corners)Specification (8 Corners) Number of Teeth 6 6 Number of Teeth 10 10 Insert Grade ACP200 PVD Grade Insert Grade ACP200 PVD Grade Cutting Speed (m/min) 160 160 Cutting Speed (m/min) 133 133 Feed Rate per Tooth(mm/t) 0.31 0.31Feed Rate (mm/min)1,1841,184 Feed Rate per Tooth(mm/t) 0.132CuttingFeed Rate (mm/min)3500.132350H Cutting Conditions Axial Depth of Cut (mm) 3 3 Conditions Axial Depth of Cut (mm) 2.5 2.5 Cutting Width (mm) 60 60 Cutting Time 287min 287min Number of Workpieces(pcs/corner) 2 2 Dry/Wet Dry Dry Dry/Wet Wet Wet Reduces burrs and achieves higher milling quality Can be used under the same conditions as the single-sided inserts. compared to conventional tools. Improves tool economy by doubling the number of cutting edges. Part / Work Material Machine Components / Cast Steel Part / Work Material Machine Components / Stainless Steel Type DGC Type Conventional Tool Type DGC Type Conventional Tool Body DGCM13125 (ø125) ø125 Body DGC13100R (ø100) ø100 Tool Insert ONMT05T6ANER-G Double-Sided(16 Corners)Specification (8 Corners) Tool Insert SNET13T6ANER-G Single-Sided(8 Corners)Speci cation (4 Corners) Number of Teeth 8 8 Number of Teeth 5 5 Insert Grade ACP200 PVD Grade Insert Grade ACM300 PVD Grade Cutting Speed (m/min) 160 160 Cutting Speed (m/min) 150 150 Feed Rate per Tooth(mm/t) 0.29 0.29Cutting Feed Rate per Tooth(mm/t) 0.15 0.15Cutting Conditions Feed Rate (mm/min) 945 945 Conditions Feed Rate (mm/min) 360 360 Axial Depth of Cut (mm) 2.5 2.5 Axial Depth of Cut (mm) 2.0 2.0 Dry/Wet Dry Dry Dry/Wet Wet Wet Reduces tool costs by doubling the number of cutting edges. Doubles the number of cutting edges and provides over 3 timeslonger tool life per corner compared to conventional tools. Recommended Cutting Conditions (SNMT / SNET) Recommended Cutting Conditions (ONMT / ONET) ISO Work Material Hardness Cutting Speed Vc (m/min) Feed Rate fz (mm/t) Depth ofCut apInsert ISO Work Material Hardness Cutting Speed Vc (m/min) Feed Rate fz (mm/t) Depth ofCut apInsert Min. - Optimum - Max. Min. - Optimum - Max. (mm) Grade Min. - Optimum - Max. Min. - Optimum - Max. (mm) Grade General Steel 180 to 280 HB 150-200 -250 0.10-0.25 -0.40 <4 ACP200ACP300 General Steel 180 to 280 HB 150-200 -250 0.10-0.30 -0.50 <2 ACP200ACP300 P Mild Steel ≤ 180HB 180-250 -350 ACP2000.10-0.30 -0.45<4ACP300PMild Steel ≤ 180HB 180-250 -350 ACP2000.10-0.50 -0.50<2ACP300 Die Steel 200 to 220 HB 100-150 -200 0.15-0.25 -0.35 <4 ACP200ACP300 Die Steel 200 to 220 HB 100-150 -200 0.15-0.25 -0.30 <2 ACP200ACP300 M Stainless Steel Q 160-200 -250 0.15-0.23 -0.30 <3 ACM300 M Stainless Steel Q 160-200 -250 0.15-0.23 -0.30 <2 ACM300 K Cast Iron 250HB 100-200 -250 0.10-0.25 -0.40 <5 ACK200ACK300 K Cast Iron 250HB 100-200 -250 0.10-0.30 -0.50 ACK200<2ACK300 N Non-ferrous Metal Q 500-750 -1,000 0.15-0.23 -0.30 <3 DL1000 Note The cutting conditions above are a guide. Actual conditions will need to be adjusted Note The cutting conditions above are a guide. Actual conditions will need to be adjusted according to machine rigidity, work clamp rigidity, depth of cut and other factors. according to machine rigidity, work clamp rigidity, depth of cut and other factors. H31