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Alloy purity and strain-rate effects on equivalent tensile strain to failur...
Available to PurchasePublished: 01 January 2005
Fig. 10 Alloy purity and strain-rate effects on equivalent tensile strain to failure for the second homogenization step of 8 h at different temperatures following a first homogenization of 427 °C (800 °F) for 16 h
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Published: 01 January 2005
Fig. 4 Dependence of strain-rate effect on homologous temperature, T / T m for specimens strained to 40% reduction. Source: Ref 4
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General effects of pressure, strain rate, and temperature on allowable defo...
Available to PurchasePublished: 30 September 2015
Fig. 7 General effects of pressure, strain rate, and temperature on allowable deformation. Source: Ref 8
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Effects of hydrogen content (375 ppm), strain rate, and temperature on the ...
Available to PurchasePublished: 01 January 2003
Fig. 20 Effects of hydrogen content (375 ppm), strain rate, and temperature on the tensile ductility of typical α/β-titanium alloy unnotched tensile specimens. Source: Ref 30
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Effects of environment on the yield stress and strain-hardening rate on var...
Available to PurchasePublished: 01 January 2003
Fig. 1 Effects of environment on the yield stress and strain-hardening rate on various iron-aluminum alloys tested in air and mercury-indium solutions
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Effects of hydrogen content and strain rate on ductility of U-0.75Ti with y...
Available to Purchase
in Uranium and Uranium Alloys
> Properties and Selection: Nonferrous Alloys and Special-Purpose Materials
Published: 01 January 1990
Fig. 12 Effects of hydrogen content and strain rate on ductility of U-0.75Ti with yield strength of 965 MPa. Source: Ref 32
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Book Chapter
Mechanical Testing for Metalworking Processes
Available to PurchaseSeries: ASM Handbook
Volume: 8
Publisher: ASM International
Published: 01 January 2000
DOI: 10.31399/asm.hb.v08.a0003258
EISBN: 978-1-62708-176-4
... quality. These include strength, ductility, hardness, strain-hardening exponent, strain-rate effects, temperature effects, and hydrostatic pressure effects. The article also reviews the material behavior characteristics typically determined by mechanical testing methods. It discusses various mechanical...
Abstract
An important activity in metalworking facilities is the testing of raw materials for characteristics that ensure the integrity and quality of the products made. This article reviews the common material parameters that can have a direct or indirect influence on workability and product quality. These include strength, ductility, hardness, strain-hardening exponent, strain-rate effects, temperature effects, and hydrostatic pressure effects. The article also reviews the material behavior characteristics typically determined by mechanical testing methods. It discusses various mechanical testing methods, including the tension test, plane-strain tension test, compression test, plane-strain compression test, partial-width indentation test, and torsion test. Aspects of testing particularly relevant to workability and quality control for metalworking processes are also described. Finally, the article details the various factors influencing workability in bulk deformation processes and formability in sheet-metal forming.
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Effect of temperature and strain rate on plane-strain fracture-toughness be...
Available to PurchasePublished: 01 January 1996
Fig. 29 Effect of temperature and strain rate on plane-strain fracture-toughness behavior of ASTM type A36 steel. Source: Ref 44
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Effect of strain rate on temperature dependence of fracture strain in torsi...
Available to PurchasePublished: 01 January 2005
Fig. 43 Effect of strain rate on temperature dependence of fracture strain in torsion for type 321 stainless steel. The influence of adiabatic heating is shown by the corrected curves. After Nicholson et al. ( Ref 115 )
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Effect of strain and strain rate on percent spheroidization of Ti-49Al-2V a...
Available to PurchasePublished: 01 January 2005
Fig. 13 Effect of strain and strain rate on percent spheroidization of Ti-49Al-2V at 1330 K. Source: Ref 15
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in Modeling of Quenching, Residual-Stress Formation, and Quench Cracking
> Metals Process Simulation
Published: 01 November 2010
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Effect of strain rate on interlaminar shear stress strain curves for cross-...
Available to PurchasePublished: 01 January 2000
Fig. 48 Effect of strain rate on interlaminar shear stress strain curves for cross-ply carbon-fiber reinforced plastic
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Published: 01 January 2000
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Effect of temperature and strain rate on plane-strain fracture-toughness be...
Available to PurchasePublished: 01 January 2000
Fig. 4 Effect of temperature and strain rate on plane-strain fracture-toughness behavior of ASTM type A36 steel
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Series: ASM Handbook
Volume: 14A
Publisher: ASM International
Published: 01 January 2005
DOI: 10.31399/asm.hb.v14a.a0009009
EISBN: 978-1-62708-185-6
... Abstract This article describes the use of compression tests, namely, cylindrical compression, ring compression, and plane-strain compression tests at elevated temperatures. It discusses the effects of the temperature, strain rate, and deformation heating on metals during the cylindrical...
Abstract
This article describes the use of compression tests, namely, cylindrical compression, ring compression, and plane-strain compression tests at elevated temperatures. It discusses the effects of the temperature, strain rate, and deformation heating on metals during the cylindrical compression test, with the help of flow curves. The article illustrates the testing apparatus used in the cylindrical compression test. It describes the issues regarding friction and temperature, and strain-rate control with proper test equipment and experimental planning during the ring compression test and plane-strain compression test. The article also reviews the testing conditions, procedures, and advantages of hot plane-strain compression test.
Book Chapter
Split-Hopkinson Pressure Bar Testing of Ceramics
Available to PurchaseSeries: ASM Handbook
Volume: 8
Publisher: ASM International
Published: 01 January 2000
DOI: 10.31399/asm.hb.v08.a0003299
EISBN: 978-1-62708-176-4
... results obtained from SHPB testing of ceramics, and effectiveness of the proposed modifications. split Hopkinson pressure bar testing ceramics incident pulse shaping specimen design stress-strain relationship high strength brittle ceramics plastic properties high strain rate SPLIT...
Abstract
Split-Hopkinson pressure bar (SHPB) testing is traditionally used for determining the plastic properties of metals (which are softer than the pressure bar material) at high strain rates. However, the use of this method for testing ceramic has various limitations. This article provides a discussion on the operational principle of the traditional SHPB technique and the relevant assumptions in the derivation of the stress-strain relationship. It describes the inherent limitations on the validity of these assumptions in testing ceramics and discusses the necessary modifications in SHPB design and test procedure for evaluating high-strength brittle ceramics. The article includes information on the maximum strain rate that can be obtained in ceramics using an SHPB and the necessity of incident pulse shaping. It also reviews the specimen design considerations, interpretation of experimental results obtained from SHPB testing of ceramics, and effectiveness of the proposed modifications.
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Effect of Charpy impact strain rate on the fracture appearance of an AISI 5...
Available to PurchasePublished: 01 January 1987
Fig. 64 Effect of Charpy impact strain rate on the fracture appearance of an AISI 5140 H steel tempered at 500 °C (930 °F) and tested at room temperature. (a) Fatigue-precracked specimen tested at a strain velocity of 5 × 10 −2 mm/s (2 × 10 −3 in./s) (b) Fatigue-precracked specimen tested
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Effect of strain rate on ductile-to-brittle transition temperature in body-...
Available to PurchasePublished: 01 January 2002
Fig. 15 Effect of strain rate on ductile-to-brittle transition temperature in body-centered cubic metals
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Effect of strain rate and grain size on the fatigue life of various stainle...
Available to Purchase
in Elevated-Temperature Properties of Stainless Steels
> Properties and Selection: Irons, Steels, and High-Performance Alloys
Published: 01 January 1990
Fig. 35 Effect of strain rate and grain size on the fatigue life of various stainless steels at elevated temperatures. Grain size has the greatest influence on fatigue life when hold times are increased. Test conditions: total strain range = 1.0%; test temperature, 593 to 600 °C (1100 to 1110
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Published: 01 January 2005
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