Stydying of morphology and elemental composition of the calcium phosphate layer after treatment by impulse electron beam

Stydying of morphology and elemental composition of the calcium phosphate layer after treatment by impulse electron beam

Bibliographic Details
Parent link:Методология проектирования молодежного научно-инновационного пространства как основа подготовки современного инженера=Strategy design of youth science and innovation environment for modern engineer training: сборник научных трудов Международной молодежной научной школы, г. Томск, 2 - 4 апреля 2014 г./ Национальный исследовательский Томский политехнический университет (ТПУ) ; под ред. В. В. Верхотуровой и др.. [С. 205-208].— , 2014
Corporate Authors: Национальный исследовательский Томский политехнический университет (ТПУ) Физико-технический институт (ФТИ) Кафедра теоретической и экспериментальной физики (ТиЭФ), Национальный исследовательский Томский политехнический университет (ТПУ) Физико-технический институт (ФТИ) Кафедра общей физики (ОФ), Национальный исследовательский Томский политехнический университет (ТПУ) Физико-технический институт (ФТИ) Кафедра иностранных языков физико-технического института (ИЯФТ)
Other Authors: Chudinova E. A. Ekaterina Aleksandrovna (727), Surmeneva M. A. Maria Alexandrovna, Pushilina N. S. Natalia Sergeevna, Teresov A. D., Grubova I. Yu. Irina Yurievna, Surmenev R. A. Roman Anatolievich, Tsepilova A. V. Anna Vladimirovna
Summary:Заглавие с экрана
One of the effective ways to improve the adhesive properties of biocompatible coatings on implants is using electron-beam melting of the surface, accompanied by a partial or complete mixing area "coating- substrate". The surface of the titanium substrate bearing calcium phosphate coating received by RF magnetron sputter is processed by a pulsed electron beam having an energy density of 0.8 - 8 J/cm2. After treatment by a pulsed electron beam under different regimes significant changes in the topography of the formed surface were observed. Treatment regimes with an energy density of 0.8 J/cm{2} and 3 lead to the thermal annealing of the coating. The use of a beam having an energy density of 8 and 6.5 J/cm{2} leads to partial vaporization and mixing of the coating material with a titanium matrix.
Published: 2014
Series:Innovative trends for modernizing engineering in the age of globalization
Subjects:
электронный ресурс
труды учёных ТПУ
морфология
элементный состав
кальций-фосфатные покрытия
импульсные пучки
адгезионные свойства
биосовместимые покрытия
Online Access:http://earchive.tpu.ru/handle/11683/65011
http://www.lib.tpu.ru/fulltext/c/2014/C07/045.pdf
Format: Electronic Book Chapter
KOHA link:https://koha.lib.tpu.ru/cgi-bin/koha/opac-detail.pl?biblionumber=607977
Description
Physical Description:1 файл (717 Кб)
Summary:Заглавие с экрана
One of the effective ways to improve the adhesive properties of biocompatible coatings on implants is using electron-beam melting of the surface, accompanied by a partial or complete mixing area "coating- substrate". The surface of the titanium substrate bearing calcium phosphate coating received by RF magnetron sputter is processed by a pulsed electron beam having an energy density of 0.8 - 8 J/cm2. After treatment by a pulsed electron beam under different regimes significant changes in the topography of the formed surface were observed. Treatment regimes with an energy density of 0.8 J/cm{2} and 3 lead to the thermal annealing of the coating. The use of a beam having an energy density of 8 and 6.5 J/cm{2} leads to partial vaporization and mixing of the coating material with a titanium matrix.

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