Biocompatible Magnesium Alloys as Absorbable Implant Materials - Adjusted Surface and Subsurface Properties by Machining Processes

B. Denkena; A. Lucas

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Biocompatible Magnesium Alloys as Absorbable Implant Materials - Adjusted Surface and Subsurface Properties by Machining Processes

机译：生物相容性镁合金作为可吸收植入物材料-通过机加工工艺调节表面和亚表面性能

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Biocompatible magnesium alloys offer great potential as absorbable implant materials. They degrade within a certain time span after surgery and are therefore suitable to temporarily accomplish medical functions, for instance as bone screws or plates. These implants support fractured bones until healing. This paper describes approaches to control the corrosion of the magnesium and hereby the degradation kinetics of the implant in the organism. The degradation kinetics is adjusted via surface (e.g. topography) and subsurface properties (e.g. residual stresses) of the implant determined by the manufacturing process. Consequently, a specific degradation profile adapted to the individual medical application is achievable.

机译：生物相容性镁合金作为可吸收的植入材料具有巨大的潜力。它们在手术后的一定时间内会降解，因此适合暂时完成医疗功能，例如作为骨螺钉或板。这些植入物支撑骨折的骨头直到愈合。本文介绍了控制镁腐蚀的方法，从而控制了生物体内植入物的降解动力学。通过由制造过程确定的植入物的表面（例如，形貌）和亚表面性质（例如，残余应力）来调节降解动力学。因此，可获得适合于各个医疗应用的特定降解曲线。

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《CIRP Annals 》 |2007年第1期| 共4页
作者
B. Denkena; A. Lucas;
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原文格式 PDF
正文语种 eng
中图分类一般性问题 ;
关键词
Cutting; Biomedical; Corrosion;

机译：切割;生物医学;腐蚀;

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1. Biocompatible Magnesium Alloys as Absorbable Implant Materials - Adjusted Surface and Subsurface Properties by Machining Processes [J] . B. Denkena, A. Lucas CIRP Annals . 2007 ,第1期

机译：生物相容性镁合金作为可吸收植入物材料-通过机加工工艺调节表面和亚表面性能
2. Corrosion and biocompatibility improvement of magnesium-based alloys as bone implant materials: a review [J] . Yuxiao Lai, Long Li, Ling Qin, Regenerative Biomaterials . 2017 ,第2期

机译：镁基合金作为骨植入材料的腐蚀和生物相容性改进：综述
3. Biomedical Magnesium Alloys: A Review of Material Properties, Surface Modifications and Potential as a Biodegradable Orthopaedic Implant [J] . Gérrard Eddy Jai Poinern, Sridevi Brundavanam, Derek Fawcett American Journal of Biomedical Engineering . 2012 ,第6期

机译：生物医学镁合金：材料性能，表面改性和作为可生物降解的骨科植入物的潜力的评论
4. Adjusting the Subsurface Properties of Biocompatible Magnesium-Calcium Alloys as Absorbable Implant Material by Machining Processes [C] . B. Denkena, J. Kohler, A. Lucas Conference of the German Academic Society for Production Engineering . 2013

机译：通过加工方法调节生物相容镁 - 钙合金的地下性能作为可吸收植入物材料
5. Novel surface modification techniques to enhance biocompatibility of metallic materials for medical implants. [D] . Shayan, Mahdis. 2016

机译：新型表面改性技术可增强用于医疗植入物的金属材料的生物相容性。
6. Effect of Machining-Induced Subsurface Defects on Dislocation Evolution and Mechanical Properties of Materials via Nano-indentation [O] . Quanlong Wang, Meiping Wu, Chaofeng Zhang, 2019

机译：纳米压痕加工引起的表面缺陷对位错演化和材料力学性能的影响
7. Biomedical Magnesium Alloys: A review of material properties, surface modifications and potential as a biodegradable orthopaedic implant [O] . Poinern, G.E.J., Brundavanam, S., Fawcett, D. 2012

机译：生物医学镁合金：材料性能，表面改性和作为可生物降解的骨科植入物的潜力的评论
8. Creep Tests on some Cast Magnesium Alloys PART I Creep Tests of Ⅰ50 hours Duration at ⅠOO deg., Ⅰ50 deg, and 200 deg. C. on some Cast Magnesium Alloys PART II Comparison of the Creep Properties of Three Cast Magnesium AlloysnBased on Tests of Ⅰ,ooo hours Duration PART III Effect of Various Heat Treatments on the Short-time Creep Behaviour at 3 ton/sq. in., 150 deg. C, of Four Cast Magnesium Alloys [R] . A. E. JOHNSON, H.J. TAPSELL, H. D. CONWAY 1951

机译：一些铸造镁合金的蠕变试验第一部分Ⅰ00度，Ⅰ50度和200度的Ⅰ50小时的蠕变试验。 C.对某些铸造镁合金的研究第二部分三种铸造镁合金的蠕变性能的比较基于Ⅰ，0小时的试验持续时间第三部分各种热处理对3吨/平方米短时蠕变行为的影响。在。，150度。 C，四铸镁合金

Biocompatible Magnesium Alloys as Absorbable Implant Materials - Adjusted Surface and Subsurface Properties by Machining Processes

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