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Strength levels of various grades of high-strength steel (HSS) and advanced...

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in Forming of Advanced High-Strength Steels > Metalworking: Sheet Forming
Published: 01 January 2006
Fig. 7 Strength levels of various grades of high-strength steel (HSS) and advanced high-strength steel (AHSS). YS, yield strength; TS, tensile strength More
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Notch tensile strength of high-strength steel plotted against testing tempe...

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in Hydrogen Damage > Corrosion: Fundamentals, Testing, and Protection
Published: 01 January 2003
Fig. 4 Notch tensile strength of high-strength steel plotted against testing temperature for three strain rates (crosshead speeds, ε ˙ ). Source: Ref 15 More
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Side views of four types of ASTM A490 high-strength steel bolt tensile spec...

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in Visual Examination and Light Microscopy > Fractography
Published: 01 January 1987
Fig. 26 Side views of four types of ASTM A490 high-strength steel bolt tensile specimens. See also Fig. 27 . Left to right: bolts 1, 4, 6, and 7 More
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Fracture of a high-strength steel under conditions of transverse shear over...

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in Scanning Electron Microscopy > Fractography
Published: 01 January 1987
Fig. 10 Fracture of a high-strength steel under conditions of transverse shear overload. Fractographs at 25× (top) and 1000× (bottom) More
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Failure characteristics of a hydrogen-charged high-strength steel. Source: ...

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in Embrittlement of Steels > Properties and Selection: Irons, Steels, and High-Performance Alloys
Published: 01 January 1990
Fig. 38 Failure characteristics of a hydrogen-charged high-strength steel. Source: Ref 238 More
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Effect of cyclic frequency on corrosion fatigue. (a) High-strength steel 43...

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in Fracture Mechanics Properties of Carbon and Alloy Steels > Fatigue and Fracture
Published: 01 January 1996
Fig. 65 Effect of cyclic frequency on corrosion fatigue. (a) High-strength steel 4340 M exposed to water and vacuum. Source: Ref 89 . (b) X-65 line pipe steel exposed to air and salt water with a superimposed cathodic potential. Source: Ref 90 More
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Stress-corrosion cracking in four high-strength steel. Precracked specimens...

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in Fracture Mechanics Properties of Carbon and Alloy Steels > Fatigue and Fracture
Published: 01 January 1996
Fig. 70 Stress-corrosion cracking in four high-strength steel. Precracked specimens of four high-strength steels were subjected to sustained loading in an environment of distilled water. Each steel had been hardened and tempered to a tensile strength of about 1650 MPa (240 ksi). Source: Ref More
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Sequence effects during fatigue crack growth in D6AC high-strength steel (0...

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in Fatigue Crack Growth under Variable-Amplitude Loading > Fatigue and Fracture
Published: 01 January 1996
Fig. 31 Sequence effects during fatigue crack growth in D6AC high-strength steel (0.42C-1Cr-0.65Ni-0.1Mo-0.12V) under program fatigue loading. S 0.2 = 1500 MPa, S U = 1650 MPa. (a) Program load history and corresponding bands on fatigue fracture. (b) Different da / dN in Lo-Hi and Hi More
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Engineering stress-strain curves of various grades of high-strength steel a...

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in Forming of Advanced High-Strength Steels > Metalworking: Sheet Forming
Published: 01 January 2006
Fig. 5 Engineering stress-strain curves of various grades of high-strength steel and advanced high-strength steel More
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Percent elongation of various grades of high-strength steel (HSS) and advan...

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in Forming of Advanced High-Strength Steels > Metalworking: Sheet Forming
Published: 01 January 2006
Fig. 8 Percent elongation of various grades of high-strength steel (HSS) and advanced high-strength steel (AHSS) More
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Forming-limit diagrams for various grades of high-strength steel, advanced ...

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in Forming of Advanced High-Strength Steels > Metalworking: Sheet Forming
Published: 01 January 2006
Fig. 9 Forming-limit diagrams for various grades of high-strength steel, advanced high-strength steel, and mild steel More
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Surface damage typical of galling wear on high-strength steel sheet materia...

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in Adhesive Wear Failures > Failure Analysis and Prevention
Published: 15 January 2021
Fig. 10 Surface damage typical of galling wear on high-strength steel sheet material. Source: Ref 58 More
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Barnacles attached to the periphery of a high-strength steel rudder, which ...

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in Microbiologically Influenced Corrosion > Corrosion: Fundamentals, Testing, and Protection
Published: 01 January 2003
Fig. 10 Barnacles attached to the periphery of a high-strength steel rudder, which had originally been coated with an antifouling paint. During use, the paint around the edges had been removed by mechanical action, thus allowing the attachment of barnacles. Partial coverage More
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Location of the first and second generation of advanced high-strength steel...

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in Metallurgical Fundamentals of Quenching > Quenchants and Quenching Technology
Published: 01 February 2024
Fig. 50 Location of the first and second generation of advanced high-strength steels (AHSS). IF, interstitial-free; MILD, mild steels; IF-HS, interstitial-free, high-strength; ISO, International Organization for Standardization; BH, bake-hardenable; CMn, carbon-manganese; HSLA, high-strength More
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Fracture surface of a high-strength steel bolt that fractured immediately upon application of the installation torque. The fracture surface is viewed under ultraviolet light illumination. Fluorescing material on the fracture surface indicates penetration of thread lubricant into a preexisting crack.

Fracture surface of a high-strength steel bolt that fractured immediately u...

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in Examination of Fracture Surfaces > Fractography
Published: 01 June 2024
Fig. 3 Fracture surface of a high-strength steel bolt that fractured immediately upon application of the installation torque. The fracture surface is viewed under ultraviolet light illumination. Fluorescing material on the fracture surface indicates penetration of thread lubricant More
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Side view of a predominantly brittle fracture in a high-strength steel bolt. Brittle fracture was the result of hydrogen embrittlement when hydrogen was absorbed during an acid pickling process. Final fracture was by ductile shear, as indicated by the roughly 45° angle of the fracture at the right side of the bolt as photographed. White deposits in the threads are zinc corrosion products and suggest a corrosive service environment. Corrosion is another source of hydrogen. The scale is in 1/16 in.

Side view of a predominantly brittle fracture in a high-strength steel bolt...

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in Examination of Fracture Surfaces > Fractography
Published: 01 June 2024
Fig. 22 Side view of a predominantly brittle fracture in a high-strength steel bolt. Brittle fracture was the result of hydrogen embrittlement when hydrogen was absorbed during an acid pickling process. Final fracture was by ductile shear, as indicated by the roughly 45° angle of the fracture More
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Fatigue fracture in the head-to-shank radius of a high-strength steel bolt. Fatigue fracture is indicated by the presence of crack arrest marks, apparent here as the numerous parallel, curved lines. Ratchet marks indicate multiple fracture-initiation sites in the top roughly one-third of the fracture as photographed. Final overload fracture occurred at a shear lip near the bottom of the fracture as photographed. The crack arrest marks are convex relative to the fracture-initiation site, indicating more rapid crack propagation near the surface due to the stress concentration created by the head-to-shank corner radius. The scale is in 1/16 in.

Fatigue fracture in the head-to-shank radius of a high-strength steel bolt....

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in Examination of Fracture Surfaces > Fractography
Published: 01 June 2024
Fig. 30 Fatigue fracture in the head-to-shank radius of a high-strength steel bolt. Fatigue fracture is indicated by the presence of crack arrest marks, apparent here as the numerous parallel, curved lines. Ratchet marks indicate multiple fracture-initiation sites in the top roughly one-third More
Book Chapter

Forming of Advanced High-Strength Steels

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By Mahmoud Y. Demeri
Series: ASM Handbook
Volume: 14B
Publisher: ASM International
Published: 01 January 2006
DOI: 10.31399/asm.hb.v14b.a0005163
EISBN: 978-1-62708-186-3
... Abstract This article provides information on the classification of high-strength steels (HSS) and advanced high-strength steels (AHSS) and tabulates designation of HSS and AHSS as recommended by the American Iron and Steel Institute. It reviews the major grades of HSS and AHSS that are used...
Abstract
This article provides information on the classification of high-strength steels (HSS) and advanced high-strength steels (AHSS) and tabulates designation of HSS and AHSS as recommended by the American Iron and Steel Institute. It reviews the major grades of HSS and AHSS that are used or will potentially be used in industrial applications. The article discusses different stamping issues such as edge cracking and springback, encountered during forming of AHSS, and lists guidelines for reducing springback in stamped components. It concludes with a discussion on the major advantages and disadvantages of using HSS and AHSS in automotive applications.
View PDF for content titled, Forming of Advanced <span class="search-highlight">High</span>-<span class="search-highlight">Strength</span> <span class="search-highlight">Steels</span>
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True stress-strain curves of various high-strength steels, advanced high-st...

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in Forming of Advanced High-Strength Steels > Metalworking: Sheet Forming
Published: 01 January 2006
Fig. 6 True stress-strain curves of various high-strength steels, advanced high-strength steels, and mild steel More
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Effect of nickel content on fracture toughness of high-strength steels cont...

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in Fracture Mechanics Properties of Carbon and Alloy Steels > Fatigue and Fracture
Published: 01 January 1996
Fig. 10 Effect of nickel content on fracture toughness of high-strength steels containing (in wt%) 0.35 C, 0.65 Mn, 0.35 Si, 0.80 Cr, 0.30 Mo, 0.10 V, and various amounts of nickel; all steels hardened to a yield strength of 1175 MPa (170 ksi). Source: Ref 19 , 20 More