Implant surface design for improved implant stability - A study on Ti6Al4V dense and cellular structures produced by Selective Laser Melting

Bartolomeu F.; Costa M. M.; Gomes J. R.; Alves N.; Abreu C. S.; Silva F. S.; Miranda G.

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Implant surface design for improved implant stability - A study on Ti6Al4V dense and cellular structures produced by Selective Laser Melting

机译：植入物稳定性改善的植入表面设计 - 一种选择性激光熔化产生的Ti6Al4V致密和细胞结构的研究

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Focusing on implant surface design, aiming to improve implant primary stability, SLM technology was explored to produce dense and cellular structured Ti6Al4V specimens. The SLM specimens and also a commercial casted/forged Ti6Al4V group, were sandblasted and acid-etched to obtain a moderate surface roughness topography, typically used in implant manufacturing. Ti6Al4V-bone interaction and tribological performance were assessed by performing sliding tests aiming to replicate in some extension the insertion of a hip implant. The results shown a 24 and 32% higher kinetic friction coefficient values when comparing the cellular structures with the conventional casted/forged Ti6Al4V. These friction results together with a high amount of adhered bone are promising evidences of a higher efficiency of Ti6Al4V cellular structures for enhancing implant stability.

机译：专注于植入物表面设计，旨在提高植入物初级稳定性，探索SLM技术以产生致密和细胞结构的Ti6Al4V标本。 SLM样品和商业铸造/锻造Ti6Al4V组是喷砂和酸蚀刻，得到适度的表面粗糙度形貌，通常用于植入物制造。通过进行旨在在一些延伸的延伸中复制的滑动试验来评估Ti6Al4V-骨相互作用和摩擦学性能。当将蜂窝结构与传统铸造/锻造Ti6Al4V进行比较时，结果显示了24和32％的动力学摩擦系数值。这些摩擦结果与大量的粘附骨一起是有希望提高Ti6Al4V细胞结构效率，以提高植入物稳定性的效率。

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来源
《Tribology International》 |2019年第2019期|共11页
作者
Bartolomeu F.; Costa M. M.; Gomes J. R.; Alves N.; Abreu C. S.; Silva F. S.; Miranda G.;
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作者单位

Univ Minho Ctr Microelect Mech Syst CMEMS UMinho Campus Azurem P-4800058 Guimaraes Portugal;

Univ Minho Ctr Microelect Mech Syst CMEMS UMinho Campus Azurem P-4800058 Guimaraes Portugal;

Univ Minho Ctr Microelect Mech Syst CMEMS UMinho Campus Azurem P-4800058 Guimaraes Portugal;

Polytech Inst Leiria Ctr Rapid &

Sustainable Prod Dev Rua Gen Norton de Matos P-2411901 Leiria Portugal;

Univ Minho Ctr Microelect Mech Syst CMEMS UMinho Campus Azurem P-4800058 Guimaraes Portugal;

Univ Minho Ctr Microelect Mech Syst CMEMS UMinho Campus Azurem P-4800058 Guimaraes Portugal;

Univ Minho Ctr Microelect Mech Syst CMEMS UMinho Campus Azurem P-4800058 Guimaraes Portugal;

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正文语种 eng
中图分类机械摩擦、磨损与润滑;
关键词
Ti6Al4V; Selective laser melting; Implant surface design; Static and dynamic friction;

机译：Ti6al4V;选择性激光熔化;植入表面设计;静态和动态摩擦;

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1. Implant surface design for improved implant stability - A study on Ti6Al4V dense and cellular structures produced by Selective Laser Melting [J] . Bartolomeu F., Costa M. M., Gomes J. R., Tribology International . 2019,第期

机译：植入物稳定性改善的植入表面设计 - 一种选择性激光熔化产生的Ti6Al4V致密和细胞结构的研究
2. Tribological behavior of Ti6Al4V cellular structures produced by Selective Laser Melting [J] . Bartolomeu F., Sampaio M., Carvalho O., Journal of the mechanical behavior of biomedical materials . 2017,第期

机译：选择性激光熔化产生的Ti6Al4V细胞结构的摩擦学行为
3. Laser beam melting 3D printing of Ti6Al4V based porous structured dental implants: fabrication, biocompatibility analysis and photoelastic study [J] . Fei Yang, Chen Chen, QianRong Zhou, Scientific reports. . 2017,第1期

机译：基于Ti6Al4V的多孔结构牙科植入物激光束熔融3D印刷：制造，生物相容性分析和光弹性研究
4. Characterization of Ti6Al4V cellular structures forbiomedical applications produced by selective lasersintering/melting [C] . G. Miranda, F. Bartolomeu, E. Pinto International Conference on Powder Metallurgy and Particulate Materials . 2016

机译：选择性激光/熔化产生的Ti6Al4V细胞结构的表征
5. In vitro Studies of Titanium Alloy Discs Fabricated with Electron Beam Melting for Improving Transdermal Osseointegrated Implant Surfaces. [D] . Springer, Jessica Collins. 2010

机译：电子束熔炼钛合金椎间盘用于改善经皮骨整合植入物表面的体外研究。
6. Laser beam melting 3D printing of Ti6Al4V based porous structured dental implants: fabrication biocompatibility analysis and photoelastic study [O] . Fei Yang, Chen Chen, QianRong Zhou, -1

机译：基于Ti6Al4V的多孔结构牙科植入物的激光束熔融3D打印：制造生物相容性分析和光弹性研究
7. Ti-6Al-4V triply periodic minimal surface structures for bone implants fabricated via selective laser melting [O] . Yan, Chunze, Hao, Liang, Hussein, Ahmed Yussuf, 2015

机译：通过选择性激光熔化制备的用于骨骼植入物的Ti-6Al-4V三重周期性最小表面结构

Implant surface design for improved implant stability - A study on Ti6Al4V dense and cellular structures produced by Selective Laser Melting

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