SmiCut katalógus 2018

 

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A svéd SmiCut cég menetszerszám katalógusa

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CONTENTS TM SmiCut THREAD MILLING TOOLS THREAD TURNING TOOLS SOLID CARBIDE END MILLS SOLID CARBIDE DRILLS CARBIDE RODS 3 31 62 111 123

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TM SmiCut ThreadBurr The Master of Threading Threading and deburring in one operation No additional time for deburring 2

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THREAD MILLING CONTENTS TM SmiCut Technical Information 4 Solid Carbide Thread Mills, ThreadBurr 12 with Chamfer 17 with Internal Coolant 18 with Internal Radial Coolant 19 Micro, one tooth 20 Micro, two teeth 21 Tapered End Mills for NPT/NPTF/BSPT 16 Thread Milling Inserts 22 Thread Milling Cutters 24 Spiral Fluted Thread Milling Inserts 26 Spiral Fluted Thread Milling Cutters 28 F N 33

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TM SmiCut SOLID CARBIDE THREAD MILLS ThreadBurr TiAlCN The advantage with ThreadBurr is that you can thread and deburr in one operation. No additional time for deburring and countersink is needed. The deburring operation is made automatically when thread milling, which gives you the deburring without any extra costs. There is no disadvantage to use the ThreadBurr, even if you don ́t use the deburring function. ThreadBurr is standard on all thread mills from SmiCut. l PL l deburring To get a nice entry and a burr free thread you need to start out with going to full depth (l) in to the hole before starting the threading operation. The thread length (L) will be the cutting length (l) minus one pitch (P). Double ThreadBurr It is possible to get the thread deburred on both sides. For this operation you need to use a special tool as thread length depends on the thickness of the material. Have in mind the following when you order a tool for deburring on both sides. n The cutting length (l) should be equivalent to the thickness of the material. l 1,5 x P l-P Example M30x3 thread length 40 mm 40 / 3 = 13,3 13 x 3 = 39,0 mm Number of pitches Cutting length (l) Thread Milling with NBB2020D39_3.0ISO_AC (l = 39,0 mm) deburring l deburring 4

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TiAlCN SOLID CARBIDE THREAD MILLS ThreadBurr TM SmiCut deburring no deburring deburring no deburring Through holes You can always use a standard tool for through holes. Please take in mind you should use a tool as short as possible to get best stability and economy. Blind Holes With blind holes it is important to have the correct cutting length (l) on the tool to get the thread deburred. Normally you will find a suitable standard tool. If not, we will cut the tool to the correct length with extremely short delivery time and at a reasonable price. Have in mind the following when you order a tool for blind holes. n The cutting length (l) should be required thread length (L) plus one pitch (P). n The distance to cut off (c) has to be dividable by the pitch (P). cl Example cutting off M16x1,5 thread length 24 mm Thread Milling with NB1212D29_1.5ISO_AC (L = 29,25 mm) 24 + 1,5 = 25,5 mm 29,25 -25,5 = 3,75 mm 3,75 / 1,5 = 2,5 2 x 1,5 = 3,0 mm 29,25 - 3,0 = 26,25 mm 26,25 - 1,5 = 24,75 mm Required cutting length (l) Maximum cutting off Number of pitches to cut off Distance to cut off (c) Cutting length (l) after cutting off Thread length (L) after cutting off You only need to cut of the tool when you want to use the deburring function on blind holes and if there is no standard tool with suitable cutting length. 5

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TM SmiCut THREAD MILLING Advantages n 1) A secure machining operation n 6) Less wear on the machine spindle Minimal risk for machining stops as the cutting forces are low and the chips are short. Should there be an accident, the work piece will not be destroyed, as the tool will not be caught since the diameter of the thread mill is less than the thread. n 2) Threading in difficult machined materials The excellent cutting conditions makes it possible to thread mill materials such as hardened steel up to HRC 65, Titanium and other difficult machined materials. n 3) Higher thread quality The cutting conditions are extremely good when you are thread milling. The result of the thread is a higher quality of surface finish, tolerance, angle, etc. compared with other threading methods. n 4) Flexible tool Same cutter can be used for right hand and left hand thread. Threads with different diameters can be made with the same tool as long as the pitch is the same. The same thread mill can be used for blind holes and through holes. W, BSPT, PG, NPT, NPTF and NPSF are thread profiles where you can use the same tool for external and internal thread. Thread milling will give you longer life to the machine spindle compared with tapping as the rotation on the spindle doesn´t need to be stopped and reversed for every thread. n 7) Energy-saving production Low energy consumption as the machine spindle doesn´t need to be stopped and started after each thread. n 8) Thread Milling in a lathe with live tools Reduced machining time compared with thread turning. Excellent chip control. n 9) Threading without burrs The thread entrance will be burr free when using ThreadBurr. Threading and deburring in one operation. No additional time for deburring. n 10) Shorter machining time The machining time will be short as you don´t need to chamfer the thread while using ThreadBurr. Big diameters, fine pitches and long holes saves the most time compared with thread tapping. n 5) Threading in blind holes When thread milling you will get a complete thread profile to the bottom of the hole. When tapping it´s necessary to drill much deeper as it´s not until the third thread the tap will make a complete thread profile. Sometimes you are able to change the construction as you don´t have to take the deep hole into consideration. n 11) Correct Thread Diameter right away The Pitch diameter has been optically measured on thread mills from SmiCut and the theoretical external diameter has been individually laser marked on each cutter so you will get a correct thread straight away. When the tool starts to wear it´s possible to make adjustments in the CNC-program. Deburring of the thread 6

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THREAD MILLING Correct Diameter TM SmiCut How to choose correct Thread Mill Diameter When thread milling, the diameter of the tool has to be smaller than the thread diameter. The reason for this is that the thread has a helix angle, but the tool is straight. If the tool is too big there will be a deviation on the thread profile. The size of this deviation depends on several parameters. 1) Thread diameter 2) Cutter diameter 3) Profile angle 4) Pitch Big cutter diameter compared with thread diameter, small profile angle and big pitch. These are parameters that gives bigger deviation. No deviation Big deviation There are three alternatives too choose correct thread mill diameter. 1) SmiCut Catalogue 2) SmiCut Online Store, www.smicutstore.se (see page 8) 3) SmiProg Software, www.smicut.se (see page 9) How to get correct Thread Diameter The pitch diameter has become optically measured on thread mills from SmiCut and the theoretical external diameter has been individually laser market on each cutter. This diameter is what you should use in your program to get a correct diameter on your thread. For coarse threads you are normally in the middle of the tolerance if you use the laser marked value. Fine threads may be a little bit tight as you get a very small thread profile deviation on these threads (see above). If this is the case you can mill again after adjusting the diameter in your program. NB1414D33_2.5ISO Ø 13,92 L 33,75 How to get a burr free Thread Thread Mills from SmiCut (ThreadBurr) will give you a nice entry and a burr free thread. The cutting length is laser marked on the tool and you can find it as well in the catalogue. This is the distance you should go in to the hole from the surface to get a perfect entry. 7

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TM SmiCut ONLINE STORE Select correct Thread Mill SmiCut Online Store will help you find suitable tools If you need a Thread Mill for a specific thread and you need help to find the correct tool, just go to www.smicutstore.se and you will very quickly find suitable tools. Example: M16 with thread length 32 mm 1) Choose THREAD MILLING Application on the left side 2) Choose M - Metric coarse 3) Choose M16 4) Choose what kind of tool you want, for example without coolant Now you can see all solid carbide thread mills without coolant that are able to produce M16. From these ones you have to take a tool with a cutting length of at least 32 mm. You can see the cutting length on the part number (see next page for more information about ”code key”). The most suitable tool is NB1212D35_2.0ISO_AC. If you want complete information about the dimensions press on the part number of the tool. You are as well able to do this thread with a tool with a smaller diameter or longer thread length, but this result in longer machining time and/or not as good cutting conditions. Sometimes you choose this anyhow as you may already have the tool, the price is less or you want to have a tool that can make different sizes of threads. To check machining time and cutting conditions for different tools, please use ”SmiProg” (see next page). 8

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SMIPROG Software for Thread Milling TM SmiCut SmiProg makes it easy to Thread Mill Specify control system, material, thread diameter, pitch and thread length. The program will recommend suitable tools. Choose one and you will recieve suggested cutting data, time to mill the thread and CNC programming code. The software is made in excel and is less than 500kb even though it includes 21 different languages. You can download SmiProg free of charge at www.smicut.se Code Key Choose among these languages Chinese (simp.) Chinese (trad.) Danish Dutch English Estonian Euskera Finish French German Hungarian Italian Japanese Korean Norweigan Polish Portugese Romanian Russian Spanish Swedish NB 10 10 D 23 1.5 ISO AC type of tool cutter diameter cutting length thread profile shank dimension cutting edges pitch carbide grade N = internal threading E = external threading X = in- and external threading B = burring BB = burring on both sides F = chamfering S = micro, one tooth M = micro, two teeth K = internal coolant T = internal radial coolant C = 3-skärig D = 4-skärig E = 5-skärig F = 6-skärig 9

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TM SmiCut CUTTING DATA Thread Milling Cutting Speed (Vc) and Material Factor (Fm) MATERIAL Steel Cast iron Stainless steel Titanium Nickel Copper Aluminium Inconel Graphite Low carbon, C < 0,25% Medium carbon, C < 0,55% High carbon, C < 0,85% Low alloy High alloy Hardened, HRC < 45 Hardened, HRC < 55 Hardened, HRC < 65 Lamellar graphite Lamellar graphite Nodular graphite, malleable Nodular graphite, malleable Free machining Austenitic Ferritic and austenitic Unalloyed Alloyed Alloyed Unalloyed Alloyed Alloyed Unalloyed Brass, bronze High strength bronze Unalloyed Alloyed, Si < 0.5% Alloyed, Si < 10% Alloyed, Si > 10% 718 Hardness HB < 120 < 200 < 250 < 250 < 350 Tensile Strenght N/mm2 < 400 < 700 < 850 < 850 < 1200 < 150 < 300 < 200 < 300 < 250 < 250 < 300 < 200 < 270 < 350 < 150 < 270 < 350 < 100 < 200 < 470 < 100 < 150 < 120 < 120 < 370 < 500 < 1000 < 700 < 1000 < 850 < 850 < 1000 < 700 < 900 < 1250 < 500 < 900 < 1250 < 350 < 700 < 1500 < 350 < 500 < 400 < 400 Cutting Speed (Vc) m/min 150 - 200 120 - 170 110 - 150 100 - 140 70 - 110 60 - 100 30 - 60 20 - 40 130 - 180 100 - 150 100 - 150 80 - 120 130 - 180 90 - 140 80 - 120 60 - 80 50 - 70 30 - 50 80 - 120 60 - 80 50 - 70 150 - 250 130 - 180 60 - 80 500 - 900 400 - 800 300 - 500 200 - 400 50 - 70 300 - 500 Material Factor (Fm) 1,2 1,1 1,0 1,0 0,9 0,8 0,7 0,6 1,2 1,1 1,0 0,9 1,0 0,9 0,8 0,8 0,7 0,6 0,8 0,7 0,6 1,0 1,0 0,8 1,4 1,3 1,2 1,1 0,6 1,0 L / d = 1,0 L / d = 1,25 L / d = 1,5 L / d = 1,75 L / d = 2,0 L / d = 2,25 L / d = 2,5 L / d = 3,0 L / d = 3,5 L / d = 4,0 B/d = 0,05 1,75 1,52 1,31 1,20 1,09 0,99 0,90 0,78 0,67 0,61 Engagement Factor (Fe) B/d = 0,06 B/d = 0,07 B/d = 0,08 B/d = 0,09 B/d = 0,10 1,59 1,38 1,20 1,09 0,99 0,90 0,82 0,70 0,61 0,56 1,45 1,25 1,09 0,99 0,90 0,82 0,74 0,64 0,56 0,51 1,31 1,14 0,99 0,90 0,82 0,74 0,67 0,58 0,51 0,46 1,20 1,04 0,90 0,82 0,74 0,67 0,61 0,53 0,46 0,42 1,09 0,94 0,82 0,74 0,67 0,61 0,56 0,48 0,42 0,38 B/d = 0,12 0,99 0,86 0,74 0,67 0,61 0,56 0,51 0,44 0,38 0,35 B/d = 0,14 0,90 0,78 0,67 0,61 0,56 0,51 0,46 0,40 0,35 0,31 B/d = 0,16 0,82 0,70 0,61 0,56 0,51 0,46 0,42 0,36 0,31 0,29 starting point compensation on entrance thread milling exit compensation off Dd 10

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Thread Milling CUTTING DATA TM SmiCut Diameter Factor (Fd) D 1,5 2,0 3,0 4,0 5,0 6,0 8,0 10,0 12,0 14,0 16,0 18,0 20,0 25,0 32,0 40,0 Diameter Factor (Fd) 0,010 0,011 0,015 0,019 0,024 0,028 0,036 0,044 0,052 0,060 0,067 0,075 0,082 0,101 0,126 0,156 Example M24x3,0 thread length 36 mm Carbon Steel, up to 400 N/mm2 Thread Milling with NB1616C40_3.0ISO_AC B = 0,54 x 3 = 1,62 mm B/d = 1,62/16 = 0,10 L/d = 36/16 = 2,25 Fz = 1,2 x 0,61 x 0,067 = 0,049 n = (160 x 1000) / (π x 16) = 3183 rpm VfD = 0,049 x 3 x 3183 = 468 mm/min Vfd = 468 x (24-16) / 24 = 156 mm/min T = (278 x 24) / 468 = 14 seconds B = 0,54 x P Fz = Fm x Fe x Fd n = Vc x π 1000 xd VfD = Fz x z x n Vfd = VfD x (D - d) D T = 278 x D VfD D = thread diameter (mm) L = thread lenght (mm) d = cutter diameter (mm) L B = depth of profile (mm) P = pitch (mm) z = cutting edges Fz = feed / flute (mm/flute) n = spindle speed (rpm) Vc = cutting speed (m/min) VfD = feed at thread diameter Ø (mm/min) Vfd = feed at center of mill (mm/min) T = time to mill the thread (seconds) d D P B Carbide Grades AC Micrograin Carbide with TiAlCN coating. Allround Grade with low friction. Use cutting data according to the tables. FC Micrograin Carbide with TiAlN coating. Allround Grade with high heat resistance. Use cutting data according to the tables. 11

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TM SmiCut SOLID CARBIDE THREAD MILLS ThreadBurr AC TiAlCN coated Micrograin Carbide Tolerance The theoretical external diameter of the cutter is lasermarked on the tool. Shank Cylindrical h6, DIN6535 HA Flute 15° right hand spiral Field of application Thread Milling of all types of steel M Pitch mm 0,4 0,4 0,45 0,45 0,45 0,45 0,5 0,5 0,5 0,5 0,5 0,5 0,5 0,5 0,6 0,6 0,7 0,7 0,7 0,7 0,7 0,7 0,75 0,75 0,75 0,75 0,8 0,8 0,8 0,8 0,8 0,8 1,0 1,0 1,0 1,0 1,0 1,0 1,0 1,0 1,0 1,0 1,0 1,0 1,0 1,25 M coarse M2 (1,5xD) M2 (2xD) M2,2 (1,5xD) M2,2 (2xD) M2,5 (1,5xD) M2,5 (2xD) M3 (1,5xD) M3 (2xD) M3 (2,5xD) M3 (1,5xD) M3 (2xD) M3 (2,5xD) M3,5 (1,5xD) M3,5 (2xD) M4 (1,5xD) M4 (2xD) M4 (2,5xD) M4 (1,5xD) M4 (2xD) M4 (2,5xD) M4,5 (1,5xD) M4,5 (2xD) M5 (1,5xD) M5 (2xD) M5 (2,5xD) M5 (1,5xD) M5 (2xD) M5 (2,5xD) M6 (1,5xD) M6 (2xD) M6 (2,5xD) M6 (3xD) M8 (1,5xD) M fine ≥ M4 ≥ M4 ≥ M4 ≥ M4 ≥ M4 ≥ M4 ≥ M5 ≥ M5 ≥ M6 ≥ M6 ≥ M8 ≥ M8 ≥ M8 ≥ M8 ≥ M8 ≥ M8 ≥ M10 ≥ M10 ≥ M10 ≥ M12 ≥ M12 ≥ M14 ≥ M14 ≥ M10 l D METRIC INTERNAL Part Number NB04015C3_0.4ISO_AC NB04015C4_0.4ISO_AC NB04016C3_0.45ISO_AC NB04016C5_0.45ISO_AC NB04019C4_0.45ISO_AC NB04019C5_0.45ISO_AC NB04023C5_0.5ISO_AC NB04023C6_0.5ISO_AC NB04023C8_0.5ISO_AC NB06023C5_0.5ISO_AC NB06023C6_0.5ISO_AC NB06023C8_0.5ISO_AC NB04038C10_0.5ISO_AC NB06038C10_0.5ISO_AC NB04026C6_0.6ISO_AC NB04026C8_0.6ISO_AC NB0403C7_0.7ISO_AC NB0403C8_0.7ISO_AC NB0403C10_0.7ISO_AC NB0603C7_0.7ISO_AC NB0603C8_0.7ISO_AC NB0603C10_0.7ISO_AC NB04034C7_0.75ISO_AC NB04034C10_0.75ISO_AC NB06045C10_0.75ISO_AC NB06045C16_0.75ISO_AC NB04038C8_0.8ISO_AC NB04038C10_0.8ISO_AC NB04038C13_0.8ISO_AC NB06038C8_0.8ISO_AC NB06038C10_0.8ISO_AC NB06038C13_0.8ISO_AC NB06045C10_1.0ISO_AC NB06045C13_1.0ISO_AC NB06045C16_1.0ISO_AC NB06045C19_1.0ISO_AC NB0606C10_1.0ISO_AC NB0606C13_1.0ISO_AC NB0808D10_1.0ISO_AC NB0808D13_1.0ISO_AC NB0808D17_1.0ISO_AC NB1010E14_1.0ISO_ AC NB1010E19_1.0ISO_AC NB1212F15_1.0ISO_AC NB1212F21_1.0ISO_AC NB0606C14_1.25ISO_AC d mm 4 4 4 4 4 4 4 4 4 6 6 6 4 6 4 4 4 4 4 6 6 6 4 4 6 6 4 4 4 6 6 6 6 6 6 6 6 6 8 8 8 10 10 12 12 6 L D mm 1,5 1,5 1,6 1,6 1,9 1,9 2,3 2,3 2,3 2,3 2,3 2,3 3,8 3,8 2,6 2,6 3 3 3 3 3 3 3,4 3,4 4,5 4,5 3,8 3,8 3,8 3,8 3,8 3,8 4,5 4,5 4,5 4,5 6 6 8 8 8 10 10 12 12 6 Cutting l edges mm 3 3,4 3 4,6 3 3,82 3 5,17 3 4,27 3 5,62 3 5,25 3 6,75 3 8,25 3 5,25 3 6,75 3 8,25 3 10,75 3 10,75 3 6,3 3 8,1 3 7,35 3 8,75 3 10,85 3 7,35 3 8,75 3 10,85 3 7,87 3 10,12 3 10,87 3 16,87 3 8,4 3 10,8 3 13,2 3 8,4 3 10,8 3 13,2 3 10,5 3 13,5 3 16,5 3 19,5 3 10,5 3 13,5 4 10,5 4 13,5 4 17,5 5 14,5 5 19,5 6 15,5 6 21,5 3 14,37 L mm 50 50 50 50 50 50 50 50 50 63 63 63 50 63 50 50 50 50 50 63 63 63 50 50 63 63 50 50 50 63 63 63 63 63 63 63 63 63 63 63 63 76 76 83 83 63 12 TiAlCN d

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TiAlCN SOLID CARBIDE THREAD MILLS continue M Pitch mm 1,25 1,25 1,25 1,5 1,5 1,5 1,5 1,5 1,5 1,5 1,5 1,5 1,5 1,5 1,5 1,75 1,75 1,75 1,75 1,75 1,75 2,0 2,0 2,0 2,0 2,0 2,0 2,0 2,0 2,0 2,0 2,0 2,5 2,5 2,5 2,5 2,5 2,5 2,5 3,0 3,0 3,0 3,0 3,0 3,5 3,5 3,5 4,0 4,0 M coarse M8 (2xD) M8 (2,5xD) M8 (3xD) M10 (1,5xD) M10 (2xD) M10 (2,5xD) M10 (3xD) M12 (1,5xD) M12 (2xD) M12 (1,5xD) M12 (2xD) M12 (2,5xD) M12 (3xD) M14 (1,5xD) M14 (2xD) M14 (2,5xD) M16 (1,5xD) M16 (2xD) M16 (2,5xD) M16 (3xD) M18 (1,5xD) M18 (2xD) M18 (2,5xD) M20 (1,5xD) M20 (2xD) M20 (2,5xD) M20 (3xD) M24 (1,5xD) M24 (2xD) M24 (2,5xD) M30 (1,5xD) M30 (2xD) M30 (2,5xD) M36 (1,5xD) M36 (2xD) M fine ≥ M10 ≥ M10 ≥ M10 ≥ M12 ≥ M12 ≥ M12 ≥ M12 ≥ M14 ≥ M14 ≥ M16 ≥ M16 ≥ M16 ≥ M20 ≥ M20 ≥ M20 ≥ M18 ≥ M18 ≥ M18 ≥ M18 ≥ M18 ≥ M18 ≥ M18 ≥ M20 ≥ M20 ≥ M24 ≥ M30 ≥ M30 ≥ M30 ≥ M30 ≥ M30 ≥ M33 ≥ M42 ≥ M42 METRIC INTERNAL Part Number NB0606C18_1.25ISO_AC NB0606C21_1.25ISO_AC NB0606C25_1.25ISO_AC NB08075C17_1.5ISO_AC NB08075C21_1.5ISO_AC NB08075C27_1.5ISO_AC NB08075C32_1.5ISO_AC NB1010D17_1.5ISO_AC NB1010D23_1.5ISO_AC NB1212D15_1.5ISO_AC NB1212D21_1.5ISO_AC NB1212D29_1.5ISO_AC NB1616F18_1.5ISO_AC NB1616F26_1.5ISO_AC NB1616F35_1.5ISO_AC NB0808C20_1.75ISO_AC NB0808C27_1.75ISO_AC NB1009C20_1.75ISO_AC NB1009C27_1.75ISO_AC NB1009C32_1.75ISO_AC NB1009C37_1.75ISO_AC NB1010C23_2.0ISO_AC NB1010C31_2.0ISO_AC NB1010C37_2.0ISO_AC NB1212D27_2.0ISO_AC NB1212D35_2.0ISO_AC NB1212D43_2.0ISO_AC NB1212C51_2.0ISO_AC NB1616E29_2.0ISO_AC NB1616E39_2.0ISO_AC NB2020F43_2.0ISO_AC NB2525F57_2.0ISO_AC NB1212C31_2.5ISO_AC NB1212C38_2.5ISO_AC NB1212C48_2.5ISO_AC NB1414D33_2.5ISO_AC NB1414D43_2.5ISO_AC NB1615D53_2.5ISO_AC NB1615C63_2.5ISO_AC NB1616C40_3.0ISO_AC NB1616C52_3.0ISO_AC NB1818C64_3.0ISO_AC NB2020D46_3.0ISO_AC NB2525D61_3.0ISO_AC NB2020C50_3.5ISO_AC NB2020C64_3.5ISO_AC NB2020C78_3.5ISO_AC NB2525C58_4.0ISO_AC NB2525C78_4.0ISO_AC d mm 6 6 6 8 8 8 8 10 10 12 12 12 16 16 16 8 8 10 10 10 10 10 10 10 12 12 12 12 16 16 20 25 12 12 12 14 14 16 16 16 16 18 20 25 20 20 20 25 25 D mm 6 6 6 7,5 7,5 7,5 7,5 10 10 12 12 12 16 16 16 8 8 9 9 9 9 10 10 10 12 12 12 12 16 16 20 25 12 12 12 14 14 15 15 16 16 18 20 25 20 20 20 25 25 Cutting l edges mm 3 18,12 3 21,87 3 25,62 3 17,25 3 21,75 3 27,75 3 32,25 4 17,25 4 23,25 4 15,75 4 21,75 4 29,25 6 18,75 6 26,25 6 35,25 3 20,12 3 27,12 3 20,12 3 27,12 3 32,37 3 37,62 3 23 3 31 3 37 4 27 4 35 4 43 3 51 5 29 5 39 6 43 6 57 3 31,25 3 38,75 3 48,75 4 33,75 4 43,75 4 53,75 3 63,75 3 40,5 3 52,5 3 64,5 4 46,5 4 61,5 3 50,75 3 64,75 3 78,75 3 58 3 78 L mm 63 63 76 63 76 76 76 76 76 83 83 83 89 89 100 76 76 76 76 100 100 76 100 100 83 100 100 100 89 100 100 130 100 100 100 89 100 120 120 100 120 130 120 130 120 150 150 130 150 M METRIC (external) Pitch mm EXTERNAL Part Number dD mm mm 1,0 EB1010D21_1.0ISO_AC 10 10 1,5 EB1212D26_1.5ISO_AC 12 12 2,0 EB1616D35_2.0ISO_AC 16 16 SmiCut produce Solid Carbide Thread Mills with pitches up to 6,0 mm (4TPI). Cutting l edges mm 4 21,5 4 26,25 4 35 L mm 76 83 100 TM SmiCut 13

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TM SmiCut SOLID CARBIDE THREAD MILLS TiAlCN UN Pitch TPI 44 40 40 40 40 36 36 32 32 32 32 32 32 32 32 32 28 28 28 28 28 24 24 24 24 24 24 24 24 24 24 20 20 20 20 20 20 20 20 18 18 18 18 18 18 18 16 16 16 16 16 16 14 14 14 14 14 13 13 13 UNC No.5 (1,5xD) No.5 (2xD) No.5 (2,5xD) No.6 (1,5xD) No.6 (2xD) No.6 (2,5xD) No.8 (1,5xD) No.8 (2xD) No.8 (2,5xD) No.10 (1,5xD) No.10 (2xD) No.10 (2,5xD) No.12 (1,5xD) No.12 (2xD) No.12 (2,5xD) 1/4 (1,5xD) 1/4 (2xD) 1/4 (2,5xD) 5/16 (1,5xD) 5/16 (2xD) 5/16 (2,5xD) 3/8 (1,5xD) 3/8 (2xD) 3/8 (2,5xD) 7/16 (1,5xD) 7/16 (2xD) 7/16 (2,5xD) 1/2 (1,5xD) 1/2 (2xD) 1/2 (2,5xD) UNF No.5 (1,5xD) No.6 (1,5xD) No.8 (1,5xD) No.8 (2xD) No.10 (1,5xD) No.10 (2xD) No.12 (1,5xD) No.12 (2xD) 1/4 (1,5xD) 1/4 (2xD) 5/16 (1,5xD) 5/16 (2xD) 3/8 (1,5xD) 3/8 (2xD) 7/16 (1,5xD) 7/16 (2xD) 1/2 (1,5xD) 1/2 (2xD) 9/16 (1,5xD) 9/16 (2xD) 5/8 (1,5xD) 5/8 (2xD) 3/4 (1,5xD) 3/4 (2xD) 7/8 (1,5xD) 7/8 (2xD) UNIFIED INTERNAL Part Number NB04024C5_44UN_AC NB04023C5_40UN_AC NB04023C7_40UN_AC NB04023C8_40UN_AC NB04026C6_40UN_AC NB04031C7_36UN_AC NB04031C9_36UN_AC NB04025C6_32UN_AC NB04025C8_32UN_AC NB04025C10_32UN_AC NB0403C7_32UN_AC NB0403C9_32UN_AC NB0403C11_32UN_AC NB04036C8_32UN_AC NB04036C10_32UN_AC NB0606D13_32UN_AC NB0404C9_28UN_AC NB0404C12_28UN_AC NB0605C10_28UN_AC NB0605C14_28UN_AC NB0808D17_28UN_AC NB04038C9_24UN_AC NB04038C11_24UN_AC NB04038C13_24UN_AC NB0404C10_24UN_AC NB0404C12_24UN_AC NB0404C15_24UN_AC NB0606C13_24UN_AC NB0606C17_24UN_AC NB08076C15_24UN_AC NB08076C20_24UN_AC NB06045C10_20UN_AC NB06045C14_20UN_AC NB06045C17_20UN_AC NB0808C18_20UN_AC NB0808C23_20UN_AC NB1010D21_20UN_AC NB1010D27_20UN_AC NB1212E28_20UN_AC NB06058C13_18UN_AC NB06058C17_18UN_AC NB06058C21_18UN_AC NB1010D23_18UN_AC NB1010D30_18UN_AC NB1212D26_18UN_AC NB1212D33_18UN_AC NB0606C16_16UN_AC NB0606C21_16UN_AC NB0807C26_16UN_AC NB1212D31_16UN_AC NB1212D40_16UN_AC NB1616E35_16UN_AC NB0808C19_14UN_AC NB0808C24_14UN_AC NB0808C30_14UN_AC NB1616E35_14UN_AC NB1616E46_14UN_AC NB0808C22_13UN_AC NB0808C28_13UN_AC NB10093C34_13UN_AC d mm 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 6 4 4 6 6 8 4 4 4 4 4 4 6 6 8 8 6 6 6 8 8 10 10 12 6 6 6 10 10 12 12 6 6 8 12 12 16 8 8 8 16 16 8 8 10 D mm 2,4 2,3 2,3 2,3 2,6 3,1 3,1 2,5 2,5 2,5 3 3 3 3,6 3,6 6 4 4 5 5 8 3,8 3,8 3,8 4 4 4 6 6 7,6 7,6 4,5 4,5 4,5 8 8 10 10 12 5,8 5,8 5,8 10 10 12 12 6 6 7 12 12 16 8 8 8 16 16 8 8 9,3 Cutting l edges mm 3 5,48 3 5,4 3 7,3 3 8,57 3 6,03 3 7,41 3 9,53 3 6,75 3 8,33 3 9,92 3 7,54 3 9,13 3 11,51 3 8,33 3 10,72 4 13,1 3 9,52 3 12,25 3 10,43 3 14,06 4 17,69 39 3 11,11 3 13,23 3 10,05 3 12,17 3 15,35 3 13,23 3 17,46 3 15,35 3 20,64 3 10,8 3 14,6 3 17,15 3 18,41 3 23,5 4 20,96 4 27,31 5 28,57 3 13,41 3 17,64 3 21,87 4 23,28 4 30,34 4 26,11 4 33,16 3 16,67 3 21,43 3 26,19 4 30,96 4 40,48 5 35,72 3 19,05 3 24,49 3 29,94 5 35,38 5 46,26 3 22,47 3 28,33 3 34,19 L mm 50 50 50 50 50 50 50 50 50 50 50 50 50 50 50 63 50 50 63 63 63 50 50 50 50 50 50 63 63 63 76 63 63 63 63 76 76 76 83 63 63 63 76 100 83 100 63 63 76 100 100 100 63 76 76 100 120 76 76 100 14

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p. 15

TiAlCN continue SOLID CARBIDE THREAD MILLS TM SmiCut UN UNIFIED Pitch TPI UNC 12 9/16 (1,5xD) 12 9/16 (2xD) 12 11 5/8 (1,5xD) 11 5/8 (2xD) 11 5/8 (2,5xD) 10 3/4 (1,5xD) 10 3/4 (2xD) 9 7/8 (1,5xD) 9 7/8 (2xD) 8 1 (1,5xD) 8 1 (2xD) 8 7 11/8 - 11/4 (1,5xD) 6 13/8 - 11/2 (1,5xD) G/Rp UNF INTERNAL Part Number NB1010C24_12UN_AC NB1010C30_12UN_AC NB1616E43_12UN_AC NB1010C26_11UN_AC NB1010C35_11UN_AC NB12117C42_11UN_AC NB1212C31_10UN_AC NB1212C41_10UN_AC NB1616C38_9UN_AC NB1616C49_9UN_AC NB1616C42_8UN_AC NB1616C55_8UN_AC NB2020D49_8UN_AC NB2020C52_7UN_AC NB2525C61_6UN_AC d mm 10 10 16 10 10 12 12 12 16 16 16 16 20 20 25 D mm 10 10 16 10 10 11,7 12 12 16 16 16 16 20 20 25 Cutting l edges mm 3 24,34 3 30,69 5 43,39 3 26,55 3 35,79 3 42,72 3 31,75 3 41,91 3 38,1 3 49,39 3 42,86 3 55,56 4 49,21 3 52,61 3 61,38 L mm 76 100 100 76 100 100 100 100 100 120 100 120 120 120 130 WHITWORTH PIPE THREAD Pitch TPI 28 19 19 14 14 14 11 11 11 R/Rc Standard G 1/16 - 1/8 G 1/4 - 3/8 G 1/4 - 3/8 G 1/2 - 7/8 G 1/2 - 7/8 G 1/2 - 7/8 G 1 - 1 1/2 G1-3 G≥1 INTERNAL / EXTERNAL Part Number XB0606C10_28W_AC XB0808C15_19W_AC XB1010D22_19W_AC XB1212D20_14W_AC XB1212D28_14W_AC XB1616E28_14W_AC XB1212C26_11W_AC XB1616D40_11W_AC XB2020E49_11W_AC d mm 6 8 10 12 12 16 12 16 20 D Cutting l mm edges mm 6 3 10,43 8 3 15,37 10 4 22,06 12 4 20,86 12 4 28,12 16 5 28,12 12 3 26,55 16 4 40,41 20 5 49,65 BSPT PIPE THREAD L mm 63 63 76 83 83 100 83 100 120 Pitch TPI 28 19 14 11 PG Standard Rc 1/16 - 1/8 RC 1/4 - 3/8 RC 1/2 - 7/8 RC 1 - 2 INTERNAL / EXTERNAL Part Number XB0606C10_28BSPT_AC XB0808C15_19BSPT_AC XB1212D20_14BSPT_AC XB1616D31_11BSPT_AC d mm 6 8 12 16 D Cutting l mm edges mm 6 3 10,43 8 3 15,37 12 4 20,86 16 4 31,17 STEEL CONDUIT THREAD DIN 40430 L mm 63 63 83 100 Pitch TPI 20 18 16 NPSF Standard Pg 7 Pg 9 - 16 Pg 21- 48 INTERNAL / EXTERNAL Part Number XB0808C21_20PG_AC XB1010C27_18PG_AC XB1212D31_16PG_AC d mm 8 10 12 D Cutting l mm edges mm 8 3 20,96 10 3 27,52 12 4 30,96 NPSF PIPE THREAD L mm 63 76 83 Pitch TPI Standard INTERNAL / EXTERNAL Part Number d mm D Cutting mm edges 27 18 14 11,5 1/16 - 1/8 1/4 - 3/8 1/2 - 3/4 1 XB0606C12_27NPSF_AC XB0808C16_18NPSF_AC XB1212D22_14NPSF_AC XB1616D29_11.5NPSF_AC 6 8 12 16 6 8 12 16 3 3 4 4 SmiCut produce Solid Carbide Thread Mills with pitches up to 6,0 mm (4TPI). l mm 12,70 16,23 22,68 29,82 L mm 63 63 83 100 15

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