Crystal, Fivefold and Glass Formation in Clusters of Polymers Interacting with the Square Well Potential

Abstract: We present results, from Monte Carlo (MC) simulations, on polymer systems of freely jointed chains with spherical monomers interacting through the square well potential. Starting from athermal packings of chains of tangent hard spheres, we activate the square well potential under constant volume and temperature corresponding effectively to instantaneous quenching. We investigate how the intensity and range of pair-wise interactions affected the final morphologies by fixing polymer characteristics such as avera… Show more

“…The protocol behind these simulations is a generalization of those presented in Refs. [40,47,48] containing chain-connectivity-altering moves, cluster identification/displacement algorithms, and compression/volume fluctuation processes in the bulk or under various conditions of confinement. In the present work two different models have been used to describe interactions between atoms.…”

“…Then, two patterns are followed: i) a SW potential is activated on the polymer configurations at dilute (3-D) or dense (2-D) conditions under constant volume and temperature (T = 1/kB, kB being the Boltzmann constant); ii) all bonds are eliminated so that the system consists now of monomers and the SW potential is further activated. For the polymer-based systems the equilibration algorithm and the corresponding MC moves are similar to the ones used for HS [29,32,33,[47][48][49][50][51][52] and SW [40] chains. For the monomer-based systems two moves are employed: simple sphere displacements whose amplitude is auto-configured based on the acceptance rate and cluster-based displacements following the cluster detection/translation algorithm presented in Ref.…”

“…For the monomer-based systems two moves are employed: simple sphere displacements whose amplitude is auto-configured based on the acceptance rate and cluster-based displacements following the cluster detection/translation algorithm presented in Ref. [40]. Simulations on 3-D SW polymers and monomers are conducted under conditions of constant volume (NVT ensemble) and pressure (NPT ensemble), respectively.…”

“…Once the SW potential is activated, chains or monomers form clusters, whose stability depends strongly on the values of the intensity and range of attraction [40]. Under specific conditions the clusters grow in size and aggregate, eventually leading to a single cluster which contains all sites.…”

“…A CCE variant, denoted as short-range order symmetry parameter (SSP), has also been adopted to explore short-range order and distortion in bulk metallic glasses [39]. More recently it has been applied to study cluster, crystal formation and vitrification, under dilute conditions, of polymers whose sites interact through the square well (SW) potential [40].…”

Identification of Local Structure in 2-D and 3-D Atomic Systems through Crystallographic Analysis

“…The protocol behind these simulations is a generalization of those presented in Refs. [40,47,48] containing chain-connectivity-altering moves, cluster identification/displacement algorithms, and compression/volume fluctuation processes in the bulk or under various conditions of confinement. In the present work two different models have been used to describe interactions between atoms.…”

“…Then, two patterns are followed: i) a SW potential is activated on the polymer configurations at dilute (3-D) or dense (2-D) conditions under constant volume and temperature (T = 1/kB, kB being the Boltzmann constant); ii) all bonds are eliminated so that the system consists now of monomers and the SW potential is further activated. For the polymer-based systems the equilibration algorithm and the corresponding MC moves are similar to the ones used for HS [29,32,33,[47][48][49][50][51][52] and SW [40] chains. For the monomer-based systems two moves are employed: simple sphere displacements whose amplitude is auto-configured based on the acceptance rate and cluster-based displacements following the cluster detection/translation algorithm presented in Ref.…”

“…For the monomer-based systems two moves are employed: simple sphere displacements whose amplitude is auto-configured based on the acceptance rate and cluster-based displacements following the cluster detection/translation algorithm presented in Ref. [40]. Simulations on 3-D SW polymers and monomers are conducted under conditions of constant volume (NVT ensemble) and pressure (NPT ensemble), respectively.…”

“…Once the SW potential is activated, chains or monomers form clusters, whose stability depends strongly on the values of the intensity and range of attraction [40]. Under specific conditions the clusters grow in size and aggregate, eventually leading to a single cluster which contains all sites.…”

“…A CCE variant, denoted as short-range order symmetry parameter (SSP), has also been adopted to explore short-range order and distortion in bulk metallic glasses [39]. More recently it has been applied to study cluster, crystal formation and vitrification, under dilute conditions, of polymers whose sites interact through the square well (SW) potential [40].…”

Identification of Local Structure in 2-D and 3-D Atomic Systems through Crystallographic Analysis

Liquid-vapor equilibrium and critical point of parabolic-well fluids of variable width derived from Gibbs Ensemble Monte Carlo simulation

Evolution of dislocation and twin structures in Ti3Al during solidification