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Series: ASM Handbook
Volume: 8
Publisher: ASM International
Published: 01 January 2000
DOI: 10.31399/asm.hb.v08.a0003262
EISBN: 978-1-62708-176-4
.... This article discusses the stress-strain relationships, strain curvature, and stress-moment equations for elastic, noncylindrical, elastic-plastic, and pure plastic bending conditions. It also reviews the distribution of residual stress and springback. stress-strain behavior bending deformation strain...
Abstract
A characteristic feature of bending is the inhomogeneous (nonuniform) nature of the deformation. Therefore, in a bent specimen, the strain and stress at a given point are dependent on the location of the point with respect to the neutral axis of the cross-sectional area of the specimen. This article discusses the stress-strain relationships, strain curvature, and stress-moment equations for elastic, noncylindrical, elastic-plastic, and pure plastic bending conditions. It also reviews the distribution of residual stress and springback.
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Published: 15 May 2022
Fig. 1 Stress-strain behavior of polycarbonate as a function of strain rate, ε ̇ , at 22.2 °C (72 °F). (Note: For small strains, extension, e , is approximately equal to engineering strain, ε.)
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Published: 15 May 2022
Fig. 3 Stress-strain behavior of polyether-imide as a function of strain rate, ε ̇ , at 22.2 °C (72 °F). (Note: For small strains, extension, e , is approximately equal to engineering strain, ε.)
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Comparison of the conventional stress-strain behavior of a low-carbon steel...
Available to PurchasePublished: 01 January 2002
Fig. 1 Comparison of the conventional stress-strain behavior of a low-carbon steel, a strain-hardening material, and the idealized material assumed in limit analysis. All have the same yield strength.
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Isochronous plot of polycarbonate stress-strain behavior as a function of t...
Available to PurchasePublished: 01 January 2002
Fig. 7 Isochronous plot of polycarbonate stress-strain behavior as a function of temperature. Note that the crazing locus decreases in strain value with increasing temperature. (a) 23 °C (73.5 °F). Relative humidity, 50%. (b) 40 °C (104 °F). (c) 80 °C (176 °F). (d) 100 °C (212 °F). Courtesy
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Effect of thin brittle film on stress-strain behavior of high density polye...
Available to PurchasePublished: 01 January 2002
Fig. 2 Effect of thin brittle film on stress-strain behavior of high density polyethylene. Source: Ref 16
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Effective (von Mises) stress-strain behavior for a 150 μm (6 mils) thick si...
Available to Purchase
in Mechanical Properties of Soft-Interlayer Solid-State Welds[1]
> Welding Fundamentals and Processes
Published: 31 October 2011
Fig. 8 Effective (von Mises) stress-strain behavior for a 150 μm (6 mils) thick silver interlayer ( t / d = 0.024), cated using planar-magnetron (PM) sputter deposition, tested in torsion, along with results reported for bulk polycrystalline (annealed) silver
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Monotonic tensile and cyclic stress-strain behavior of comparable cast and ...
Available to PurchasePublished: 01 December 2008
Fig. 18 Monotonic tensile and cyclic stress-strain behavior of comparable cast and wrought normalized-and-tempered carbon steels
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Characteristic stress-strain behavior for a hard and brittle plastic (curve...
Available to PurchasePublished: 01 November 1995
Fig. 7 Characteristic stress-strain behavior for a hard and brittle plastic (curve A), a ductile and tough plastic (curve B), and a highly elastic, or elastomeric, plastic (curve C)
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The influence of temperature on the stress-strain behavior of polymethyl me...
Available to PurchasePublished: 01 November 1995
Fig. 8 The influence of temperature on the stress-strain behavior of polymethyl methacrylate. Source: Ref 5
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The stress-strain behavior of cellulose acetate at different temperatures. ...
Available to PurchasePublished: 01 November 1995
Fig. 8 The stress-strain behavior of cellulose acetate at different temperatures. Source: Ref 20
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Comparison of the conventional stress-strain behavior of a low-carbon steel...
Available to Purchase
in Failures from Various Mechanisms and Related Environmental Factors
> Metals Handbook Desk Edition
Published: 01 December 1998
Fig. 25 Comparison of the conventional stress-strain behavior of a low-carbon steel, a strain-hardening material, and an idealized material assumed in limit analysis, all having the same yield strength
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Published: 01 January 2000
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Schematic of the cyclic stress-strain behavior of a quasi-isotropic laminat...
Available to PurchasePublished: 01 January 2000
Fig. 57 Schematic of the cyclic stress-strain behavior of a quasi-isotropic laminate of boron/aluminum as a function of number of cycles. Source: Ref 84
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Stress-strain behavior of reinforced and unreinforced ceramics. Fiber reinf...
Available to PurchasePublished: 01 November 1995
Fig. 1 Stress-strain behavior of reinforced and unreinforced ceramics. Fiber reinforcement of ceramic composites avoids the brittle catastrophic fracture characteristic of monolithic materials. However, the matrix cracking stress of reinforced ceramics is generally lower than the fracture
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Determination of local stress-strain behavior using Neuber’s rule. Adapted ...
Available to PurchasePublished: 30 August 2021
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Isochronous creep plot of polycarbonate stress–strain behavior as a functio...
Available to PurchasePublished: 15 May 2022
Fig. 8 Isochronous creep plot of polycarbonate stress–strain behavior as a function of temperature. Note that the crazing locus decreases in strain value with increasing temperature. (a) 23 °C (73.5 °F). Relative humidity, 50%. (b) 40 °C (104 °F). (c) 80 °C (176 °F). (d) 100 °C (212 °F
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Published: 15 May 2022
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Effect of thin brittle film on stress-strain behavior of high-density polye...
Available to Purchase
in Effect of Environment on the Performance of Plastics
> Characterization and Failure Analysis of Plastics
Published: 15 May 2022
Fig. 2 Effect of thin brittle film on stress-strain behavior of high-density polyethylene. Source: Ref 20
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in Mechanical Testing and Properties of Plastics—An Introduction
> Characterization and Failure Analysis of Plastics
Published: 15 May 2022
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