The document discusses basic punching theory and techniques. It addresses the key issues of die clearance being too small, lack of tool maintenance, and improper turret alignment. Proper die clearance, regular tool sharpening, and ensuring turret alignment are essential for maximizing tool life and part quality during punching operations.
This presentation will help to gain all essential and industrial knowledge related to sheet metal operations, design of sheet metal product, common sheet metal materials.
This presentation will help to gain all essential and industrial knowledge related to sheet metal operations, design of sheet metal product, common sheet metal materials.
This slide is all about Metal cutting and Machining tools insights. It covers Mechanics of metal cutting, orthogonal and oblique machining, Tools geometry, Types of Chips, and Tools Signature.
Manufacturing Engineering 2, cutting tools and tool holdersGaurav Mistry
Detail study of cutting tool materials, some special materials, carbide tip tools, carbide inserts, types, carbide insert holders, ISO designation of carbide inserts, single point cutting tool nomenclature and angles, tool geometry, Tool life, tool wear and types, machinability
this file is about the types of dies and also its manufacturing procedure.this is important for the industry and for the industrial and manufacturing engineering..are of this field is manufacturing engineering and die designalso for the blanking dies and punches
Fundamentals of Metal cutting and Machining Processes
MACHINING OPERATIONS AND MACHINING TOOLS
Turning and Related Operations
Drilling and Related Operations
Milling
Machining Centers and Turning Centers
Other Machining Operations
High Speed Machining
For over 85 years, Roller Die + Forming has been providing custom roll formed, stamped, powder coated and assembled metal parts, using lean manufacturing processes.
This slide is all about Metal cutting and Machining tools insights. It covers Mechanics of metal cutting, orthogonal and oblique machining, Tools geometry, Types of Chips, and Tools Signature.
Manufacturing Engineering 2, cutting tools and tool holdersGaurav Mistry
Detail study of cutting tool materials, some special materials, carbide tip tools, carbide inserts, types, carbide insert holders, ISO designation of carbide inserts, single point cutting tool nomenclature and angles, tool geometry, Tool life, tool wear and types, machinability
this file is about the types of dies and also its manufacturing procedure.this is important for the industry and for the industrial and manufacturing engineering..are of this field is manufacturing engineering and die designalso for the blanking dies and punches
Fundamentals of Metal cutting and Machining Processes
MACHINING OPERATIONS AND MACHINING TOOLS
Turning and Related Operations
Drilling and Related Operations
Milling
Machining Centers and Turning Centers
Other Machining Operations
High Speed Machining
For over 85 years, Roller Die + Forming has been providing custom roll formed, stamped, powder coated and assembled metal parts, using lean manufacturing processes.
Turning plays most important role in Machining and Turning is the form of machining process which uses a single-point cutting tool for material removal,from this slide we can get the importance of turning.
9. Excessive Clearance Tool lasts longer ! Large Burr, not compressed and can be removed easily More Rollover & Less Burnish zone
10. Proper Die Clearance Note: 1) In general: shear strength determines clearance (10% is already good for low shear strength aluminium) 2) Minimum die clearance recommended : 0.08 mm
17. Tonnage calculation Required Punch Tonnage (tons) = hole perimeter (mm) * material thickness (mm) * shear factor (kpmm²) 1000 Some important shear factors ( ): Aluminium 22 -25kp/mm 2 Mild Steel 40 kp/mm 2 Stainless Steel 60 kp/mm 2 Cluster tools : multiply by number of punches Tonnage reduction by ‘step’-punching: step = ½ material thickness F (tons) = P x t x S / 1000 Note : try not to exceed 80% of punch press capacity
19. Formula: Tonnage = hole perimeter (mm) * material thickness (mm) * shear factor (kpmm²) 1000 Ø 30mm hole 3mm stainless steel Material shear factors ( ) : Aluminum = 22-25 kp/mm 2 Mild steel = 40 kp / mm 2 Stainless steel = 60 kp /mm 2 Example: Ø 30mm hole in 3mm stainless steel Tonnage = ( 30 x 3.14) x 3 x 60 = 16,96 t 1000 Tonnage calculation
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21. Perimeter Calculations Calculate diagonals to determine station size Calculate perimeters for tonnage calculations A = Diagonal Dimension (Station Size) L = Hole Perimeter
22. Calculator program for Clearance / Tonnage / Station Size
26. Treated Punches Please note! Nitrated punches not recommended for diameter or width less than 6 mm !!
27. Treatment vs. Coating Nitride Treatment Nitriding is a heat treatment feature for HSS punches. Punches are more wear resistant , but also more brittle (esp. during stripping). Recommended for materials that cause galling, such as stainless steel, galvanized steel, or aluminum, but not if the material is too thick, as stripping might cause chipping. Can also be used for mild steel, will increase tool life (up to 4x). Also recommended for punching abrasive materials such as fiberglass. It is not recommended for punches smaller than 6mm in diameter or width, as punch is too brittle and may chip off. Maxima ® Coating Maxima is a hard, wear-resistant, multilayer Zirconium Titanium Nitride (ZrTiN) coating , It puts a hard surface on the punch, adds wear resistance and ‘ lubricates ’ the process. The coating acts as a barrier between the punch and the sheet metal being punched. Its exceptional lubricity, reduces the friction that occurs during the stripping portion of the punching cycle, thus especially recommended in thicker material. Less friction means less heat build up, less galling and longer tool life. Also recommended upon high use of the punch, or as a problem solver. Maxima Coating is more expensive than Nitride Treatment.
30. Slug Free ® Die Detail Material held securely by stripper before punch makes contact Penetration begins and metal deforms into the entry taper Material begins to fracture at stress points Slug fractures away from sheet Pressure point constricts slug Punch stroke bottoms out as slug squeezes past pressure point Punch retracts and slug is free to fall down and away through exit taper Punch Stripper Material Slug Free ® Die
35. Heavy Duty Back-taper 1 degree per side (2 degrees TOTAL) Punch Size Recommended when punching force over 18 tons and/or thickness above 4 mm
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38. Slitting Tip Bridge Hitting As consecutive nibbling may cause unbalanced forces, apply bridge hitting to avoid side loading during slitting operations:
39. Large Holes Without Exceeding Press Tonnage The customer wants to pierce a 50.0mm dia. hole in thick mild steel. He does not want to buy a special shape radius tool, but wants to use standard tooling. Tool 1 Use one Square 10mm and pre-pierce along the 50mm periphery 8 holes with equal pitch. Tool 2 Finalize the hole with a 50mm flat punch 8 hits 10mm sq.. Final Hit 50mm round
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43. ‘ Shaving’ – Make Straight Walled Holes Without Drilling Finished hole size is the starting point. Punch #1 = finished hole size – clearance (20%) Die #1 = finished hole size + 0.1 mm Punch #2 = finished hole size (full mat’l contact : Maxima !) Die #2 = die #1 .
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50. Minimum Spacing Between Holes and Forms Minimum = 2 x Material Thickness between holes Minimum = 2 1/2 x Material Thickness to sheet edge Top view of sheet To avoid hole distortion :
51. Minimum Spacing Between Holes and Forms Minimum = 2 1/2 x Material Thickness to sheet edge Spacing between forms
54. Excessive Nibbling Nibbling patterns can be done with much less hits with a banana tool or multi-radius tool (with tool rotation)
55. Punching Tip Combating Warpage To avoid sheet warpage when punching multiple holes, punch every other hole first, then come back
56. Cluster Tools In order to reduce noise , vibrations and tonnage on cluster tools it is recommended to shorten 50 % of the cluster punches with about 50 – 60% of the sheet – thickness. Example: Cluster of 16 x square 10mm Perforating in 1mm mild steel Insert Punch length 37mm Shorten 8 Punches to length 36,5mm ( Balanced Shortening)
57. Blanking -- When the slug becomes the “good” or the “saved part” Blanking Operations