2006
DOI: 10.1016/j.biomaterials.2005.07.041
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Structural, mechanical and in vitro characterization of individually structured Ti–6Al–4V produced by direct laser forming

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Cited by 421 publications
(294 citation statements)
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“…The proportion of papers presented on medical modelling fell in comparison to those focussed on direct implant production or XCT inspection and metrology, but a large number of studies furthered research during this time, a selection of which can be seen in references [1,[37][38][39][40][41][42][43][44]. This period showed a prevalence of the use of XCT in the design of various implants, summarised in a paper that detailed recent advances in production of tissue-engineering scaffolds [45].…”
Section: History 2005-2010mentioning
confidence: 99%
“…The proportion of papers presented on medical modelling fell in comparison to those focussed on direct implant production or XCT inspection and metrology, but a large number of studies furthered research during this time, a selection of which can be seen in references [1,[37][38][39][40][41][42][43][44]. This period showed a prevalence of the use of XCT in the design of various implants, summarised in a paper that detailed recent advances in production of tissue-engineering scaffolds [45].…”
Section: History 2005-2010mentioning
confidence: 99%
“…Moreover, as demonstrated by many authors (Otsuki et al, 2006 ;Heinl et al, 2008 ;Xue et al, 2007 ;Hollander et al, 2006), the existence of porosity is also propitious for the substitute osseointegration, the essential factor of the longterm reliability of the implant . The question arises : do the size, shape, topology and volume fraction of voids have any influence on the substitute colonization?…”
Section: Introductionmentioning
confidence: 95%
“…Chen et al (2009) tested the osteogenesis on structures with pores ranging from 100 to 400 µm but did not speak out against higher pore dimensions . Hollander et al (2006) tested porous structure with pore dimensions of 500, 700 and 1000 µm and concluded that the growth of human osteoblast is possible for all these types of porosities . Those authors did not indicate a maximal pore size either.…”
Section: Introductionmentioning
confidence: 99%
“…[37][38][39][40] Katmanlı üretim (additive manufacturing) metotları bu durumun üstesinden gelebilmek için önerilmiĢtir. [37][38][39][40][41] Katı serbest Ģekilli fabrikasyonu (solid freeform fabrication), tabakalı üretim (layered manufacturing) veya doğrudan dijital üretim (direct digital manufacturing) olarak da bilinen katmanlı üretim (additive manufacturing), üç boyutlu sanal model verileri doğrultusunda yapısı ve Ģeklinin tanımlanması ile direkt olarak fiziksel objeleri oluĢturmak için kullanılan bir stratejidir. [39][40][41] Özellikle katmanlı üretim, bilgisayar destekli tasarım (CAD) verilerinden veya bilgisayar destekli tıbbi görüntüleme teknolojilerinden sağlanan katmankatman Ģeklindeki verilerden, direkt olarak fiziksel modeli oluĢturabilen teknikleri içerir.…”
Section: öZunclassified
“…[37][38][39][40][41] Katı serbest Ģekilli fabrikasyonu (solid freeform fabrication), tabakalı üretim (layered manufacturing) veya doğrudan dijital üretim (direct digital manufacturing) olarak da bilinen katmanlı üretim (additive manufacturing), üç boyutlu sanal model verileri doğrultusunda yapısı ve Ģeklinin tanımlanması ile direkt olarak fiziksel objeleri oluĢturmak için kullanılan bir stratejidir. [39][40][41] Özellikle katmanlı üretim, bilgisayar destekli tasarım (CAD) verilerinden veya bilgisayar destekli tıbbi görüntüleme teknolojilerinden sağlanan katmankatman Ģeklindeki verilerden, direkt olarak fiziksel modeli oluĢturabilen teknikleri içerir. [39][40][41][42] Atatürk -192 Direkt metal lazer sinterleme (DMLS), toz metaller, radyant ısıtıcılar ve bilgisayar kontrollü lazer ile bir objenin tabaka tabaka oluĢturulmasını sağlayan lazer destekli katmanlı üretim tekniğidir.…”
Section: öZunclassified