Add to ORKGAbstract. We present a general method for calculating the stacking-fault energy in simple metals, and then we apply this to the ( 1 1 2) faults in body-centred cubic (BCC) metals. Our method contains no approximations for a given wavenumber characteristic (or equiva-lently the pair potential). Our results show that metastable faults do indeed exist in th
10.1103/PhysRevB.69.224104Physical Review B - Condensed Matter and Materials Physics6922224104-1PRBM
It is now realised (1,2,3) that a knowledge of stacking fault energy is fundamental for an understan...
The measurement of low, medium and high stacking fault energies is reviewed. Two methods appropriate...
Presents a general method for calculating the stacking-fault energy in simple metals, and applies th...
A new method of calculation of the stacking fault and twin boundary energies in bcc metal is present...
Determining the competition between the {110}⟨111⟩, {112}⟨111⟩ and {123}⟨111⟩ slip systems in body-c...
Stacking fault energy (SFE) plays an important role in deformation mechanisms and mechanical propert...
Large-scale atomistic simulations with classical potentials can provide valuable insights into micro...
Minimum energy paths for generating intrinsic, extrinsic and twin planar faults were calculated for ...
Program year: 1976/1977Digitized from print original stored in HDRThe second order pseudopotential t...
Stacking fault energy is one of key parameters for understanding the mechanical properties of face-c...
Large-scale atomistic simulations with classical potentials can provide valuable insights into micro...
The deformation of metals is known to be largely affected by their stacking fault energies (SFEs). I...
Abstract—A general thermodynamic model for calculating the energy of stacking faults is presented an...
The stacking fault energy is connected to the response of crystals to deformation. Here the authors ...
10.1103/PhysRevB.69.224104Physical Review B - Condensed Matter and Materials Physics6922224104-1PRBM
It is now realised (1,2,3) that a knowledge of stacking fault energy is fundamental for an understan...
The measurement of low, medium and high stacking fault energies is reviewed. Two methods appropriate...
Presents a general method for calculating the stacking-fault energy in simple metals, and applies th...
A new method of calculation of the stacking fault and twin boundary energies in bcc metal is present...
Determining the competition between the {110}⟨111⟩, {112}⟨111⟩ and {123}⟨111⟩ slip systems in body-c...
Stacking fault energy (SFE) plays an important role in deformation mechanisms and mechanical propert...
Large-scale atomistic simulations with classical potentials can provide valuable insights into micro...
Minimum energy paths for generating intrinsic, extrinsic and twin planar faults were calculated for ...
Program year: 1976/1977Digitized from print original stored in HDRThe second order pseudopotential t...
Stacking fault energy is one of key parameters for understanding the mechanical properties of face-c...
Large-scale atomistic simulations with classical potentials can provide valuable insights into micro...
The deformation of metals is known to be largely affected by their stacking fault energies (SFEs). I...
Abstract—A general thermodynamic model for calculating the energy of stacking faults is presented an...
The stacking fault energy is connected to the response of crystals to deformation. Here the authors ...
10.1103/PhysRevB.69.224104Physical Review B - Condensed Matter and Materials Physics6922224104-1PRBM
It is now realised (1,2,3) that a knowledge of stacking fault energy is fundamental for an understan...
The measurement of low, medium and high stacking fault energies is reviewed. Two methods appropriate...