Add to ORKGFor NiTi based alloys, the shape memory effect is governed by a transition from a low-temperature martensite phase to a high-temperature austenite phase. Despite considerable experimental and computational work, basic questions regarding the stability of the phases and the martensitic phase transition remain unclear even for the simple case of binary, equiatomic NiTi. We perform ab initio molecular dynamics simulations to describe the temperature-dependent behavior of NiTi and resolve several of these outstanding issues. Structural correlation functions and finite temperature phonon spectra are evaluated to determine phase stability. In particular, we show that finite temperature, entropic effects stabilize the experimentally observed marte...
10 pags., 7 figs., 3 tabs.Classical force fields, used for atomistic modeling of metal materials, ar...
In the present work, we examine the martensitic phase transition of the shape memory alloy (SMA) NiT...
Materials with nanoscale dimensions show mechanical and structural properties different to those at ...
For NiTi based alloys, the shape memory effect is governed by a transition from a low-temperature ma...
We used density functional theory to characterize various crystalline phases of NiTi alloys: (i) hig...
We used density functional theory to characterize various crystalline phases of NiTi alloys: (i) hig...
We use density functional theory to characterize how size affects the relative stability of thin NiT...
The atomistic study shows strong size effects in thermally induced martensitic phase transformation ...
Nitinol (NiTi), a near equiatomic alloy of nickel and titanium, is the most broadly known and used s...
One of the most important Shape Memory Alloys (SMAs) is NiTi (an almost equiatomic alloy of nickel a...
NiTi is the most used shape-memory alloy; nonetheless, a lack of understanding remains regarding the...
We use ab initio calculations to study the role of stacking faults in connecting the high-temperatur...
New insight into the temperature dependent evolution of internal strain in the austenite phase durin...
Shape-memory (SM) alloys can, after initial inelastic deformation, reconstruct their prist...
NiTi alloys are very important in a number of applications since they demonstrate shape memory effec...
10 pags., 7 figs., 3 tabs.Classical force fields, used for atomistic modeling of metal materials, ar...
In the present work, we examine the martensitic phase transition of the shape memory alloy (SMA) NiT...
Materials with nanoscale dimensions show mechanical and structural properties different to those at ...
For NiTi based alloys, the shape memory effect is governed by a transition from a low-temperature ma...
We used density functional theory to characterize various crystalline phases of NiTi alloys: (i) hig...
We used density functional theory to characterize various crystalline phases of NiTi alloys: (i) hig...
We use density functional theory to characterize how size affects the relative stability of thin NiT...
The atomistic study shows strong size effects in thermally induced martensitic phase transformation ...
Nitinol (NiTi), a near equiatomic alloy of nickel and titanium, is the most broadly known and used s...
One of the most important Shape Memory Alloys (SMAs) is NiTi (an almost equiatomic alloy of nickel a...
NiTi is the most used shape-memory alloy; nonetheless, a lack of understanding remains regarding the...
We use ab initio calculations to study the role of stacking faults in connecting the high-temperatur...
New insight into the temperature dependent evolution of internal strain in the austenite phase durin...
Shape-memory (SM) alloys can, after initial inelastic deformation, reconstruct their prist...
NiTi alloys are very important in a number of applications since they demonstrate shape memory effec...
10 pags., 7 figs., 3 tabs.Classical force fields, used for atomistic modeling of metal materials, ar...
In the present work, we examine the martensitic phase transition of the shape memory alloy (SMA) NiT...
Materials with nanoscale dimensions show mechanical and structural properties different to those at ...