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dimple rupture
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Image
Published: 01 January 2002
Fig. 1 SEM images of dimple-rupture fractures. (a) Fracture of low-alloy medium-carbon steel bolt (SAE grade 5). 1750×. (b) Equiaxed tensile dimples originating around the graphite nodules of ASTM 60-45-10 ductile iron. 350×. (c) Parabolic shear dimples in cast Ti-6Al-4V from torsional loading
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Image
Published: 15 January 2021
Fig. 1 Scanning electron microscopy images of dimple-rupture fractures. (a) Fracture of low-alloy medium-carbon steel bolt (SAE grade 5). Original magnification: 1750×. (b) Equiaxed tensile dimples originating around the graphite nodules of ASTM 60-45-10 ductile iron. Original magnification
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Image
Published: 01 January 2002
Fig. 9 Dimpled rupture created by microvoid coalescence in a quenched and tempered steel. Note the presence of carbide particles in the bottom of several dimples. Palladium shadowed two-stage carbon replica. Because the image is a replica of the fracture surface, there is a reversal
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Image
Published: 15 January 2021
Fig. 10 Dimpled rupture created by microvoid coalescence. Courtesy of Engineering Systems, Inc.
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in Analysis and Subsequent Testing of Cracked Brass Connector Housings
> Handbook of Case Histories in Failure Analysis
Published: 01 December 2019
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in Effect of Strain Rate on the Failure Mode of a Rear Axle
> Handbook of Case Histories in Failure Analysis
Published: 01 December 1992
Fig. 17 Fully formed, dimpled rupture observed throughout the tensile coupon prepared from axle core.
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Book Chapter
Series: ASM Failure Analysis Case Histories
Publisher: ASM International
Published: 01 June 2019
DOI: 10.31399/asm.fach.process.c0089256
EISBN: 978-1-62708-235-8
.... The material was confirmed to be 34Cr-Ni-Mo6. A heavy oxide on the dark area of one of the broken-open laps was revealed by scanning electron microscopy in conjunction with EDS. A bright area that contained ductile dimple rupture was observed adjacent to the dark area. The oxidized portion of the fracture...
Abstract
Alloy steel forgings used as structural members of a ski chair lift grip mechanism were identified to have contained forging laps (i.e., sharp-notched discontinuities) during an annual magnetic particle inspection of all chair lift grip structural members at a mountain resort. The material was confirmed to be 34Cr-Ni-Mo6. A heavy oxide on the dark area of one of the broken-open laps was revealed by scanning electron microscopy in conjunction with EDS. A bright area that contained ductile dimple rupture was observed adjacent to the dark area. The oxidized portion of the fracture was established to be the preexisting forging lap while the bright area was created during the breaking-open process. As a corrective action all forgings showing laps were recommended to be removed from service. Critical review and revision of the forging process and revisions to the nondestructive evaluation procedures at the forging supplier was recommended.
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in Fatigue Fracture of a C130 Aircraft Main Landing Gear Wheel Flange
> Handbook of Case Histories in Failure Analysis
Published: 01 December 1992
Fig. 9 Scanning electron micrograph of region II. The fracture path is transgranular, and the predominant surface feature is dimpled rupture. This evidence supports the hypothesis that region II is the final fracture region of the wheel flange. The dimples are equiaxed, indicating
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Book Chapter
Series: ASM Failure Analysis Case Histories
Publisher: ASM International
Published: 01 June 2019
DOI: 10.31399/asm.fach.process.c0090932
EISBN: 978-1-62708-235-8
... ). These ruptures occurred at the outside of the bend. The rupture interior surfaces ( Fig. 1b ) were entirely ductile in nature. No defects from manufacture of the wire were evident. The fracture and crack surfaces exhibited dimples ( Fig. 1c ). The dimples appeared to initiate at nonmetallic inclusions inherent...
Abstract
Cold-drawn type 303 stainless steel wire sections, 6.4 mm (0.25 in.) in diameter, failed during a forming operation. All of the wires failed at a gradual 90 deg bend. Investigation (visual inspection and 5.3x/71x/1187x SEM views) supported the conclusion that the wires cracked due to ductile overload. The forming stresses were sufficient to initiate surface ruptures, suggestive of having exceeded the forming limit. Recommendations included examining the forming process, including lubrication and workpiece fixturing.
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in Single-Phase Erosion Corrosion of a 460 mm (18 in.) Diam Feedwater Line Break[1]
> Handbook of Case Histories in Failure Analysis
Published: 01 December 1992
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Published: 01 June 2019
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in Stress Corrosion Cracking of 4340 Steel in Aircraft Ignition Starter Residues
> ASM Failure Analysis Case Histories: Air and Spacecraft
Published: 01 June 2019
Fig. 4 High Magnification View of the Center Portion of Figure 3 Showing Dimple Rupture and Tearing.
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Image
in Effect of Strain Rate on the Failure Mode of a Rear Axle
> Handbook of Case Histories in Failure Analysis
Published: 01 December 1992
Fig. 7 SEM micrograph of rough interior portion of fractured axle, composed of mixed cleavage and dimpled rupture areas. 680×.
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Image
Published: 01 January 2002
Fig. 10 Stainless steel component that was flexed in service. The transition between fatigue and dimple rupture is shown. Scanning electron micrograph. 1187×
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Image
Published: 15 January 2021
Fig. 10 Stainless steel component that was flexed in service. The transition between fatigue and dimple rupture is shown. Scanning electron micrograph. Original magnification: 1187×
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in Anomalous Fractures of Diesel Engine Bearing Cap Bolts[1]
> Handbook of Case Histories in Failure Analysis
Published: 01 December 1993
Fig. 9 Nonembrittled region of fracture surface. In this area (about 3.8 mm, or 0.150 in., from origin) the mode of failure is equiaxed dimpled rupture. 1976×
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in Fractography of Steel Drive Cables
> ASM Failure Analysis Case Histories: Mechanical and Machine Components
Published: 01 June 2019
Fig. 2 Scanning electron fractograph of drive cable failure shows transverse and longitudinal fracture growth, shear lip formation, and ductile dimple rupture. Steel, 0.617 C, 0.025 S; tensile strength 342,000 to 458,000 psi. Magnification 60 times.
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Published: 30 August 2021
Fig. 13 (a) Axle shaft exhibiting flat fracture with three distinct fracture regions. (b) Intergranular fracture through the induction-hardened surface. Original magnification: 1000×. (c) Primarily dimple rupture within the intermediate fibrous zone. Original magnification: 1000×. (d) Cleavage
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in Forming Cracks on Stainless Steel Wire
> ASM Failure Analysis Case Histories: Processing Errors and Defects
Published: 01 June 2019
Fig. 1 Forming cracks on stainless steel wire. (a) The fracture, which occurred during bending shows many parallel fissures. 5.3×. (b) A typical fissure on the wire surface. Scanning electron micrograph. 71×. (c) The interior of the fissures and the fracture surface exhibit dimple rupture
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Published: 01 January 2002
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