Twinning-induced plasticity (TWIP) steels

Steels for bearings

The effect of morphology on the stability of retained austenite in a quenched and partitioned steel

This review critically examines the current state of graphene reinforced metal (GNP-MMC) and ceramic matrix composites (GNP-CMC) The use of graphene as reinforcement for structural materials is motivated by their exceptional mechanical/functional properties and their unique physical/chemical characteristics This review focuses on MMCs and CMCs because of their technological importance for structural applications and the unique challenges associated with developing high-temperature composites with nanoparticle reinforcements The review discusses processing techniques, effects of graphene on the mechanical behaviour of GNP-MMCs and GNP-CMCs, including early studies on the tribological performance of graphene-reinforced composites, where graphene has shown signs of serving as a protective and lubricious phase Additionally, the unique functional properties endowed by graphene to GNP-MMCs and GNP-CMCs, such as enhanced thermal/electrical conductivity, improved oxidation resistance, and excellent bi

Graphene reinforced metal and ceramic matrix composites: a review

Multistage strain hardening through dislocation substructure and twinning in a high strength and ductile weight-reduced Fe–Mn–Al–C steel

Austenite stability of ultrafine-grained transformation-induced plasticity steel with Mn partitioning

On the origin of dynamic strain aging in twinning-induced plasticity steels

Multiphase, ultra-fine-grained transformation-induced plasticity (MP UFG TRIP) steel containing 6 mass pct Mn was obtained by cold rolling and intercritical annealing of an initially fully martensitic microstructure. UFG microstructures with an average grain size less than 300 nm were obtained. The amount of austenite in the microstructures, speculated to be formed by diffusionless transformation, was controlled by changing the intercritical temperature. The tensile properties were strongly influenced by the volume amount and the stability of the reversely transformed austenite. The MP UFG TRIP steel was characterized by pronounced localization of the deformation. The deformation band properties were analyzed in detail.

Localized Deformation in Multiphase, Ultra-Fine-Grained 6 Pct Mn Transformation-Induced Plasticity Steel

Mn partitioning during the intercritical annealing of ultrafine-grained 6% Mn transformation-induced plasticity steel

Effect of Al on the stacking fault energy of Fe–18Mn–0.6C twinning-induced plasticity

Seok-Jae Lee

Papers

Austenite stability of ultrafine-grained transformation-induced plasticity steel with Mn partitioning

On the origin of dynamic strain aging in twinning-induced plasticity steels

Localized Deformation in Multiphase, Ultra-Fine-Grained 6 Pct Mn Transformation-Induced Plasticity Steel

Mn partitioning during the intercritical annealing of ultrafine-grained 6% Mn transformation-induced plasticity steel

Effect of Al on the stacking fault energy of Fe–18Mn–0.6C twinning-induced plasticity