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Book Chapter

Spinning, Shear Forming, and Flow Forming

By L. Kwiatkowski
Series: ASM Technical Books
Publisher: ASM International
Published: 01 August 2012
DOI: 10.31399/asm.tb.smfpa.t53500249
EISBN: 978-1-62708-317-1
... Abstract Sheet metal spinning is a forming technique that produces axially symmetric hollow bodies with nearly any contour. It is often used in combination with flow forming and shear spinning to manufacture a wide range of complex parts. This chapter describes the operating principles, stress...
Abstract
Sheet metal spinning is a forming technique that produces axially symmetric hollow bodies with nearly any contour. It is often used in combination with flow forming and shear spinning to manufacture a wide range of complex parts. This chapter describes the operating principles, stress states, and failure modes of each process along with typical applications and tooling requirements.
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Book Chapter

Billet Separation and Shearing

By Serdar Isbir, Pinak Barve
Series: ASM Technical Books
Publisher: ASM International
Published: 01 February 2005
DOI: 10.31399/asm.tb.chffa.t51040151
EISBN: 978-1-62708-300-3
... Abstract Separation of billets by shearing avoids material loss and is considerably faster than sawing or cutting. This chapter discusses the billet shearing process, the characteristics of sheared surfaces, and the effect of various operating parameters on surface quality. It also includes...
Abstract
Separation of billets by shearing avoids material loss and is considerably faster than sawing or cutting. This chapter discusses the billet shearing process, the characteristics of sheared surfaces, and the effect of various operating parameters on surface quality. It also includes formulas for calculating shearing force, work, and power and describes various ways to increase production rates.
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Elastic stress distribution: direct (transverse) <span class="search-highlight">shear</span>. (a) Single <span class="search-highlight">shear</span>. (...

Elastic stress distribution: direct (transverse) shear. (a) Single shear. (...

in Stress versus Strength[1] > Understanding How Components Fail
Published: 30 November 2013
Fig. 7 Elastic stress distribution: direct (transverse) shear. (a) Single shear. (b) Double shear More
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Schematic <span class="search-highlight">shear</span> stress and <span class="search-highlight">shear</span> strain conditions used by Zamrik ( Ref 7.9...

Schematic shear stress and shear strain conditions used by Zamrik ( Ref 7.9...

in Treatment of Multiaxial Loading > Fatigue and Durability of Metals at High Temperatures
Published: 01 July 2009
Fig. 7.7 Schematic shear stress and shear strain conditions used by Zamrik ( Ref 7.9 ). Source: Ref 7.1 More
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Variation of the <span class="search-highlight">shear</span> stress with the <span class="search-highlight">shear</span> rate for Al99.5 at different t...

Variation of the shear stress with the shear rate for Al99.5 at different t...

in Rod and Tube Extrusion Processes[1] > Extrusion
Published: 01 December 2006
Fig. 3.12 Variation of the shear stress with the shear rate for Al99.5 at different temperatures More
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Variation of the <span class="search-highlight">shear</span> stress with temperature for <span class="search-highlight">shear</span> rates between 2 an...

Variation of the shear stress with temperature for shear rates between 2 an...

in Rod and Tube Extrusion Processes[1] > Extrusion
Published: 01 December 2006
Fig. 3.13 Variation of the shear stress with temperature for shear rates between 2 and 6 mm/s for Al99.5 More
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<span class="search-highlight">Shear</span> welding: (a) and (b) extruded groove and tongue for <span class="search-highlight">shear</span> welding, (c...

Shear welding: (a) and (b) extruded groove and tongue for shear welding, (c...

in Solid-State Welding and Bonding > Joining: Understanding the Basics
Published: 01 November 2011
Fig. 6.15 Shear welding: (a) and (b) extruded groove and tongue for shear welding, (c) assembled joint, (d) sandwich constructions assembled by shear welding of extruded aluminum profiles, and (e) air cooler. Source: Ref 6.8 More
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Plots of <span class="search-highlight">shear</span>-fatigue strength (from hardness) against plots of <span class="search-highlight">shear</span> stre...

Plots of shear-fatigue strength (from hardness) against plots of shear stre...

in Introduction and Perspectives > Carburizing: Microstructures and Properties
Published: 01 December 1999
Fig. 5 Plots of shear-fatigue strength (from hardness) against plots of shear stresses, τ yz , in rolling-contact tests. Predicted and actual fatigue limit values are in close agreement for carburized steels but not for the four nitrided steels. Relative radius of curvature, 2/3. SH units = lb More
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Plots of <span class="search-highlight">shear</span>-fatigue strength against plots of <span class="search-highlight">shear</span> stresses, τ ortho , ...

Plots of shear-fatigue strength against plots of shear stresses, τ ortho , ...

in Introduction and Perspectives > Carburizing: Microstructures and Properties
Published: 01 December 1999
Fig. 6 Plots of shear-fatigue strength against plots of shear stresses, τ ortho , in rolling-contact tests. In contrast to Fig. 5 , predicted and actual fatigue limit values arc in good agreement for the four nitrided steels but not the other steels. Relative radius of curvature, 2/3. Shear More
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Progressive action in <span class="search-highlight">shear</span> cutting teeth of an external spur gear. <span class="search-highlight">Shear</span> c...

Progressive action in shear cutting teeth of an external spur gear. Shear c...

in Machining, Grinding, and Finishing > Gear Materials, Properties, and Manufacture
Published: 01 September 2005
Fig. 4 Progressive action in shear cutting teeth of an external spur gear. Shear cutting operation proceeds from roughing (a) to intermediate (b) to finishing (c) operations. More
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(a) Single-<span class="search-highlight">shear</span> and (b) double-<span class="search-highlight">shear</span> fracture planes that are 45° to the d...

(a) Single-shear and (b) double-shear fracture planes that are 45° to the d...

in Fatigue Strength of Metals > Mechanics and Mechanisms of Fracture: An Introduction
Published: 01 August 2005
Fig. 3.21 (a) Single-shear and (b) double-shear fracture planes that are 45° to the direction of loading More
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Fastener tilt factor θ for double-<span class="search-highlight">shear</span> (a) and single-<span class="search-highlight">shear</span> (b) joints

Fastener tilt factor θ for double-shear (a) and single-shear (b) joints

in Stress Severity Factor > Mechanics and Mechanisms of Fracture: An Introduction
Published: 01 August 2005
Fig. A5.1 Fastener tilt factor θ for double-shear (a) and single-shear (b) joints More
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Schematic of a <span class="search-highlight">shear</span> with axial load to improve <span class="search-highlight">shear</span> quality [ Altan et al...

Schematic of a shear with axial load to improve shear quality [ Altan et al...

in Billet Separation and Shearing > Cold and Hot Forging: Fundamentals and Applications
Published: 01 February 2005
Fig. 13.8 Schematic of a shear with axial load to improve shear quality [ Altan et al., 1973 ] More
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<span class="search-highlight">Shear</span> stress versus <span class="search-highlight">shear</span> strain at outer radius for SR-grade beryllium tes...

Shear stress versus shear strain at outer radius for SR-grade beryllium tes...

in Mechanical Properties of Beryllium > Beryllium Chemistry and Processing
Published: 01 July 2009
Fig. 17.67 Shear stress versus shear strain at outer radius for SR-grade beryllium tested at a strain rate of 3.5 × 10–5/s under three different (nearly hydrostatic) pressures. Source: Abey 1970 More
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<span class="search-highlight">Shear</span> stress versus <span class="search-highlight">shear</span> strain at outer radius for SR-grade beryllium tes...

Shear stress versus shear strain at outer radius for SR-grade beryllium tes...

in Mechanical Properties of Beryllium > Beryllium Chemistry and Processing
Published: 01 July 2009
Fig. 17.68 Shear stress versus shear strain at outer radius for SR-grade beryllium tested at a strain rate of 3.6 × 10 –3 /s under three different (nearly hydrostatic) pressures. Source: Abey 1970 More
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<span class="search-highlight">Shear</span> stress versus <span class="search-highlight">shear</span> strain at outer radius for SR-grade beryllium tes...

Shear stress versus shear strain at outer radius for SR-grade beryllium tes...

in Mechanical Properties of Beryllium > Beryllium Chemistry and Processing
Published: 01 July 2009
Fig. 17.69 Shear stress versus shear strain at outer radius for SR-grade beryllium tested at a strain rate of 3.7 × 10 –1 /s under three different (nearly hydrostatic) pressures. Source: Abey 1970 More
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Large-strain data of <span class="search-highlight">shear</span> stress versus <span class="search-highlight">shear</span> strain at outer radius for S...

Large-strain data of shear stress versus shear strain at outer radius for S...

in Mechanical Properties of Beryllium > Beryllium Chemistry and Processing
Published: 01 July 2009
Fig. 17.70 Large-strain data of shear stress versus shear strain at outer radius for SR-grade beryllium tested at a strain rate of 3.7 × 10 –1 /s under four different (nearly hydrostatic) pressures. Source: Abey 1970 More
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Ultimate <span class="search-highlight">shear</span> stress versus test temperature for lap-<span class="search-highlight">shear</span> specimens of be...

Ultimate shear stress versus test temperature for lap-shear specimens of be...

in Welding and Joining of Beryllium and Beryllium Alloys > Beryllium Chemistry and Processing
Published: 01 July 2009
Fig. 23.15 Ultimate shear stress versus test temperature for lap-shear specimens of beryllium brazed to beryllium. Source: Marschall 1990 More
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Schematic of <span class="search-highlight">shear</span> and surface tilt associated with formation of a martensi...

Schematic of shear and surface tilt associated with formation of a martensi...

in Martensite > Steels: Processing, Structure, and Performance
Published: 01 January 2015
Fig. 5.3 Schematic of shear and surface tilt associated with formation of a martensite plate. Adapted from Ref 5.7 . Courtesy of M.D. Geib, Colorado School of Mines More
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Schematic diagram of a length of wire showing orientations of <span class="search-highlight">shear</span> stresse...

Schematic diagram of a length of wire showing orientations of shear stresse...

in High-Carbon Steels—Fully Pearlitic Microstructures and Wire and Rail Applications > Steels: Processing, Structure, and Performance
Published: 01 January 2015
Fig. 15.13 Schematic diagram of a length of wire showing orientations of shear stresses produced during torsion and a longitudinal shear band that may lead to delamination fracture of patented and drawn pearlitic wires. Source: Ref 15.47 More