231760 231764 231760006 231760007 231760008 231760009 231760010 231760012 231760014 231760016 231760017 231760020 231760025 231760030 231764006 231764007 231764008 231764009 231764010 231764012 231764014 231764016 231764017 231764020 231764025 231764030 652 M d1 l2 d3 Z l1 d2 17° M d1 l2 d3 Z l1 d2 17° Z 3 M 0.6 - M 0.9 Z 4 M 1 - M 1.7 Z 6 M 2 - M 3 Z 3 M 0.6 - M 0.9 Z 4 M 1 - M 1.7 Z 6 M 2 - M 3 1532 1532 SOLID CARBIDE THREAD MILL CONTACT INFORMATION For more information please call +44 1530 261 145 or send an email to sales@atagarryson.com Copper Aluminium Aluminium < 6% Si Aluminium < 12% Si Brass INCONEL HASTELLOY TITANIUM Gold Plastic MICRO GRAIN KARNASCH NORM M DIN 6535 Shape HA HSC High-SpeedCutting MICRO GRAIN KARNASCH NORM M DIN 6535 Shape HA HSC High-SpeedCutting NANO Spin HRC < 70 STEEL < 1400 N/mm2 INOX stainless steel ferritic < 900 N/mm2 INOX stainless steel martensitic > 900 N/mm2 INOX stainless steel austenitic < 900 N/mm2 INCONEL HASTELLOY TITANIUM GTW GTS GJL GJS Solid carbide thread mill, LogTop polished. No burr formation. Logarithmical relief ground, because of intersecting Solid carbide thread mill, LogTop steel. No burr formation. Logarithmical relief ground, because of intersecting Logarithmical relief ground Logarithmical relief ground Logarithmical relief ground Logarithmical relief ground Thread Core hole M 0.6 0.450 M 0.7 0.525 M 0.8 0.600 M 0.9 0.675 M 1.0 × 0.25 0.750 M 1.1 × 0.25 0.800 M 1.2 × 0.25 0.950 M 1.4 × 0.30 1.100 M 1.6 × 0.35 1.250 M 1.7 × 0.35 1.350 M 1.8 × 0.35 1.450 M 2.0 × 0.40 1.600 M 2.3 × 0.40 1.900 M 2.5 × 0.45 2.050 M 2.6 × 0.45 2.150 M 3.0 × 0.50 2.500 Art. M Stg × D l2 l1 d1 ±0.03 d3 d2 h5 Z Threat milling size M 0.6 0.15 2.5 1.5 45 0.41 0.20 4 3 M 0.6 M 0.7 0.175 2.5 1.8 45 0.48 0.24 4 3 M 0.7 M 0.8 0.20 2.2 1.8 45 0.56 0.28 4 3 M 0.8 M 0.9 0.225 2.3 2.1 45 0.63 0.33 4 3 M 0.9 M 1 0.25 2.6 2.7 45 0.72 0.34 4 4 M1 – M1.1 M 1.2 0.25 2.2 2.7 45 0.92 0.54 4 4 M1.2 M 1.4 0.30 2.2 3.2 45 1.05 0.60 4 4 M1.4 M 1.6 0.35 2.3 3.8 45 1.20 0.68 4 4 M1.6 M 1.7 0.35 2.1 3.8 45 1.30 0.78 4 4 M1.7 – M1.8 M 2 0.40 2.5 5.1 45 1.50 0.90 4 6 M2 – M2.3 M 2.5 0.45 2.2 5.7 45 1.95 1.26 4 6 M2.5 – M2.6 M 3 0.50 2.1 6.3 45 2.36 1.60 4 6 M3 Art. M Stg × D l2 l1 d1 ±0.03 d3 d2 h5 Z Threat milling size M 0.6 0.15 2.5 1.5 45 0.41 0.20 4 3 M 0.6 M 0.7 0.175 2.5 1.8 45 0.48 0.24 4 3 M 0.7 M 0.8 0.20 2.2 1.8 45 0.56 0.28 4 3 M 0.8 M 0.9 0.225 2.3 2.1 45 0.63 0.33 4 3 M 0.9 M 1 0.25 2.6 2.7 45 0.72 0.34 4 4 M1 – M1.1 M 1.2 0.25 2.2 2.7 45 0.92 0.54 4 4 M1.2 M 1.4 0.30 2.2 3.2 45 1.05 0.60 4 4 M1.4 M 1.6 0.35 2.3 3.8 45 1.20 0.68 4 4 M1.6 M 1.7 0.35 2.1 3.8 45 1.30 0.78 4 4 M1.7 – M1.8 M 2 0.40 2.5 5.1 45 1.50 0.90 4 6 M2 – M2.3 M 2.5 0.45 2.2 5.7 45 1.95 1.26 4 6 M2.5 – M2.6 M 3 0.50 2.1 6.3 45 2.36 1.60 4 6 M3 Test 1 Real cutting data Material 1.2083 52 HRC 23 1764 M2.5 n= 9,000 rpm fz= 0.007 mm Tool life: 100 Threads Test 2 Real cutting data Material 1.4301 23 1764 M1.2 n= 26,000 rpm fz= 0.005 mm Tool life: 240 Threads Thread Core hole M 0.6 0.450 M 0.7 0.525 M 0.8 0.600 M 0.9 0.675 M 1.0 × 0.25 0.750 M 1.1 × 0.25 0.800 M 1.2 × 0.25 0.950 M 1.4 × 0.30 1.100 M 1.6 × 0.35 1.250 M 1.7 × 0.35 1.350 M 1.8 × 0.35 1.450 M 2.0 × 0.40 1.600 M 2.3 × 0.40 1.900 M 2.5 × 0.45 2.050 M 2.6 × 0.45 2.150 M 3.0 × 0.50 2.500 Cutting data Cutting data 11 Index 10 9 OIL 8 7 6 5 4 3 2 1
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