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between the die and punch are generally around 1% of the cut material thickness, which typically varies between 0.5–13 mm (0.020–0.512 in). Currently parts as thick as 19 mm (0.75 in) can be cut using fine blanking. Tolerances between ±0.0003–0.002 in (0.0076–0.0508 mm) are possible, depending on the base material thickness and tensile strength, and part layout.
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to 0.025 mm (0.001 in). Shaving of metals is done in order to remove excess or scrap metal. A straight, smooth edge is provided and therefore shaving is frequently performed on instrument parts, watch and clock parts, and the like. Shaving is accomplished in shaving dies especially designed for the purpose.
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around the perimeter of the die opening. Next, a counter pressure is applied opposite the punch, and finally, the die punch forces the material through the die opening. Since the guide plate holds the material so tightly, and since the counter pressure is applied, the material is cut in a manner more
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The shaving process is a finishing operation where a small amount of metal is sheared away from an already blanked part. Its main purpose is to obtain better dimensional accuracy, but secondary purposes include squaring the edge and smoothing the edge. Blanked parts can be shaved to an accuracy of up
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Material specific design guidelines are developed by companies in order to define the minimum acceptable values of hole diameters, bridge sizes, slot dimensions. Similarly, the strip lay-out must be determined (strip width and pitch). The bridge width between the parts and the edge allowance between
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Burrs and die roll are typical features of stamped components. Die roll is created when the material being stamped is compressed before the material begins to shear. Die roll takes the form of a radius around the outside edge of the blank and the pierced holes. After compression, the part shears for
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Normally lancing is done on a mechanical press, lancing requires the use of punches and dies to be used. The different punches and dies determine the shape and angle (or curvature) of the newly made section of the material. The dies and punches are needed to be made of tool steel to withstand the
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than typical punching. Mechanical properties of the cut benefit similarly with a hardened layer at the cut edge of the part. Because the material is so tightly held and controlled in this setup, part flatness remains very true, distortion is nearly eliminated, and edge burr is minimal. Clearances
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The process is often used on parts that do not have quantities that can justify a dedicated blanking die. The edge smoothness is determined by the shape of the cutting die and the amount the cuts overlap; naturally the more the cuts overlap, the cleaner the edge. For added accuracy and smoothness,
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are used to produce parts from coil or sheet stock. Blanking produces the outside features of the component, while piercing produces internal holes or shapes. The web is created after multiple components have been produced and is considered scrap material. The "slugs" produced by piercing internal
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presses, but they have a few critical additional parts. A typical compound fine blanking press includes a hardened die punch (male), the hardened blanking die (female), and a guide plate of similar shape/size to the blanking die. The guide plate is the first applied to the material, impinging the
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Lancing can be used to make partial contours and free up material for other operations further down the production line. Along with these reasons, lancing is also used to make tabs (where the material is bent at a 90-degree angle to the material), vents (where the bend is around 45 degrees), and
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may be employed to do this. This allows for complex shapes to be formed in sheet metal up to 6 mm (0.25 in) thick using simple tools. that is essentially a small punch and die that reciprocates quickly; around 300–900 times per minute. Punches are available in various shape and sizes;
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Fine blanking is a specialized form of blanking where there is no fracture zone when shearing. This is achieved by compressing the whole part and then an upper and lower punch extract the blank. This allows the process to hold very tight tolerances, and perhaps eliminate secondary operations.
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One of the main advantages of fine blanking is that slots or holes can be placed very near to the edges of the part, or near to each other. Also, fineblanking can produce holes that are much smaller (as compared to material thickness) than can be produced by conventional stamping.
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about 10% of the part thickness, and then fractures free of the strip or sheet. This fracturing produces a raised, jagged edge which is called a "burr". Burrs are typically removed by tumbling in a secondary process. Burr height can be used as an important indicator of tool wear.
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oblong and rectangular punches are common because they minimize waste and allow for greater distances between strokes, as compared to a round punch. Nibbling can occur on the exterior or interior of the material, however interior cuts require a hole to insert the tool.
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The punch/die clearance is a crucial parameter, which determines the load at the cutting edge of the tool, commonly known as point pressure. Excessive point pressure can accelerate tool wear. The surface quality of the trimmed piece is affected by the clearance, too.
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Lancing is a piercing operation in which the workpiece is sheared and bent with one strike of the die. A key part of this process is that there is not reduction of material, only a modification in its geometry. This operation is used to make tabs, vents, and
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more economical for large production runs than traditional operations when additional machining cost and time are factored in (1000–20000 parts minimum, depending on secondary machining operations).
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The cut made in lancing is not a closed cut, like in perforation even though a similar machine is used, but a side is left connected to be bent sharply or in more of a rounded manner.
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fine blanking operations, in which multiple operations are performed at the same pressing station. Due to the higher lifetime, blanking punches are usually covered by
331:. While many dies perform complex procedures simultaneously, a pancake die may only perform one simple procedure with the finished product being removed by hand.
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The trimming operation is the last operation performed, because it cuts away excess or unwanted irregular features from the walls of drawn sheets.
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The selection criteria of all process parameters are governed by the sheet thickness and by the strength of the work-piece material being pierced.
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With standard compound fine blanking processes, multiple parts can often be completed in a single operation. Parts can be
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There are various types of blanking and piercing: lancing, perforating, notching, nibbling, shaving, cutoff, and dinking.
864:
Daniel, Josef; Žemlička, Radek; Grossman, Jan; Lümkemann, Andreas; Tapp, Peter; Galamand, Christian; Fořt, Tomáš (2020).
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louvers (where the piece is rounded or cupped). Lancing also helps to cut or slight shear of sheet on cylindrical shape.
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866:"Comparison of Lifetime of the PVD Coatings in Laboratory Dynamic Impact Test and Industrial Fine Blanking Process"
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features are also considered scrap. The terms "piercing" and "punching" can be used interchangeably.
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Perforating is a piercing tooling that involves punching a large number of closely spaced holes.
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The nibbling process cuts a contour by producing a series of overlapping slits or notches. A
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most shapes created by nibbling undergo filing or grinding processes after completion.
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Notching is a piercing operation that removes material from the edge of the workpiece.
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excellent dimensional control, accuracy, and repeatability through a production run;
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782:(5th ed.). Upper Saddle River, NJ: Pearson Prentice Hall. p. 429.
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higher equipment costs, due to higher tooling cost when compared to
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straight, superior finished edges to other metal stamping processes;
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operations and to higher tonnage requirements for the presses
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multiple features can be added simultaneously in 1 operation;
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the part and the edge of the strip also have to be selected.
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Degarmo, E. Paul; Black, J T.; Kohser, Ronald A. (2003).
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slightly slower than traditional punching operations;
994:Todd, Robert H.; Dell K. Allen; Leo Alting (1994),
67:. Unsourced material may be challenged and removed.
30:"Nibbling" redirects here. Not to be confused with
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347:Modern CNC-Nibbling-Machine using different tools
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778:Kalpakjian, Serope; Schmid, Steven R. (2006).
690:, New York: Industrial Press, pp. 84–85,
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570:Fine blanking presses are similar to other
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592:, partially pierced, offset (up to 75°),
520:Typical fine blanking press cross section
496:Learn how and when to remove this message
304:Learn how and when to remove this message
229:Learn how and when to remove this message
127:Learn how and when to remove this message
977:Materials and Processes in Manufacturing
780:Manufacturing Engineering and Technology
535:Using a Multitool with different punches
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997:Manufacturing Processes Reference Guide
688:Manufacturing Processes Reference Guide
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958:Design for Manufacturability Handbook
611:The advantages of fine blanking are:
380:repetitious nature of the procedure.
823:MPI International, Incعلى احمد على.
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669:"How to do Designing and Machining?"
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618:excellent part flatness is retained;
575:material with a sharp protrusion or
474:adding citations to reliable sources
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282:adding citations to reliable sources
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207:adding citations to reliable sources
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65:adding citations to reliable sources
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960:. New York, New York: McGraw-Hill.
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327:A simple operation may only need a
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667:Burg, Doreen (13 February 2020).
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956:Bralla, James G. (1999).
246:Tooling design guidelines
1145:Electrohydraulic forming
1000:, Industrial Press Inc,
924:"Fine blanking benefits"
143:Blanking versus piercing
1150:Electromagnetic forming
979:(9th ed.). Wiley.
804:"Fine blanking history"
638:The disadvantages are:
76:"Blanking and piercing"
18:Piercing (metalworking)
1135:Casting (metalworking)
942:Bralla, pp. 3.49–3.50.
854:Bralla, pp. 3.47–3.48.
608:protective coatings.
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1356:Tools and terminology
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158:processes in which a
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647:traditional punching
470:improve this section
278:improve this section
203:improve this section
61:improve this article
1387:Fabrication (metal)
1261:Finishing processes
882:2020Mate...13.2154D
891:10.3390/ma13092154
754:"Fineblanking 101"
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50:This article
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1215:Tube bending
1170:Hydroforming
1045:Metalworking
996:
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950:Bibliography
938:
927:. Retrieved
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869:
859:
850:
839:. Retrieved
832:the original
825:"Guidelines"
818:
807:. Retrieved
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762:. Retrieved
758:the original
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54:verification
51:
1326:Fabrication
1274:Galvanizing
1114:Sheet metal
1104:Fabrication
1088:fabrication
876:(9): 2154.
602:progressive
390:Perforation
384:Perforating
329:pancake die
1376:Categories
1346:Metallurgy
1289:Patination
1109:Piece work
929:2008-11-05
841:2008-11-05
809:2008-11-05
764:2008-11-05
654:References
486:March 2020
294:March 2020
219:March 2020
117:March 2020
87:newspapers
1341:Machining
1336:Jewellery
1304:Polishing
1269:Anodizing
1246:Soldering
1160:Extrusion
870:Materials
675:. Doreen.
582:extrusion
545:aluminium
457:does not
265:does not
190:does not
1351:Smithing
1241:Riveting
1236:Crimping
1205:Spinning
1190:Punching
1175:Stamping
910:32384814
594:embossed
438:Trimming
412:Nibbling
404:Notching
398:Notching
156:shearing
152:piercing
148:Blanking
1361:Welding
1331:Forming
1321:Casting
1299:Plating
1294:Peening
1251:Welding
1231:Brazing
1210:Swaging
1200:Sinking
1195:Rolling
1165:Forging
1140:Drawing
1130:Coining
1097:General
1084:Forming
901:7254225
878:Bibcode
590:pierced
577:stinger
478:removed
463:sources
429:Shaving
418:nibbler
367:louvers
360:Lancing
286:removed
271:sources
211:removed
196:sources
101:scholar
32:Nibling
1004:
983:
964:
908:
898:
786:
694:
598:coined
563:, and
557:carbon
555:, and
553:copper
103:
96:
89:
82:
74:
835:(PDF)
828:(PDF)
596:, or
580:like
561:alloy
549:brass
160:punch
108:JSTOR
94:books
1002:ISBN
981:ISBN
962:ISBN
906:PMID
784:ISBN
692:ISBN
461:any
459:cite
269:any
267:cite
194:any
192:cite
162:and
154:are
150:and
80:news
896:PMC
886:doi
606:PVD
472:by
280:by
205:by
164:die
63:by
1378::
1086:,
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884:.
874:13
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868:.
714:^
671:.
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559:,
551:,
547:,
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1075:e
1068:t
1061:v
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