G D Wang scite author profile

By adjusting thermomechanical controlled processing parameters, different microstructures were obtained in a low carbon Mn–Mo–Nb pipeline steel. The microstructural characteristic and its effect on low temperature toughness were investigated. The results show that under higher reduction in austenite non-recrystallisation region and faster cooling rate during accelerated cooling, the microstructure is dominated by acicular ferrite (AF) accompanied by a small amount of fine martensite/austenite (M/A) islands. In contrast, lower reduction and slower cooling rate lead to a predominantly quasi-polygonal ferrite microstructure with coarse M/A islands. The fine effective grain size (EGS) and the high fraction of high angle grain boundaries (HAGBs) make the cleavage crack propagation direction deflect frequently. The coarse M/A islands can lead to cleavage microcracks at the M–A/ferrite matrix interfaces. Compared with the microstructure mainly consisting of quasi-polygonal ferrite, the microstructure dominated by AF exhibits excellent low temperature toughness because of fine EGS, high fraction of HAGBs and fine M/A islands.

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Analysis of change in microstructure and properties during high temperature processing of ultralow C and high Nb microalloyed steel

Xiao

et al. 2011

Materials Science and Technology

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To further improve the strength and toughness, the advanced thermomechanical controlled processing has been applied in the development of an ultralow C and high Nb bearing steel. In the present investigation, the effects of processing parameters, consisting of the coiling and starting temperatures in non-recrystallisation region, on the final microstructure and mechanical properties of this steel have been studied by tensile, Charpy impact tests, optical microscopy and transmission electron microscopy. Results indicate that the acicular ferrite dominated microstructure can be greatly refined in grain size with decreasing the starting temperature of finishing rolling. However, for high Nb steels, the too low starting temperature would promote the formation of high temperature transformation products and consequently make against the improvement of mechanical properties. In addition, the optimum temperature window of finishing rolling is found to be also related to alloying levels of austenite stabilising elements. At the high starting temperature of finishing rolling, the precipitation strength contribution increases with increasing coiling temperature. However, the increase in strain accumulation associated with low temperature processing greatly reduces the sensitivity of the precipitation strength contribution to coiling temperature.

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Effects of cold rolling on crystallographic texture of oriented silicon steel produced by TSCR

et al. 2011

Materials Research Innovations

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Strain driven grain boundary sliding and/or rotation during tensile deformation of ultrafine grained C–Mn steel

Yao

Zhou

et al. 2011

Materials Science and Technology

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The microstructure evolution of ultrafine grained C–Mn steel during tensile deformation was investigated using scanning electron microscopy. The surface morphologies and orientation imaging micrographs at different locations near the fractures were discussed. No obvious evident work hardening was identified and partially attributed to the strain driven grain boundary motion of grain rotation and/or grain boundary sliding, especially at the initial stage, while the dislocation activities gradually participate in as deformation proceeds.

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G D Wang

Analysis of ribbed-strip rolling by rigid-viscoplastic FEM

Correlation of microstructures and low temperature toughness in low carbon Mn–Mo–Nb pipeline steel

Analysis of change in microstructure and properties during high temperature processing of ultralow C and high Nb microalloyed steel

Effects of cold rolling on crystallographic texture of oriented silicon steel produced by TSCR

Strain driven grain boundary sliding and/or rotation during tensile deformation of ultrafine grained C–Mn steel

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