Поиск по каталогу |
(строгое соответствие)
|
- Профессиональная
- Научно-популярная
- Художественная
- Публицистика
- Детская
- Искусство
- Хобби, семья, дом
- Спорт
- Путеводители
- Блокноты, тетради, открытки
The Role of Geometry and Plasticity in Thin, Ductile Film Adhesion.
В наличии
Местонахождение: Алматы | Состояние экземпляра: новый |
Бумажная
версия
версия
Автор: Alex Volinsky
ISBN: 9783330003682
Год издания: 2016
Формат книги: 60×90/16 (145×215 мм)
Количество страниц: 232
Издательство: LAP LAMBERT Academic Publishing
Цена: 43838 тг
Положить в корзину
Способы доставки в город Алматы * комплектация (срок до отгрузки) не более 2 рабочих дней |
Самовывоз из города Алматы (пункты самовывоза партнёра CDEK) |
Курьерская доставка CDEK из города Москва |
Доставка Почтой России из города Москва |
Аннотация: The superlayer indentation test for quantitatively measuring the practical work of adhesion of thin, ductile films is considered. Deposition of a highly stressed hard superlayer on top of the film of interest adds additional stress to the delamination process, and prevents out of plane displacements of the film, suppressing plastic pile-up around the indenter. The technique is useful since it is applied to as-deposited, as-processed thin films, without changing the interfacial chemistry and film microstructure/properties. Adhesion results of metal-ceramic interfaces are discussed. One of the important mechanisms that contribute to the thin film practical work of adhesion is the plasticity occurring in a process zone in the vicinity of the delamination boundary. A quantitative model to characterize the contributions of plastic energy dissipation is introduced to rationalize experimental adhesion assessments. This model incorporates the functional dependence of film thickness and constitutive properties. Orders of magnitude increases in practical work of adhesion were both observed and predicted. Temperature effects on thin film mechanical properties and adhesion are also considered.
Ключевые слова: adhesion, interface, mechanical properties, thin film, experimental techniques