Analysis of the state of the modified nanotitanium surface with the use of the mathematical model of a cyclic random process

被引：10

作者：

Lytvynenko I.V. ^{[1
]}

Maruschak P.O. ^{[1
]}

机构：

[1] Ternopil Ivan Pul’uj National Technical University, ul. Russkaya 56, Ternopil

来源：

Optoelectronics, Instrumentation and Data Processing | 2015年 / 51卷 / 03期

关键词：

cyclic random process; laser shock-wave treatment; model; ordered structure;

D O I：

10.3103/S8756699015030073

中图分类号：

学科分类号：

摘要：

An approach is proposed to perform a mathematical analysis of an ordered relief formed on the nanotitanium surface after laser shock-wave treatment. This approach enables one to obtain informative attributes and a quantitative estimate of parameters of morphological structures being formed with allowance for the stochastic and cyclic nature of this process. © 2015, Allerton Press, Inc.

引用

页码：254 / 263

页数：9

共 24 条

[1]

Panin V.E., Sergeev V.P., Panin A.V., Nanostructuring of Surface Layers and Application of Nanostructured Coatings, (2008)

[2]

Panin A.V., Panin V.E., Pochivalov Y.I., Et al., Specific Features of Deformation and Mechanical Behavior of VT1-0 Titanium in Different Structural States, Fiz. Mezomekh., 5, 4, pp. 73-84, (2002)

[3]

Panin V.E., Panin A.V., Fundamental Role of the Nanoscale Structural Level of Plastic Deformation of Solids, Metalloved. Term. Obrab. Metal., No. 12, pp. 5-10, (2006)

[4]

Dimitrovich D.A., Bychkov A.I., Effect of Physical Methods of Titanium Surface Treatment on the Growth of Colonies of the Biological Bone Tissue, Prikl. Fiz., No. 2, pp. 35-44, (2009)

[5]

Cho S.A., Jung S.K., A Removal Torque of the Laser-Treated Titanium Implants in Rabbit Tibia, Biomaterials, 24, 26, pp. 4859-4863, (2003)

[6]

Cho S.-A., Park K.-T., The Removal Torque of Titanium Screw Inserted in Rabbit Tibia Treated by Dual Acid Etching, Biomaterials, 24, 20, pp. 3611-3617, (2003)

[7]

Lu X., Leng Y., Zhang X., Et al., Comparative Study of Osteoconduction on Micromachined and Alkali-Treated Titanium Alloy Surfaces in Vitro and in Vivo, Biomaterials, 26, 14, pp. 1793-1801, (2005)

[8]

Lu X., Wang Y., Yang X., Et al., Spectroscopic Analysis of Titanium Surface Functional Groups under Various Surface Modification and their Behaviors in Vitro and in Vivo, J. Biomed. Mater. Res., Pt. A, 84, 2, pp. 523-534, (2008)

[9]

Grandfield K., Palmquist A., Engqvist H., Three-Dimensional Structure of Laser-Modified Ti6Al4V and Bone Interface Revealed with STEM Tomography, Ultramicroscopy, 127, pp. 48-52, (2013)

[10]

Branemark R., Emanuelsson L., Palmquist A., Thomsen P., Bone Response to Laser-Induced Micro- and Nano-Size Titanium Surface Features, Nanomedicine: Nanotechnology, Biology and Medicine, 7, 2, pp. 220-227, (2011)

← 1 2 3 →