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the normal stacking sequence of atomic planes in a close-packed crystal structure. These interruptions carry a certain stacking-fault energy. The width...

stacking faults. Stacking faults are in a higher energy state which is quantified by the formation enthalpy per unit area called the stacking-fault energy...

dislocations matches the attractive energy of the stacking fault. This means that higher stacking fault energy materials, i.e. those with high shear modulus...

to galling is primarily determined by its stacking-fault energy. A material with high stacking-fault energy, such as aluminium or titanium, will be far...

C (<1 wt.%), Si (<3 wt.%), or Al (<3 wt.%). The steels have low stacking fault energy (between 20 and 40 mJ/m2) at room temperature. Although the details...

low stacking fault energy and so the dislocation distribution after deformation is largely random. In contrast, metals with moderate to high stacking fault...

the dislocation velocity, k is the Boltzmann constant, γ is the stacking fault energy, and H is the hardness. While the model was developed specifically...

with deformation at elevated temperatures, in materials with high stacking fault energy Stress increases and then declines to a steady state Subgrain formation...

lowering the critical stacking fault energy. A linear variation has been observed between twin thickness, stacking fault energy and grain size, and to...

OpenIndiana Stacking-fault energy Supercritical fluid extraction Supplier-furnished equipment Surface free energy, often referred to as Surface energy Sydney...

Shockley partial dislocations. The width of this stacking-fault region is proportional to the stacking-fault energy of the material. The combined effect is known...

moderate to high temperatures, particularly in materials with a high stacking fault energy such as aluminium and nickel, recovery occurs readily and free dislocations...

facilitating the formation of stacking faults by reducing the stacking fault energy. Increasing number of stacking faults leading to the inhibition of...

causes an increase in retained austenite. Austenite has much higher stacking-fault energy than martensite or pearlite, lowering the wear resistance and increasing...

of stacking faults, solute atoms may interact with the stacking faults either attractively or repulsively. This lowers the stacking fault energy, leading...

strain hardening regime during large strain compression of low stacking fault energy Face-centered cubic alloys. Asgari together with colleagues formulated...

to stacking fault defects. When dislocations in an FCC system split into two partial dislocations, a hexagonal close-packed (HCP) stacking fault is formed...

microstructures exhibit reduced Bauschinger effect. Materials with high stacking fault energy, such as aluminum alloys and austenitic stainless steels, tend to...

types, i.e. the brass-type texture and the copper-type texture. The stacking fault energy plays an important role for the prevailing mechanisms of plastic...

Scattergood, R.O.; Koch, C.C. (June 2015). "Tensile properties of low-stacking fault energy high-entropy alloys". Materials Science and Engineering: A. 636:...