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Page 1: Advanced Forming

Advanced Forming

Sheet metal operations not performed on presses

Apiwat Muttamara

Page 2: Advanced Forming

Roll Forming

Figure 16.26 Schematic illustration of the roll-forming process.

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Stretch Forming

Figure 16.30 Schematic illustration of a stretch-forming process. Aluminum skins for aircraft can be made by this method. Source: Cyril Bath Co.

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Tube Bending

Figure 16.27 Methods of bending tubes. Internal mandrels, or the filling of tubes with particulate materials such as sand, are often necessary to prevent collapse of the tubes during bending. Solid rods and structural shapes can also be bent by these techniques.

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Manufacturing of Bellows

Figure 16.29 Steps in manufacturing a bellows.

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Bulging

Figure 16.28 (a) The bulging of a tubular part with a flexible plug. Water pitchers can be made by this method. (b) Production of fittings for plumbing, by expanding tubular blanks under internal pressure. The bottomof the piece is then punched out to produce a "T." Source: J. A. Schey, Introduction to Manufacturing Processes (2d ed.)

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Rubber Forming Process

Figure 16.39 a) The ram descends, the rubber gradually surrounds the sheet.The form block can be made of wood plastic or other materials that are easy to shape.

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Hydroform Process

Figure 16.39 The hydroform (or fluid forming) process. Note that, in contrast to the ordinary deep-drawing process, the pressure in the dome forces the cup walls against the punch. The cup travels with the punch; in this way, deep drawability is improved.

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Conventional Spinning

Figure 16.40 (a) Schematic illustration of the conventional spinning process. (b) Types of parts conventionally spun. All parts are axisymmetric.

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Shear and Tube Spinning

Figure 16.41

(a) Schematic illustration of the shear spinning process for making conical parts. The mandrel can be shaped so that curvilinear parts can be spun.

(b) Schematic illustration of the tube spinning process.

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Explosive Forming

Figure 16.44 (a) Schematic illustration of the explosive forming process. (b) Illustration of the confined method of explosive bulging of tubes.

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Magnetic-Pulse Forming

Figure 16.45 (a) Schematic illustration of the magnetic-pulse forming process used to form a tube over a plug. (b) Aluminum tube collapsed over a hexagonal plug by the magnetic-pulse forming process.

(a) (b)

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Cost Comparison for Spinning and Deep Drawing

Figure 16.48 Cost comparison for manufacturing a round sheet-metal container either by conventional spinning or by deep drawing. Note that for small quantities, spinning is more economical.

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Laser Welding

Production of an outer side panel of a car body, by laser butt-welding and stamping. Source: After M. Geiger and T. Nakagawa.

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Characteristics of Sheet-Metal Forming Processes

TABLE 16.1Process CharacteristicsRoll forming Long parts with constant complex cross-sections; good surface finish; high production rates; high

tooling costs.Stretch forming Large parts with shallow contours; suitable for low-quantity production; high labor costs; tooling

and equipment costs depend on part size.Drawing Shallow or deep parts with relatively simple shapes; high production rates; high tooling and

equipment costs.Stamping Includes a variety of operations, such as punching, blanking, embossing, bending, flanging, and

coining; simple or complex shapes formed at high production rates; tooling and equipment costscan be high, but labor cost is low.

Rubber forming Drawing and embossing of simple or complex shapes; sheet surface protected by rubbermembranes; flexibility of operation; low tooling costs.

Spinning Small or large axisymmetric parts; good surface finish; low tooling costs, but labor costs can behigh unless operations are automated.

Superplasticforming

Complex shapes, fine detail and close tolerances; forming times are long, hence production rates arelow; parts not suitable for high-temperature use.

Peen forming Shallow contours on large sheets; flexibility of operation; equipment costs can be high; process isalso used for straightening parts.

Explosiveforming

Very large sheets with relatively complex shapes, although usually axisymmetric; low tooling costs,but high labor cost; suitable for low-quantity production; long cycle times.

Magnetic-pulseforming

Shallow forming, bulging, and embossing operations on relatively low-strength sheets; mostsuitable for tubular shapes; high production rates; requires special tooling.


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