Frez TOP-Cut do otworów podłużnych ze stali szybkotnącej HSS-E z powłoką TiCN
Frez do otworów podłużnych ze stali szybkotnącej HSS-E, wersja krótka, DIN 327. Uniwersalne zastosowanie do prawie wszystkich materiałów.
Cechy i zalety produktu: frez o ostrzach centralnych, ostrokrawędziowy, posiadający dwa zęby. Stosowany do wykonywania rowków wpustowych zgodnie z DIN 6885-1 lub do frezowania otworów. Powłoka TiCN zapewnia większą trwałość narzędzia.
Dostępne średnice ostrza [mm]: 1.8, 2, 2.5, 2.8, 3, 3.5, 3.8, 4, 4.5, 4.8, 5, 5.5, 5.75, 6, 6.5, 6.75, 7, 7.5, 7.75, 8, 8.5, 8.7, 9, 9.5, 9.7, 10, 10.5, 11, 11.5, 11.7, 12, 13, 13.7, 14, 15, 15.7, 16, 16.7, 17, 17.7, 18, 19.7, 20, 21.7, 22, 24, 24.7, 25, 26, 28, 30, 31.7, 32, 36.
Cechy i zalety produktu: frez o ostrzach centralnych, ostrokrawędziowy, posiadający dwa zęby. Stosowany do wykonywania rowków wpustowych zgodnie z DIN 6885-1 lub do frezowania otworów. Powłoka TiCN zapewnia większą trwałość narzędzia.
Dostępne średnice ostrza [mm]: 1.8, 2, 2.5, 2.8, 3, 3.5, 3.8, 4, 4.5, 4.8, 5, 5.5, 5.75, 6, 6.5, 6.75, 7, 7.5, 7.75, 8, 8.5, 8.7, 9, 9.5, 9.7, 10, 10.5, 11, 11.5, 11.7, 12, 13, 13.7, 14, 15, 15.7, 16, 16.7, 17, 17.7, 18, 19.7, 20, 21.7, 22, 24, 24.7, 25, 26, 28, 30, 31.7, 32, 36.
| Manufacturer: | EMUGE-FRANKEN |
|---|---|
| Manufacturer Part Number: | 2000C |
| Coating: | Titanium Carbon Nitride (TiCN) |
| Cutting Material: | High Speed Steel with Cobalt |
| Helix Angle [deg]: | 30 |
| Internal Cooling Supply: | no internal cooling supply |
| Shank Type: | Straight Shank (DIN 1835-A) |
| Tool Interface Norm: | DIN 1835 |
| Version: | Flat Face Sharp-Edged |
| P1.1: Cold-extrusion steels, construction steels, free-cutting steels, ≤600 N/mm2 |
| P2.1: Construction steels, case-hardened steels, steel castings, ≤800 N/mm2 |
| P3.1: Case-hardened steels, heat-treatable steels, cold work steels, ≤1000 N/mm2 |
| P4.1: Heat-treatable steels, Cold work steels, Nitriding steels, ≤1200 N/mm2 |
| M1.1: Ferritic, martensitic, ≤ 950 N/mm2 |
| M2.1:Austenitic, ≤ 950 N/mm2 |
| M3.1: Austenitic-ferritic (Duplex), ≤ 1100 N/mm2 |
| M4.1: ustenitic-ferritic heat-resistant (Super Duplex), ≤ 1250 N/mm2 |
| K1.1: Cast iron with lamellar graphite (GJL), 100-250 N/mm2 |
| K1.2: Cast iron with lamellar graphite (GJL), 250-450 N/mm2 |
| K2.1: Cast iron with nodular graphite (GJS), 350-500 N/mm2 |
| K2.2: Cast iron with nodular graphite (GJS), 500-900 N/mm2 |
| K3.1: Cast iron with vermicular graphite (GJV), 300-400 N/mm2 |
| K3.2: Cast iron with vermicular graphite (GJV), 400-500 N/mm2 |
| K4.1: Malleable cast iron (GTMW, GTMB), 250-500 N/mm2 |
| K4.2: Malleable cast iron (GTMW, GTMB), 500-800 N/mm2 |
| N1.1: Wrought aluminium alloys, ≤200 N/mm2 |
| N1.2: Wrought aluminium alloys, ≤350 N/mm2 |
| N1.3: Wrought aluminium alloys, ≤550 N/mm2 |
| N1.4: Aluminium cast alloys, Si ≤ 7% N/mm2 |
| N1.5: Aluminium cast alloys,7% < Si ≤ 12% N/mm2 |
| N2.1: Pure copper, low-alloyed copper, ≤ 400 N/mm2 |
| N2.2: Copper-zinc alloys (brass, long-chipping), ≤ 550 N/mm2 |
| N2.3: Copper-zinc alloys (brass, short-chipping), ≤ 550 N/mm2 |
| N2.4: Copper-aluminium alloys (alu bronze, long-chipping) , ≤ 800 N/mm2 |
| N2.5: Copper-tin alloys (tin bronze, long-chipping), ≤ 700 N/mm2 |
| N2.6: Copper-tin alloys (tin bronze, long-chipping), ≤ 400 N/mm2 |
| N2.7: Special copper alloys, ≤ 600 N/mm2 |
| N3.1: Magnesium wrought alloys, ≤ 500 N/mm2 |
| N3.2: Magnesium cast alloys, ≤ 500 N/mm2 |
| N4.1: Duroplastics (short-chipping) |
| N4.2: Thermoplastics (long-chipping) |
| N5.2: Tungsten-copper alloys |
| S1.1: Pure titanium, ≤ 450 N/mm2 |
| S1.2: Titanium alloys, ≤ 900 N/mm2 |
| S2.1: Pure nickel, ≤ 650 N/mm2 |
| S2.2: Nickel-base alloys, ≤ 1000 N/mm2; |
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