Excellent multi-purpose applications from general steel to nickel based alloys A wide application range from.125 to.7812 inch. Sharp cutting edge performance and smooth chip discharge B26A Solid carbide 5XD DRILL Superior design wavy cutting edge & flute geometry Sharp cutting edge performance and smooth chip discharge. Miracle Coated VP15TF Miracle coating displays high welding resistance therefore it can be used for machining a wide range of workpiece materials such as Plain steels, Mild steels, Carbon steels,stainless steels and Cast iron.
Solid carbide Features Undulating cutting edge & special flute geometry promotes smooth chip evacuation. Cutting edge shape 5 X D DRILL Undulating cutting edge Hollows engineered into the cutting edge produces sharp cutting performance, bumps achieve a strong cutting edge at the same time. Flute geometry Cross sectional shape Greatly improved chip disposal due to the small "R" design to curl generated chips small and large the large "R" design to promote smooth chip evacuation. Large R part Small R part Cutting resistance & chip geometry lowers cutting resistance and power consumption therefore exhibiting excellent chip disposal with compact chip discharge. Power consumption (kw) 8 7 6 5 4 3 2 1 Power consumption (kw) 8 7 6 5 4 3 2 1 Chip packing occurred right before passing through Workpiece : ANSI 15(15-18HB) Drill diameter : ø.4724 inch(internal coolant) Hole depth : 2.36 inch Cutting speed : 4 SFM Feed : IPR Coolant : WSO Oil pressure :.5MPa Long tool life coated VP15TF Miracle coated (AI, Ti)N TF15 micrograin cemented carbide Coated Features of VP15TF Miracle coated VP15TF displays high welding resistance therefore it can be used for machining a wide range of workpiece materials such as Mild steels, Carbon steels,alloy steel Stainless steels and Cast iron. 1
Centripetal top edge geometry Top edge geometry Centripetal top edge geometry with the small point angle and X-thinning achieves highly accurate hole positions. (12) Conventional solid 1 2 Machining accuracy (over size) is exceptionally centripetal and wear resistant therefore maintaining hole size accuracy. Fx 3 2 From initiation to the conclusion of machining components of a horizontal force, Fx and Fy stay small and stable. Start Fy Through Fx Over size (µm) 1-1 32 65 98 131 165 Cutting length (ft) Fx Fy Start Fy Through Workpiece : ANSI 15(15-18HB) Feed : IPR Drill diameter : ø.3149 inch(external coolant) Coolant : Emulsion 1% Cutting speed : 265 SFM Oil pressure :.5 MPa Tool life is highly resistant to flank wear and margin wear. Tool life is reached Enlarged photo of the margin after ing 132 feet. Spalling of coating Flank wear VB(inch).6.4 Machining can becontinued.2 32 65 98 131 165 Cutting length (ft) Workpiece : ANSI 15 (15-18HB) Drill diameter : ø.3149 inch (External coolant) Coolant : Emulsion 1% Cutting speed : 265 SFM Feed : IPR Hole depth :.984 inch (Through hole) 2
Solid carbide Using effectively High Efficiency Drilling Excellent chip control, low cutting resistance, and high rigidity characterize the Miracle Coated. 4 5 X D DRILL Low resistance High rigidity 3 Thrust (kn) 2 1 Competitor 1 Competitor 2 Competitor 1 Competitor 2 33 5 Cutting speed (SFM) Workpiece : ANSI 145 (18-22HB) Drill diameter : ø.374 inch (Internal coolant) Hole depth : 1.85 inch (Through hole) W.S.O (Internal coolant) CAE analytical result Deflection Resistance : 2% improvement Run Out : 1% improvement attained 2.3 times longer tool life than a competitor's at a feed rate of.16 IPR. Specially designed.394.787 1.81 2.3 times 1.57 Workpiece : ANSI 414 (28HB) Drill diameter : ø.472 inch Cutting speed : 4 SFM Feed :.16 IPR Hole depth : 2.13 inch (Through hole) W.S.O (Internal coolant) Cutting length (inch) Maintaining ing accuracy (Surface roughness) Cutting performance of the specially designed. Due largely to the centripetal force exerted by the cutting edge configuration, the shows its ability to generate an accurate and quality machined finish. The required surface roughness is less than Ra.8. 2µm.35µm Through hole 2µm.27µm Finished point Exit Partly interrupted cutting The stability of the is obvious as it fully achieves the required accuracy of less than Ra:.8µm. 3 Finished surface roughness (µm) 1..8.6.4.2 3 6 9 Number of holes (piece) Enter Exit 12 15 The maximum limit of required accuracy Workpiece : Manganese alloy (28HB) Drill diameter : ø.159 inch Cutting speed : 25 SFM Feed :.4 IPR Hole depth : 1.3 inch (Through hole) W.S.O (Internal coolant) (Note) Tool life of the competitor's after ing 8 holes. (Surface roughness)
Reliable ing performance when machining nickel base alloys With a unique flute geometry and cutting edge rake angle, the improves ing performance in nickel base alloys. True rake angle Cutting edge A large concave angle designed into the cutting edge improves the ing performance. True rake angle ( ) 4 35 3 25 2 15 1 2 A small rake angle at the peripheral edge of the serves to strengthen the cutting edge. Competitor's 1.2 Workpiece 5 Center Cutting edge position Periphery Drilling performance in Austenitic stainless steel (ANSI 34 stainless steel) The resists built-up edge, a common failure mechanism when machining austenitic stainless steels, thereby preventing edge chipping and fracture. The prevents adhering on the cutting edge which allows continued performance ing. Tool life is reached Application example workpiece : Plate (ANSI 34 stainless steel) Tool : MWS8MB Flank wear (inch).16.4.394.787 1.181 1.57 1.97 Cutting length (inch) Adhesion Specially Machining can designed be continued Workpiece : ANSI 34 stainless steel (19-21HB) Drill diameter : ø.3125 inch Cutting speed : 4 SFM Feed : IPR Hole depth :.984 inch (Through hole) W.S.O (Internal coolant) Drilling performance in Titanium alloy The resists deformation of the cutting edge when high cutting temperatures are generated due to the low thermal conductivity of the workpiece, a common failure mechanism when ing titanium alloys. Application example workpiece : Titanium alloy Tool : Specially designed The prevents workpiece adhering on the cutting edge increasing tool life. Specially designed Cutting speed (SFM) 33 5 1 Fracture Normal wear 2 Chipping Specially designed 2 4 6 8 1 12 Number of holes (piece) Workpiece : Titanium alloy (42-45HRC) Drill diameter : ø.3149 inch Cutting speed : 33 SFM : 5 SFM Feed :.2 IPR Hole depth :.945 inch (Blind hole) 4
5 D1(h8) -.71 -.87 -.16 -.13.3937D1.787.1181D1.2362.2362D1.3937.787D11.1811 L/D=5 MWS VP15TF L3 L2 L1 (inch) D1 VP15TF L3 L2 L1 D4 (inch) D1 Coolant D4 14 ød1(h8) ød4 L1 L2 L3 Solid carbide : Inventory maintained. Tolerance (inch) (Internal coolant) VP15TF (Straight) Dimensions(inch) Drill Dia. Order Number Stock Dimensions(inch) Drill Dia. Order Number Stock (Note) MZS type larger than.231" have a recess in the end face. Note) Please contact Mitsubishi Carbide for any geometry that is not in the brochure (e.g. different diameter and length). Coolant 5 X D DRILL
Recommended Cutting Conditions P M K N S Workpiece Material Mild steel Carbon steel Alloy steel Stainless steel Cast iron Ductile cast iron Aluminum alloy Heat resistant alloy Drill diameter Conditions Hardness 18HB 18-28HB 28-35HB 2HB Tensile strength 35MPa Tensile strength 45MPa ø.12.25 ø.25.396 ø.396.5469 ø.5469.7812 Cutting Speed (SFM) 36 (165-395) 295 (165-33) 26 (13-295) 195 ( 65-33) 33 (23-395) 195 (1-26) 395 (26-49) 65 (33-8) Feed (IPR) (.6 - ) (.6 - ) (.6 - ).4 (.2 -.6) (.6 - ) (.6 - ) ( -.14).4 (.2 -.6) Cutting Speed (SFM) 425 (26-46) 36 (23-39) 295 (195-36) 26 (13-39) 425 (33-46) 23 (13-295) 49 (33-555) 8 (5-1) Feed (IPR) ( -.14) ( -.14) (.6 - ) (.4 - ) ( -.14) (.6 - ) ( -.2).5 (.2 -.6) Cutting Speed (SFM) 49 (295-555) 425 (26-46) 36 (23-425) 295 (165-39) 49 (36-525) 295 (165-36) 525 (33-555) 8 (5-1) Feed (IPR) ( -.16) ( -.16) (.6 -.16) (.6 - ).14 ( -.16) ( -.16).16 ( -.32).6 (.4 - ) Cutting Speed (SFM) 525 (33-59) 46 (33-49) 39 (295-46) 33 (195-39) 525 (39-555) 33 (195-36) 555 (33-59) 1 (8-115) Feed (IPR).14 ( -.16) ( -.16) ( -.16) (.6 - ).14 ( -.16) ( -.16).2 ( -.39) (.4 - ) Operational Guidance Drill holding Drill length Drill installation Installation tolerance Adjusting screw A Thrust bearing type collet chuck holds the securely. ød1 A : D x 1.5 Do not clamp on the flutes. Runout.1inch Coolant method (MWS) Small diameter application Thin workpieces Interrupted cutting Spindle through coolant type Revolving coolant machine type One process 1D1 If bending occures Lower feed when ing interrupted part. Coolant pressure is approx..5-1mpa (Ø5 : 2-3MPa). Coolant volume is 1.5-4. l/min. When machining a prepared hole with the MICRO-MZE or other center s, set the depth to 1D1 (D1 = Diameter). Use the prepared hole as a guide when machining with the desirable with an oil hole. Depending on the cutting conditions, step feed ing is recommended. Support the workpiece Requires prior ing Spot face with an end mill prior to ing. Stepped holes Divide the machining into two processes. Drill the larger hole first. *Tools for chamfering and spot facing can be produced to order. Burring and workpiece chipping Lower the feed rate at the end of through cutting. Add a chamfer. Change the point angle. Caution in using the MWS type (Drill diameter Ø.118) Please use a fine mesh filter (mesh 3µm) for coolant to prevent jamming in the oil hole. For deep ing (l/d 3), machining guiding hole is recommended. (Use MICRO-MZE type for guiding hole.) Step ing is also effective. Coolant handling < MWS type > 1) Dirt and dust particles in old coolant adhere to the oil hole and prevent effective flow. Regular coolant exchange is recommended. 2) Small particles of swarf will jam in the oil hole. Always use a filter as a preventative measure. When using small diameter s, use a fine mesh filter. 6
Tsukuba Plant Registration No. GRC-EA1 Gifu Plant Cutting conditions Solid carbide Application Examples Drill Workpiece Component Cutting speed (SFM) Feed (IPR) Revolution (min -1 ) Table feed (inch/min) Coolant Machine ø1.181 ø.375 5 X D DRILL MWS375MB MWS332MB MWS625LB Alloy steel Cast iron (M1 bolt) Carbon steel Tool life is assessed (1st. step) by the burr made (ANSI 413) (ANSI 14) after boring. 18HB 28HB (2nd. step) 2.25 ø.332 Crank pin Auto parts Connecting rod 18 1.829 14.41 5 5.617 66.338 4 2.32 22.677 WSO WSO Mist NC turning machine Machining center Machining center No. of holes Cutting length (ft) No. of holes 2 4 6 8 66 13 2 26 1 2 Result Nomal wear Fracture Fracture Drill MWS2969MA MWS4688MA MWS3125MB Ductile cast iron Carbon steel (ANSI 155) Stainless steel (ANSI 34) ø.4688 2HB ø.2969 255HB 2HB Workpiece Cutting conditions Component Cutting speed (SFM) Feed (IPR) Revolution (min -1 ) Table feed (inch/min) Coolant Machine Compressor parts Auto parts Machine parts 16.6 1,958 11.575 23 1,62 12.598 2 2,387 18.779 WSO WSO WSO Machining center Machining center Machining center No. of holes No. of holes Cutting length (ft) 2 4 6 2 4 6 8 66 13 2 26 33.315.984 inch through Result For your safety Do not touch sharp parts or chips without wearing gloves. Use tools under recommended cutting conditions, and exchange tools before excessive wear occurs. Chips become extremely hot, scattered over and may be stretched. Ensure safety guards and goggles are used. In case of using non-water soluble oil, make sure to have a fire prevention countermeasure. Use the provided wrench, and ensure the inserts and spare parts are damped securely. ISO 91-2 Registration No. JSAQ 8 Gifu Plant ISO 91-2 Registration No. JSAQ 94 Tsukuba Plant ISO 141-1996 Registration No. JSAE 36 1741 Eastman Street, Irvine, California 92614, U.S.A TEL. 949-862-51 FAX. 949-862-518 Customer Service: (8)523-8 Technical Support: (8)486-2341 Chicago Branch Office: 241 Hassell Road, Northwest Tech Centre, Suite 154, Hoffman Estates, Illinois 6195, U.S.A TEL. 847-285-69 FAX. 847-285-345 Detroit Branch Office: 3933 Country Club Drive, Suite A-1, Farmington Hills, Michigan 48331, U.S.A TEL. 248-489-1 FAX. 248-489-38 Toront Branch Office: 6535 Millcreek Drive, Unit 63 & 64, Mississauga, Ontario, Canada L5N 2M2 TEL. 95-814-24 FAX. 95-814-245 Av. La Cañada No.16, Parque Industrial Bernardo Quintana, El Marques, Queretaro, CP 76246 Mexico TEL. 11-52-442-221-6136/11-52-442-221-6137/11-52-442-221-615 FAX. 11-52-442-221-6134 Mitsubishi Carbide Home page : (Tools specifications subject to change without notice.) Printed in U.S.A. 2/5