In the first section of this report, the authors describe their current collaboration with polymer physicists. This is primarily an effort to understand, and ultimately predict, the phase-interface structures for certain classes of compound polymers. A secondary goal is to develop a unified methodology. The second section describes work on boundary-value problems for hypersurfaces of constant Gaussian curvature. The third section summarizes recent discrete computational geometry studies of minimal surfaces. 19 refs., 4 figs
This book contains recent results from a group focusing on minimal surfaces in the Moscow State Univ...
The study of material science has been long devoted to the disentanglement of bulk structures which ...
A new simulation method for nonuniform polymer solutions between planar surfaces at full chemical eq...
The research conducted in this project concerns the geometry of extremal surfaces, embedded minimal ...
Research was continued on differential geometry with applications to the study of microstructure and...
We study surface effects in amorphous polymer systems by means of computer simulation. In the framew...
The principal investigators` work on a variety of pure and applied problems in Differential Geometry...
The properties of the interface in a phase-separated solution of polymers with different degrees of ...
The lecture will summarize the results obtained relating processing conditions to the mech. performa...
Over the past several years, at least four different techniques have been developed for probing the ...
En este trabajo se revisan las técnicas de simulación molecular más habituales y potentes para la de...
The summer program in Large Scale Optimization concentrated largely on process engineering, aerospac...
In the past year, the authors have concentrated efforts in the computer simulation of polymer dynami...
A Polymer Molecular Analysis Display System (p-MADS) was developed for computer modeling of polymers...
The demand for increasingly small and lightweight products require micro-scale components made of ma...
This book contains recent results from a group focusing on minimal surfaces in the Moscow State Univ...
The study of material science has been long devoted to the disentanglement of bulk structures which ...
A new simulation method for nonuniform polymer solutions between planar surfaces at full chemical eq...
The research conducted in this project concerns the geometry of extremal surfaces, embedded minimal ...
Research was continued on differential geometry with applications to the study of microstructure and...
We study surface effects in amorphous polymer systems by means of computer simulation. In the framew...
The principal investigators` work on a variety of pure and applied problems in Differential Geometry...
The properties of the interface in a phase-separated solution of polymers with different degrees of ...
The lecture will summarize the results obtained relating processing conditions to the mech. performa...
Over the past several years, at least four different techniques have been developed for probing the ...
En este trabajo se revisan las técnicas de simulación molecular más habituales y potentes para la de...
The summer program in Large Scale Optimization concentrated largely on process engineering, aerospac...
In the past year, the authors have concentrated efforts in the computer simulation of polymer dynami...
A Polymer Molecular Analysis Display System (p-MADS) was developed for computer modeling of polymers...
The demand for increasingly small and lightweight products require micro-scale components made of ma...
This book contains recent results from a group focusing on minimal surfaces in the Moscow State Univ...
The study of material science has been long devoted to the disentanglement of bulk structures which ...
A new simulation method for nonuniform polymer solutions between planar surfaces at full chemical eq...