Technical information Applications Code key M.02 M.03 M.03 M.04 Cutting data M.06 Tooling rilling & boring CANELA M.01
Technical information / Clamping system Wedge clamping This classic positive insert clamping system allows the use of all models presenting this geometry, both with additional chipbreaker and sintered. Wedge clamping This classic positive insert clamping system allows the use of all models presenting this geometry, both with additional chipbreaker and sintered. Face milling Profile milling Square shoulder cut. Ceramic tools Automatic lathes General turning Parting & grooving Threading Cartridges Notch tools Inserts Screw clamping Since the advent of the Torx screw it has been possible to hold with complete safety positive inserts with centre hole. Our range covers all the screw fixing permutations. M.02 www.canelacorp.com
Applications / Code key 4 09 5 0.95 Slot milling 90 1942.90 Slot milling 89 Page M.04 Page M.05 SNHX..... SNHX 07.. 0 8 3 0 95 0 1 2 3 4 5 R 6 1 90 92º 08 09 13 15 19 29 2 6 8 8 9 9 22 80 80 80 80 1 2 3 4 3 11 0 7 11 ØM 0 2 4 9 4 07Short Weldon Short Morse IN 228 90 irect spindle mounting 95 irect spindle mounting 96 Cutting hand Ø Ø Ø20 Ø25 Ø32 Ø40 M2-M3 M4 M5 30 34 35 L R 5 6 * 6 ** iameter, inch. Cutting hand Cutting width R L Tooling rilling & boring CANELA M.03
Inserts General turning Characteristics: This economic Slot cutter uses strong inserts allowing depth passes and high feed per teeth. Positive chip forming inserts are available to machine sticky materials. The insert is fixed by wedge that allow a good chip evacuation and an easy use. Applications: The Slot milling cutter works well on steels, alloyed steels, stainless steel, refractory casts and aluminium alloys. b Bd A E 4 0950.95 POSITIVE RAKE b d A E B Z Notch tools Insert size lbs Automatic lathes Ceramic tools Ref. 0940.95.0400.062 0940.95.0400.075 0940.95.0500.062 0940.95.0500.075 0940.95.0600.062 0940.95.0600.075 0940.95.0800.062 0940.95.0800.075 0940.95.00.075 0950.95.00.0 0940.95.00.075 0950.95.00.0.000.000.000.000 1.079 1.079 2.9 2.9 2.9 2.9 8 8 20 20 24 24 1.320 1.320 2.3 2.530 3.960 4.290 6.270 6.930 13.090 15.950 26.840 34.0 Square shoulder cut. Cartridges Profile milling Threading Face milling Parting & grooving Ref. 0940.95.0400.062 0940.95.0400.075 0940.95.0500.062 0940.95.0500.075 0940.95.0600.062 0940.95.0600.075 0940.95.0800.062 0940.95.0800.075 0940.95.00.075 0950.95.00.0 0940.95.00.075 0950.95.00.0 95 95 95 95 SP.. Ref. l T d 0.5 Positive 11 clearance - Square inserts. T d For more information see page: A.41/43 l SPKN SPUN M.04 www.canelacorp.com
Characteristics: This economic Slot cutter uses strong inserts allowing depth passes and high feed per teeth. Positive chip forming inserts are available to machine sticky materials. The insert is fixed by wedge that allow a good chip evacuation and an easy use. Applications: The Slot milling cutter works well on steels, alloyed steels, stainless steel, refractory casts and aluminium alloys. b B d A E 1942.90 NEGATIVE RAKE b d A E B Z Insert size lbs Ref. 1942.90.0400. 1942.90.0500. 1942.90.0400. 1942.90.0500. 1942.90.0600. 1942.90.0400.25 1942.90.0500.25 1942.90.0600.25 1942.90.0800.25 1942.90.0400.31 1942.90.0500.31 1942.90.0600.31 1942.90.0800.31 1942.90.0400.37 1942.90.0500.37 1942.90.0600.37 1942.90.0800.37 1942.90.0400.50 1942.90.0500.50 1942.90.0600.50 1942.90.0800.50 0.1 0.1 0.7 0.7 0.7 0.3 0.3 0.3 0.3 1.1 1.1 14 14 1735 1735 35 35 35 46 46 46 46 45 45 45 45 47 47 47 47 SNHX.. SNHX.. SNHX 13.. SNHX 13.. SNHX 13.. SNHX 03.. SNHX 03.. SNHX 03.. SNHX 03.. SNHX 04.. SNHX 04.. SNHX 04.. SNHX 04.. SNHX 05.. SNHX 05.. SNHX 05.. SNHX 05.. SNHX 07.. SNHX 07.. SNHX 07.. SNHX 07.. 0.440 0.770 0.550 0.880 1.430 0.660 0.990 1.650 2.530 0.770 1.2 2.090 3.4 0.880 1.540 2.530 4.0 1.0 1.870 3.080 5.170 d T SNHX l T d Negative square inserts. Ref. SNHX.. SNHX 13.. SNHX 03.. SNHX 04.. SNHX 05.. SNHX 07.. 0.094 0.6 0.5 0.177 0.213 0.276 For more information see page: A.40 l SNHX Tooling rilling & boring CANELA M.05
Cutting data Inserts General turning Parting & grooving Notch tools Automatic lathes Ceramic tools Threading Cartridges Square shoulder cut. Profile milling Face milling Cutting data for disc cutters (0940.95) Cutting speed nominal values escription Unalloyed steel P Low alloyed steel High alloyed steel Martensitic, Stainless steel Ferritic M Austenitic, Stainless steel Titanium Malleable cast iron Grey cast iron K Nodular cast iron Aluminium alloys Bronze and brass alloys Feed nominal values epending on the milling cutter situation and in relationship with its diameter and the cutting depth, the average chip thicknees (hm) can considerably vary, but it will always be smaller than the feed per tooth. When you mill a groove, the feed is distributed between two stepped inserts, wich are symmetrically spaced one at each side of the milling cutter, forming together the slot. Therefore, when you use the formulae, the z value (number of teeth) must always be divided by two. Cutting data for disc cutters (1942.90) Cutting speed nominal values - hm 0.002-0.005 TIN25 TIN43 PM25 PM40 escription Unalloyed steel Low alloyed steel High alloyed steel Stainless Steel castings escription P M Austenitic, Stainless steel 90-250 130-400 150-500 150-200 300-450 1-230 0-260 0-250 60-150 1-3 5-450 150-500 459-787 328-689 426-820 230-443 426-689 4-492 279-590 148-262 262-394 TIN21 262-590 98-295 328-656 PM40 131-295 197-394 98-213 131-295 150-250 426-689 197-426 0-377 82-197 TIN25 PM25 KM15 PM40 328-689 262-590 4-492 4-459 98-295 Basic qualities 131-295 328-656 262-426 197-426 131-295 262-590 4-394 66-4 66-262 197-295 262-394 197-262 656-1968 230-492 131-262 KM15 Machining example Working piece Vf Examples Average chip thickness (h m) inch. a b c 0,003-0,0035 0,003 0,0025-0,003 Example a: fz~ hm Example c: f=h z Example b: f must be calculated between examples a and c m a b c z fz = Feed per tooth = Milling cutter diameter ae = Radial cutting depth h =Average chip thickness Feed nominal values The chip average thickness (hm) must be 0,004. This corresponds to a feed per tooth of 0,0 in most of the operations made by a side and face milling cutter.. If the radial cutting depth (a2) is too small compared with the milling cutter diameter, use the following formula: f a z=0,004 e m f z h m a e 2 a e a e Titanium escription Malleable cast iron Grey cast iron K 300-450 1-230 0-260 66-262 TIN21 KM15 PM25 426-984 197-295 0-328 459-13 262-394 197-394 NOTE: In order to calculate the table feeds, use the halfth of the inserts in a three cut milling cutter and a face milling cutter in order to get the effective number of teeth. Table feeds = rpm x number of effective teeth x fz Nodular cast iron - spheroidal graphite 0-250 328-656 197-262 131-262 Aluminium alloys 30-0 656-1968 Bronze and brass alloys 60-150 230-492 M.06 www.canelacorp.com