CNC-milling CNC-grinding Laser hardening and other treatments. CNC-milling. 262 263 CNC-profile grinding. 264 265 Laser hardening. 266 Laser marking. 266 Wire eroding 267 Planing. 267 Sawing. 268 3D-index arm. 268 Test bending. 268
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CNC-MILLING Phone +49 (0) 27 36 / 44 42-0. Fax +49 (0) 27 36 / 44 42-22 CNC-milling CNC-milling machines traverse path: X = 6.000 mm Y = 1.250 mm Z = 1.600 mm Tool production on a high level Customer specific milling tasks fast and reliable VIDEO Job order production We mill for you: Press brake tools Single parts Small batches Special productions Part- and complete machining Welded costructions Other workpieces CNC-milling shop 262
CNC-MILLING post@ukb-gmbh.com. www.ukb-gmbh.com CNC-milling machine DMG DMF 600-11 linear 263 16
CNC-GRINDING Phone +49 (0) 27 36 / 44 42-0. Fax +49 (0) 27 36 / 44 42-22 CNC-profile grinding CNC-profile grinding machines traverse path: X = 5.000 mm Y = 800 mm Z = 700 mm Exact accuracy in shape, parallelism and repeatability Hardened workpieces and surfaces can be worked on Outlines will be 1:1 profiled by CAM The grinded profile will be covered completely from the grinding disc Sectionalized tools with a total length more then 5.000 mm (also at multiple clampings) we guarantee a high repeatability VIDEO Job order production We grind for you: Press brake tools Shear blades Machine tables Slide rails Other workpieces CNC-grinding shop 264
CNC-GRINDING post@ukb-gmbh.com. www.ukb-gmbh.com CNC-grinding machine Rosa Silver 50.9 265 16
OTHER TREATMENTS Phone +49 (0) 27 36 / 44 42-0. Fax +49 (0) 27 36 / 44 42-22 Laser hardening Laser hardening traverse path: X = 5.000 mm Y = 450 mm Z = 400 mm Improvement of the wear resistance of raw material Extension of the lifetime High hardeness (55-60 HRC depending on the raw material) Minimum distortion of the workpiece through small thermal load Exact hardening through high-precision track configuration No reworking necessary (cost- and time saving) Checked, exact controlled hardening process with logging Hardening depth about 1,0-1,5 mm We harden for you: Press brake tools Machine tables Slide rails Other workpieces Laser marking All important data at a glance Permanent, high contrast marking Individual marking possible UKB-JOB ORDER PRODUCTION Modern and individual treatment of your products! 266
OTHER TREATMENTS post@ukb-gmbh.com. www.ukb-gmbh.com Wire eroding Wire eroding machine traverse path: X = 500 mm U/V ±75 mm Y = 350 mm U/V ±75 mm Z = 300 mm U/V ±75 mm Hardened and high tensile materials can be worked on Dimensional and shape accuracy Production of complicated outlines Finest surfaces Small cutting width also at big material thicknesses We erode for you: Prototypes Short press brake tools Cutting tools And many more Planing Planing machine traverse path: X = 7.000 mm Y = 1.500 mm Z = 1.500 mm No warping Good flatness and paralellism We plane for you: Crude steel Welded constructions And many more Planing is excellent suitable for the machining of crude steel and straight surfaces 267 16
OTHER TREATMENTS Phone +49 (0) 27 36 / 44 42-0. Fax +49 (0) 27 36 / 44 42-22 Sawing Cutting of hardened workpieces Round Ø 550 mm Flat 750 x 550 mm Square 550 mm 3D-index arm Securing of the product quality with 3D-measuring Measurement of custumer tools for reworking or new production of special tools 3D measurement of initial sample and tool components process supporting, precisly against CAD data sets Compiling of quality reports Test bending Realisation of test bending with your sample sheets Bending length: 4050 mm Press capacity: 3200 kn 268
Bending help There are two different ways of bending: Air bending Bottoming/coining The force/pressure F for bottoming/coining is 3 up to 8 times higher than for air bending. The die opening V should be 6 up to 12 times of the material thickness t. It also dictates the force/pressure F needed for air bending. For the choice of the opening V must be considered also the shortest flange b and the angle α. With a smaller die opening V the inside radius r i will be smaller. With the below shown table of force and the formulas you can calculate the appropriate values. Bottoming/coining Air bending t Material thickness F Force/pressure V Die opening b Shortest flange r i Inside radius R m Resistance α Angle Table of force: needed force for 90 air bending, resistance R m = 450 N/mm 2 t (mm) 4 6 7 8 10 12 14 16 18 20 25 32 40 50 63 80 100 125 160 V (mm) 2,9 4,3 5 5,7 7,1 8,5 9,9 11,4 12,8 14,2 17,7 22,7 28,3 35,4 44,6 56,6 70,8 88,4 113,2 b (mm) 0,7 1 1,1 1,3 1,6 1,9 2,2 2,5 2,9 3,2 4 5 6,3 7,9 9,9 12,5 15,7 19,6 25 r i (mm) 0,5 42 25 0,75 111 63 52 44 33 26 1 125 101 84 63 50 41 35 1,25 215 172 143 105 83 68 58 50 44 1,5 338 269 221 162 127 103 87 75 66 2 324 250 202 169 144 126 95 2,5 430 344 286 243 211 158 115 3 443 375 324 240 174 132 4 648 472 338 252 190 143 5 571 422 315 235 176 6 886 648 480 355 263 8 945 689 504 380 289 216 10 844 630 475 352 12 959 717 527 15 F in kn/m 870 Example: t = 2,0 mm Optimum die opening V: Shortest flange b: Inside radius r i : Needed force/pressure F: 12 mm 8,5 mm 1,9 mm 250 kn/m Resistance Aluminium R m = 200 300 N/mm 2 Mild steel R m = 370 450 N/mm 2 Stainless steel R m = 650 700 N/mm 2 Calculation of the optimum die opening V (in mm) Material thickness t 0,5 2,5 3,0 8,0 9,0 10,0 12,0 and more Die opening V 6 x t 8 x t 10 x t 12 x t Calculation of the shortest flange b (in mm) Angle α 165 135 120 90 60 45 30 Flange b 0,51 x V 0,55 x V 0,58 x V 0,71 x V 1 x V 1,31 x V 1,94 x V Calculation of the force/ pressure F (in kn/m) F= R m x t 2 x (1+ 4 x t ) V V Calculation of the inside radius r i (in mm) r 5 x V i = 32 Scaled, rusted or not oiled up sheet metal will cause a much higher force.