Details

Title Computational materials science: surfaces, interfaces, crystallization
Creators Ovrutsky A. M.; Prokhoda A. S.; Rasshchupkyna M. S.
Imprint Amsterdam [etc.]: Elsevier, 2014
Collection Электронные книги зарубежных издательств; Общая коллекция
Subjects Кристаллизация; Компьютерное моделирование
UDC 532.78; 004.94
Document type Other
File type Other
Language English
Rights Доступ из локальной сети ФБ СПбПУ (чтение, печать, копирование)
Record key RU\SPSTU\edoc\52692
Record create date 4/25/2018

Allowed Actions

View

Computational Materials Science provides the theoretical basis necessary for understanding atomic surface phenomena and processes of phase transitions, especially crystallization, is given. The most important information concerning computer simulation by different methods and simulation techniques for modeling of physical systems is also presented. A number of results are discussed regarding modern studies of surface processes during crystallization. There is sufficiently full information on experiments, theory, and simulations concerning the surface roughening transition, kinetic roughening, nucleation kinetics, stability of crystal shapes, thin film formation, imperfect structure of small crystals, size dependent growth velocity, distribution coefficient at growth from alloy melts, superstructure ordering in the intermetallic compound. Computational experiments described in the last chapter allow visualization of the course of many processes and better understanding of many key problems in Materials Science. There is a set of practical steps concerning computational procedures presented. Open access to executable files in the book make it possible for everyone to understand better phenomena and processes described in the book. Valuable reference book, but also helpful as a supplement to courses. Computer programs available to supplement examples. Presents several new methods of computational materials science and clearly summarizes previous methods and results.

Access count: 23 
Last 30 days: 1

Detailed usage statistics