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proeutectoid ferrite

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Series: ASM Failure Analysis Case Histories
Publisher: ASM International
Published: 01 June 2019
DOI: 10.31399/asm.fach.modes.c0092131
EISBN: 978-1-62708-234-1
...) supported the conclusion that the engine malfunctioned because one of the exhaust-valve springs had taken a 25% set in service. Relaxation in the spring material occurred because of the combined effect of improper microstructure (proeutectoid ferrite) plus a relatively high operating temperature...
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Published: 01 December 2019
Fig. 3 Representative micrographs showing ( a ) tempered martensitic, and ( b ) pearlite with proeutectoid ferrite network at grain boundary, in the cases of gearbox and clutch shaft, respectively More
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Published: 15 January 2021
Fig. 6 Valve springs made from patented and drawn high-carbon steel wire. Distorted outer spring (a) exhibited approximately 25% set because of proeutectoid ferrite in the microstructure and high operating temperature. Outer spring (b) is satisfactory More
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Published: 01 January 2002
Fig. 6 Valve springs made from patented and drawn high-carbon steel wire. Distorted outer spring (left) exhibited about 25% set because of proeutectoid ferrite in the microstructure and high operating temperature. Outer spring (right) is satisfactory. More
Image
Published: 01 June 2019
Fig. 1 Valve springs made from patented and drawn high-carbon steel wire. Distorted outer spring (left) exhibited about 25% set because of proeutectoid ferrite in the microstructure and high operating temperature. Outer spring (right) is satisfactory. More
Series: ASM Failure Analysis Case Histories
Volume: 3
Publisher: ASM International
Published: 01 December 2019
DOI: 10.31399/asm.fach.v03.c9001792
EISBN: 978-1-62708-241-9
... revealed tempered martensitic microstructure in the case of gearbox shaft (see Fig. 3a ) and pearlite microstructure within a proeutectoid ferrite network along the prior austenitic grain boundaries (see Fig. 3b ) in the case of clutch shaft. Fig. 3 Representative micrographs showing...
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Published: 01 December 2019
Fig. 4 Microstructures observed by means of optical microscopy: ( a ) wire spacer, consisting of recrystallized ferrite–pearlite grains; ( b ) HAZ between wire spacer and weld metal consisting of partially recrystallized ferrite grains; ( c ) weld metal composed of proeutectoid and acicular More
Series: ASM Failure Analysis Case Histories
Volume: 3
Publisher: ASM International
Published: 01 December 2019
DOI: 10.31399/asm.fach.v03.c9001793
EISBN: 978-1-62708-241-9
... The pipe microstructure consisted of recrystallized grains of ferrite with pearlite islands, as well as the wire spacer microstructure. The weld metal consisted mainly of acicular and proeutectoid ferrite. Both heat affected zones (HAZ) presented microstructures of partially recrystallized ferrite. Figure...
Series: ASM Handbook Archive
Volume: 11
Publisher: ASM International
Published: 01 January 2002
DOI: 10.31399/asm.hb.v11.a0003573
EISBN: 978-1-62708-180-1
... to determine why one had distorted and the other had not. Fig. 6 Valve springs made from patented and drawn high-carbon steel wire. Distorted outer spring (left) exhibited about 25% set because of proeutectoid ferrite in the microstructure and high operating temperature. Outer spring (right...
Series: ASM Handbook
Volume: 11
Publisher: ASM International
Published: 15 January 2021
DOI: 10.31399/asm.hb.v11.a0006797
EISBN: 978-1-62708-295-2
.... 6 ) were examined in the laboratory to determine why one had distorted and the other had not. Fig. 6 Valve springs made from patented and drawn high-carbon steel wire. Distorted outer spring (a) exhibited approximately 25% set because of proeutectoid ferrite in the microstructure and high...
Series: ASM Handbook
Volume: 11A
Publisher: ASM International
Published: 30 August 2021
DOI: 10.31399/asm.hb.v11A.a0006825
EISBN: 978-1-62708-329-4
... emission. A wide range of materials is used in subcritical boilers, especially for boiler tubes. These include carbon steels; low-alloy steels such as T11, T22, and T24; high-alloy ferritic steels such as T91, T92, and HCM12; and austenitic stainless steels such as TP304, TP304H, TP321H, TP347H...
Series: ASM Handbook
Volume: 11A
Publisher: ASM International
Published: 30 August 2021
DOI: 10.31399/asm.hb.v11A.a0006816
EISBN: 978-1-62708-329-4
... of steel. There are several examples of decarburization; there may be a completely ferritic surface layer (total decarburization) followed by a reduced carbon layer (partial decarburization), or decarb may exist as just a reduced carbon area at the surface, with the carbon increasing to the base carbon...
Series: ASM Handbook
Volume: 11
Publisher: ASM International
Published: 15 January 2021
DOI: 10.31399/asm.hb.v11.a0006765
EISBN: 978-1-62708-295-2
... steel specimen mounted in phenolic resin. Note the shrinkage gap (see arrows in a) that has reduced the edge flatness. In (b), taken at 1000×, decarburization at the surface has caused ferrite and pearlite to form, and this area is slightly out of focus. Specimen etched with nital Thermosetting...
Series: ASM Handbook
Volume: 11A
Publisher: ASM International
Published: 30 August 2021
DOI: 10.31399/asm.hb.v11A.a0006831
EISBN: 978-1-62708-329-4
... proeutectoid ferrite (in hypoeutectic alloys) or iron carbide (in hypereutectic alloys) are sometimes encountered in as-cast iron castings that have been cooled through the austenite temperature range at a slow rate. The carbide network can also result in in-situ graphitization of the carbide during...
Series: ASM Handbook Archive
Volume: 11
Publisher: ASM International
Published: 01 January 2002
DOI: 10.31399/asm.hb.v11.a0003508
EISBN: 978-1-62708-180-1
... rail. The microstructures consist of predominantly types A and B graphite, flake size 4 to 6, in a matrix of medium-to-fine lamellar pearlite. The specimen taken near the No. 3 intake port has a higher-than-usual amount of free ferrite, approximately 5 to 10%. Conclusion The cracking...
Series: ASM Handbook
Volume: 11A
Publisher: ASM International
Published: 30 August 2021
DOI: 10.31399/asm.hb.v11A.9781627083294
EISBN: 978-1-62708-329-4