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Электронный каталог: Minko, D. V. - Biomechanical properties of composite compact-porous titanium produced by electric discharge dint...
Minko, D. V. - Biomechanical properties of composite compact-porous titanium produced by electric discharge dint...
Статья
Автор: Minko, D. V.
IOP Conference Series: Materials Science and Engineering: Biomechanical properties of composite compact-porous titanium produced by electric discharge dint...
б.г.
ISBN отсутствует
Автор: Minko, D. V.
IOP Conference Series: Materials Science and Engineering: Biomechanical properties of composite compact-porous titanium produced by electric discharge dint...
б.г.
ISBN отсутствует
Статья
Minko, D. V.
Biomechanical properties of composite compact-porous titanium produced by electric discharge dintering / D. V. Minko, K. E. Belyavin, V. K. Sheleg. – DOI 10.1088/1757-899X/218/1/012008 // IOP Conference Series: Materials Science and Engineering. – 2017. – Vol.218 №1. – Article number 012008. – Режим доступа : https://rep.bntu.by/handle/data/97674. - Журнала нет в фонде библиотеки. – Пер. загл.: [Биомеханические свойства композитного компактно-пористого титана, полученного методом электроразрядной обработки]. – На рус. яз.
The main disadvantage of currently used endosteal implants is their unsatisfactory biostable performance. Under action of functional stress caused by flaws of the design or lower mechanical characteristics the areas of stresses extreme concentration exceeding strength limits of bone tissue appears in the bone surrounding the implant that leads to the tearing away the implant. The problem of specific pressure lowering on the bone and uniform distribution of stress is solved by two ways: the increase of the implant area and the search of implant materials with optimum biomechanical properties. Porous materials of spherical titanium powders have adjustable pore size and large unit surface area, as well as possess high biologic compatibility with living tissue. This allows reduction of the rejection reaction due to a more even stress distribution around the functioning implant. Clinical results show that such implants have more stable physical and chemical properties.
669.295
общий = БД Труды научных работников БНТУ : 2017г.
труды сотрудников БНТУ = Механико-технологический факультет : кафедра "Машины и технология обработки металлов давлением"
труды сотрудников БНТУ = Машиностроительный факультет : кафедра "Технология машиностроения"
труды сотрудников БНТУ = Металлургия. Металловедение (труды)
общий = СВОЙСТВА
общий = ТИТАН (хим.)
Minko, D. V.
Biomechanical properties of composite compact-porous titanium produced by electric discharge dintering / D. V. Minko, K. E. Belyavin, V. K. Sheleg. – DOI 10.1088/1757-899X/218/1/012008 // IOP Conference Series: Materials Science and Engineering. – 2017. – Vol.218 №1. – Article number 012008. – Режим доступа : https://rep.bntu.by/handle/data/97674. - Журнала нет в фонде библиотеки. – Пер. загл.: [Биомеханические свойства композитного компактно-пористого титана, полученного методом электроразрядной обработки]. – На рус. яз.
The main disadvantage of currently used endosteal implants is their unsatisfactory biostable performance. Under action of functional stress caused by flaws of the design or lower mechanical characteristics the areas of stresses extreme concentration exceeding strength limits of bone tissue appears in the bone surrounding the implant that leads to the tearing away the implant. The problem of specific pressure lowering on the bone and uniform distribution of stress is solved by two ways: the increase of the implant area and the search of implant materials with optimum biomechanical properties. Porous materials of spherical titanium powders have adjustable pore size and large unit surface area, as well as possess high biologic compatibility with living tissue. This allows reduction of the rejection reaction due to a more even stress distribution around the functioning implant. Clinical results show that such implants have more stable physical and chemical properties.
669.295
общий = БД Труды научных работников БНТУ : 2017г.
труды сотрудников БНТУ = Механико-технологический факультет : кафедра "Машины и технология обработки металлов давлением"
труды сотрудников БНТУ = Машиностроительный факультет : кафедра "Технология машиностроения"
труды сотрудников БНТУ = Металлургия. Металловедение (труды)
общий = СВОЙСТВА
общий = ТИТАН (хим.)