Relevant bibliographies by topics / Titanium coating

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  1. Journal articles
  2. Dissertations / Theses
  3. Books
  4. Book chapters
  5. Conference papers
  6. Reports

Academic literature on the topic 'Titanium coating'

Author: Grafiati
Published: 30 May 2022
Last updated: 31 May 2022

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Journal articles on the topic "Titanium coating"

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Luo, Zhong Kuang, Hong Hua Cai, Jian Hong Liu, Wei Liang Hong, and Shaojin Tang. "Preparation of TiO2 Coating on the Glass and Hydrophilicity under Sunlight Irradiation." Key Engineering Materials 280-283 (February 2007): 827–30. http://dx.doi.org/10.4028/www.scientific.net/kem.280-283.827.

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The precursor solution of titanium oxide coating was prepared by using titanium-oxygen sulfide. Solution with PH value of 8.5 was used to for coating on the surface of glass through dipping. The coatings were analyzed with DSC, AFM and XRD. The hydrophilic results of titanium oxide coating were obtained according the water contact angle measurement in the sunlight irradiation condition. The experimental results demonstrate that this solution is a good precursor for coating of titanium oxide, and the coatings treated at a higher temperature have shown good hydrophilic property.
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Прохоров, В. М., Е. В. Гладких, Л. А. Иванов, В. В. Аксененков, and А. Н. Кириченко. "Состав, структура и механические свойства (Ti-Hf)N-покрытий на титановом сплаве." Журнал технической физики 89, no. 5 (2019): 704. http://dx.doi.org/10.21883/jtf.2019.05.47472.173-18.

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AbstractVariations of the composition, structure, and mechanical properties (hardness, elastic modulus) of (Ti–Hf)N coatings with increasing Hf content (Ti : Hf ratio) are reported. As test samples, VT6 titanium alloy plates covered by a magnetron-sputtered titanium hafnium nitride coating have been taken. To see how the coating characteristics depend on Hf content, samples with rated compositions (Ti_0.9Hf_0.1)N, (Ti_0.85Hf_0.15)N, (Ti_0.8Hf_0.2)N, and (Ti_0.7Hf_0.3)N have been studied. The surface and depth element distributions have been found, and the phase composition and the dependence of the titanium nitride lattice parameter on Hf content in the coating have been determined. The depth profiling of a coating’s hardness and elastic modulus has been conducted by instrumental indentation. Hardness and elastic modulus have been found to be maximal (~35 and ~500 GPa, respectively) in (Ti_0.85Hf_0.15)N and (Ti_0.8Hf_0.2)N coatings. In addition, the depth distribution of Hf in these coatings has turned out to be most uniform.
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Guriev, Aleksey, Michail Alekseevich Guriev, Sergei Gennadievich Ivanov, Quan Zheng, and Shun Qi Mei. "Complex Saturation of Titanium Alloys with Boron, Chromium and Titanium." Solid State Phenomena 298 (October 2019): 32–37. http://dx.doi.org/10.4028/www.scientific.net/ssp.298.32.

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This work described the technology of boronizing of titanium Grade2 from the generation of the gas phase directly in a sealed container during the decomposition reactions of the powder saturating medium. With such an implementation of the process in a closed volume, waste gas neutralization devices are not required, since the generation and decomposition of active saturating gases occurs in a closed volume. At saturation of titanium from the gas mixture, titanium borides, titanium nitrides, as well as titanium and chromium carbides can be produced in the coating. The microhardness of the coating is 2800–3200 HV0.1. The thickness of the diffusion coatings in this case can be up to75 microns. It is indicated that diffusion coatings on titanium by this technology should not exceed a thickness of more than 100 microns, and if the thickness of the diffusion coating exceeds 100 microns, the risk of chipping will increase.
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Yao, Ying Xue, Li Qun Li, and Jian Jun Xi. "Preparation and Performance of Ceramic Coatings Formed by Micro Arc Oxidation on Titanium Alloy." Key Engineering Materials 375-376 (March 2008): 323–27. http://dx.doi.org/10.4028/www.scientific.net/kem.375-376.323.

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The effect of technological parameters on MAO ceramic coating were investigated through the technique of micro-arc oxidation (MAO) on TC4 titanium alloy and. Microstructure and morphology of coatings were studied by X-ray diffraction (XRD) and scanning electron microscopy (SEM). The result shows that electric parameters and compositions of the electrolyte have notable effects on the growth of MAO ceramic coatings. The cathodic and anodic voltage rise gradually with the oxidation time increasing. The growth rate of ceramic coating is fast at the beginning, and then turns slowly. The ceramic coatings can be divided into three layers from interior to exterior, such as the transition layer, the dense layer and the porous layer. The coating is mainly composed of rutile and anatase and combined with the substrate firmly. The ceramic coating’s composition in inner and outer layers appears quite different. The ceramic coating on titanium alloy is of excellent performance on anti-attrition and anti-corrosion.
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Yang, Xiu Dong, Li Zhao Teng, Jian Lu, Qing Rong Wei, Hui Wang, Ji Yong Chen, and Bang Cheng Yang. "Biomimetic Coating on Titanium Metal and Its Excellent Cell Proliferation." Key Engineering Materials 330-332 (February 2007): 613–16. http://dx.doi.org/10.4028/www.scientific.net/kem.330-332.613.

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Biomimetic coating on roughed titanium plates were prepared in this work by a cathode deposition method in calcium phosphate solution electrolyte. The coatings of plate-like apatite crystals were deposited on the titanium plates under a constant potential of 2.0V for 60 min at 37. The coating crystals were identified to be carbonate-containing apatite (bone-like apatite) by X-ray diffraction and scanning electronic microscopy. The cell proliferation and adhesion of L929 cells on the titanium metal plates with biomimetic coating and the titanium plates with roughed-only were tested. The results showed that biomimetic coating on titanium surface can enhance the materials bioactivity. The study indicated that cathode method is potential to prepare biomimetic coating on titanium implants with excellent bioactivity.
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Zhou, Hong, and Cheng Peng. "Effect of Shroud in Plasma Spraying on Chemical Composition and Thickness of Titanium Coatings." Coatings 11, no. 4 (April 13, 2021): 446. http://dx.doi.org/10.3390/coatings11040446.

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Titanium and its alloys are wildly used in industries. Shrouded plasma spray can be considered as a useful technology to produce low oxide containing titanium coatings. In this paper, the effect of shroud in plasma spraying on chemical composition and thickness of titanium coatings were investigated. Shrouded plasma-sprayed titanium coatings were deposited onto mild steel substrates. Air plasma-sprayed titanium coatings were also deposited for comparison under the same spraying parameters. Those titanium coatings were then studied in terms of microstructure, oxygen and nitrogen contents and coating’s thickness. The titanium coatings were assessed by scanning electron microscopy and quantitative chemical analysis. The results showed that the shroud played a key role in protecting the particles from oxidation in flight. The shrouded titanium coatings exhibited lower oxygen content and an enhanced microstructure. The reduction in air entrainment with the shroud resulted in better heating of the particles and increases in deposition efficiency and coating thickness.
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He, Gang, Xia Deng, Yuan Kun Cen, Xiao Yu Li, En Luo, Rong Rong Nie, Yong Zhao, Zhi Hong Liang, and Zhi Qing Chen. "Development and Characterization of Nano-TiO2/HA Composite Bioceramic Coating on Titanium Surface." Key Engineering Materials 336-338 (April 2007): 1802–5. http://dx.doi.org/10.4028/www.scientific.net/kem.336-338.1802.

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This research is aimed at the development and characterization of a novel bioceramic coating on the surface of pure titanium. Nano-TiO2/HA composite bioceramic coating was designed and developed on the surfaces of pure titanium discs by sol-gel route. The TiO2 anatase bioceramic coating was employed as the inner layer, which could adhere tightly to the titanium substrate. The porous HA bioceramic coating was employed as the outer layer, which has higher solubility and better short term bioactivity. Conventional HA coatings and commercially pure titanium (cpTi) were taken as control. XRD and SEM were employed to characterize the crystallization, surface morphology and thickness of the coatings. The bioactivities of the coatings were evaluated by the in vitro osteoblasts culture. Results show the nano-TiO2/HA composite bioceramic coating has good crystallization and homogeneous, nano-scale surface morphology. And it adheres tightly to the substrate. The in vitro osteoblasts culture exhibits satisfactory bioactivity.
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Liu, Jun Bo, Li Mei Wang, and Jun Hai Liu. "Effect of Titanium Addition on Cracks of Fe-Cr-C Coating by Reactive Plasma Cladding." Materials Science Forum 1027 (April 2021): 163–69. http://dx.doi.org/10.4028/www.scientific.net/msf.1027.163.

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Fe-Cr-C and Fe-Cr-C-Ti coatings were prepared by reactive plasma cladding in this paper. The crack morphology and fracture surface of the Fe-Cr-C coating were observed by SEM. The effect of titanium addition on the crack of Fe-Cr-C coating was analyzed. The results show that the coating cracks mainly consist of crack perpendicular to the fusion line, defect-induced crack and intergranular crack. The crack rate of Fe-Cr-C-Ti coating was obviously decreased after Titanium was added. When the titanium content is below 8 wt.%, with the increase of titanium content, the crack rate of Fe-Cr-C-Ti coating decreases obviously. When titanium content is between 8wt.% and 13wt.%, there are no cracks in the Fe-Cr-C-Ti coating. When the titanium content exceeds 13 wt.%, with the increase of titanium content, a small number of cracks begin to appear. The addition of titanium increases the toughness of the Fe-Cr-C-Ti coating and reduces the stress concentration.
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Liu, Wanying, Junjie Yang, Yuhong Qiu, Ying Liu, and Kuanhai Deng. "Titanium carbide’s effects on coatings formed on D16T aluminum alloy by plasma electrolytic oxidation." Anti-Corrosion Methods and Materials 67, no. 1 (January 6, 2020): 48–58. http://dx.doi.org/10.1108/acmm-06-2019-2149.

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Purpose The preferable concentration of titanium carbide was optimized and added as an additive to the micro-arc oxidation electrolyte to produce a high corrosion-resistant coating on D16T aluminum alloy. Design/methodology/approach Ceramic coatings were deposited on D16T aluminum alloy by plasma electrolytic oxidation in alkaline silicate electrolytes with micron titanium carbide particle suspending at different concentrations. Influences of additive concentration on morphology, elemental and phase composition and corrosion resistance of doped PEO coatings were evaluated by scanning electron microscopy (SEM), energy dispersive X-ray spectroscopy (EDS), X-ray diffraction (XRD) and electrochemical methods, respectively. Findings Results revealed that suspending titanium carbide additives incorporated into ceramic coatings through discharging channels and chemically transformed into amorphous stage. The content of titanium in the doped coatings increased with the increasing concentration of suspending micron additive. Compared with the coating without particle addition, the corrosion resistance of the coating produced in 8 g/L titanium carbide suspension increased more than 20 times. The result indicated that the incorporation of titanium into the PEO coatings formed on the D16T aluminum alloy could effectively improve the corrosion resistance. Originality/value The mechanism of corporation of TiC and the mechanism of improving the corrosion resistance of the coating were proposed.
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Gilman, Vitaliy N., Ayrat I. Faskhutdinov, and Igor P. Balabanov. "Increase Effectiveness of Shaving by Using Wear-Resistant Coatings and Preliminary Modeling Cutting." Solid State Phenomena 299 (January 2020): 839–44. http://dx.doi.org/10.4028/www.scientific.net/ssp.299.839.

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Study of influence the edge and surface preparation and use of various types of coatings on the shaving cutters from the high-speed steel DIN 1.3243 (W6Mo5Cr4V2Co5 - China), with a hardness of 62-64HRc, for processing of the driven gear part, made of steel DIN 1.6523 (20CrNiMoH - China) with a hardness of 156-207 HB is presented. For the analysis, coatings based on titanium nitride (TiN) and a multicomponent coating of titanium and aluminum (AlTiN) were used. The coating on the basis of titanium nitride (TiN) increased the tool life 1.4 times. Multicomponent coating of titanium and aluminum (AlTiN) increased the tool life 1.6 times (AlTiN).
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Dissertations / Theses on the topic "Titanium coating"

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Wang, Haoran. "Preparation of Titanium Oxide/Epoxy Hybrid Anticorrossive Coating." University of Akron / OhioLINK, 2016. http://rave.ohiolink.edu/etdc/view?acc_num=akron1480326524997686.

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Tyurin, Yu, O. Ivanov, O. Kolisnichenko, M. Kovaleva, I. Duda, O. Maradudina, and Y. Trusova. "Properties of nanostructured composite titanium coating on aluminium surface." Thesis, Видавництво СумДУ, 2011. http://essuir.sumdu.edu.ua/handle/123456789/20488.

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Bastien, Samuel. "Selective chemical stripping of titanium aluminum nitride coating from titanium substrate using hydrogen peroxide and potassium oxalate." Thesis, McGill University, 2012. http://digitool.Library.McGill.CA:80/R/?func=dbin-jump-full&object_id=110474.

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Titanium Aluminum Nitride (TiAlN) is an important industrial coating that improves hardness and corrosion resistance. The objective of the present work is to develop chemical methods which selectively remove TiAlN coatings deposited on Titanium substrates. The selected stripping solution consists of hydrogen perox¬ide (H2O2) and potassium oxalate (K2C2O4). Coupons of Ti-6-4 coated with a notional 10 micron thick coating of TiAlN were exposed to a stripping solution at varying temperature and compositions. Overall, it was found that increasing the temperature of reaction or the concentration of reactants led to an increase in stripping rate of the coating and substrate. The selectivity also increased with an increase in tempera¬ture or potassium oxalate concentration, but decreased with an increase in hydrogen peroxide concentration. The highest stripping rate that was obtained for the coating was of 39 µm/hr at a tempe¬rature of 75oC, a concentration of hydrogen peroxide of 5.9 mol/L and a potassium oxalate concentra¬tion of 0.226 mol/L. At the same conditions, uncoated samples were found to be stripped at a rate of 6.6 µm/hr. The best selectivity that was obtained was of 6.8, at a potassium oxalate concentra¬tion of 0.226 mol/L, a hydrogen peroxide concentration of 4.4 mol/L and a 75oC temperature. It was also found that the ratio of Ti:Al in the coating had a major effect on its chemical resistance to H2O2 and K2C2O4 mixtures.
Titanium Aluminum Nitride (TiAlN) est un revêtement industriel important puisqu'il améliore la dureté et la résistance à la corrosion. L'objectif de ce travail est de développer des techniques chimiques qui enlèvent de façon sé¬lective des revêtements de TiAlN déposés sur des substrats de Titane. La solution chimique sélection¬née consiste de peroxyde d'hydrogène (H2O2) et d'oxalate de potassium (K2C2O4). Des échantillons de Ti-6-4 couverts d'une couche de TiAlN d'une épaisseur notionnelle de 10 micromètres ont été exposés à plusieurs solutions chimiques avec des températures et concentrations variées. De façon générale, nous avons trouvé que si on augmentait la température de la réaction ou la concentration des réactants, cela faisait augmenter les vitesses de dégradation du revêtement et du substrat. La sélectivité augmentait aussi avec une hausse de la température ou de la concentration d'oxalate de potassium, mais diminuait avec une hausse de la concentration de peroxyde d'hydrogène. La plus haute vitesse de dissolution du revêtement qui a été obtenue était de 39 µm/hr à une température de 75oC, une concentration de peroxyde d'hydrogène de 5.9 mol/L et une concentration d'oxalate de potassium de 0.226 mol/L. À des conditions similaires, le substrat se dissolvait à une vitesse de 6.6 µm/hr. La meilleure sélectivité obtenue était de 6.8, à une concentration d'oxalate de potassium de 0.226 mol/L, une concentration de peroxyde d'hydrogène de 4.4 mol/L et une température de 75oC. Nous avons aussi trouvé que le ratio de Ti:Al dans le revêtement a un impact majeur sur sa résistance chimique aux solutions de H2O2 et de K2C2O4.
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Wang, Xihong. "Wear behavior of PVD titanium nitride-coated tool steels /." Full text open access at:, 1989. http://content.ohsu.edu/u?/etd,237.

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Gromov, V. E., N. A. Soskova, S. V. Raikov, E. A. Budovskikh, A. V. Ionina, I. V. Lushina, and S. V. Konovalov. "Nanosize Structure Phase States of Ti Surface Layer Formed During Electroexplosive Carboborating." Thesis, Сумський державний університет, 2012. http://essuir.sumdu.edu.ua/handle/123456789/34804.

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The electroexplosive carboborating leads to a significant (up to 12 times) increase in microhardness of the titanium irradiated surface. It is established that the thickness of strengthened surface layer reaches ~ 125 μm. The formation of nanosize structure-phase states in Ti surface layers during electroexplosive carboborating was carried out by methods of scanning and transmission diffraction electron microscopy. When you are citing the document, use the following link http://essuir.sumdu.edu.ua/handle/123456789/34804
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GONCALVES, ANDRE. "Obtencao e caracterizacao de revestimentos compostos de multicamadas TiOsub(2)/TiN." reponame:Repositório Institucional do IPEN, 2010. http://repositorio.ipen.br:8080/xmlui/handle/123456789/9572.

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Made available in DSpace on 2014-10-09T12:28:10Z (GMT). No. of bitstreams: 0
Made available in DSpace on 2014-10-09T14:01:45Z (GMT). No. of bitstreams: 0
Dissertacao (Mestrado)
IPEN/D
Instituto de Pesquisas Energeticas e Nucleares - IPEN-CNEN/SP
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Lee, Seungchan. "Size modification and coating of titanium dioxide using a premixed hydrogen/air flame." College Park, Md. : University of Maryland, 2006. http://hdl.handle.net/1903/3937.

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Thesis (M.S.) -- University of Maryland, College Park, 2006.
Thesis research directed by: Dept. of Chemistry and Biochemistry. Title from t.p. of PDF. Includes bibliographical references. Published by UMI Dissertation Services, Ann Arbor, Mich. Also available in paper.
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Duddukuri, Ramesh. "SYNTHESIZING AND CHARACTERIZATION OF TITANIUM DIBORIDE FOR COMPOSITE BIPOLAR PLATES IN PEM FUEL CELL." OpenSIUC, 2012. https://opensiuc.lib.siu.edu/theses/862.

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This research deals with the synthesis and characterization of titanium diboride (TiB2) from novel carbon coated precursors. This work provides information on using different boron sources and their effect on the resulting powders of TiB2.The process has two steps in which the oxide powders were first coated with carbon by cracking of a hydrocarbon gas, propylene (C3H6) and then, mixed with boron carbide and boric acid powders in a stoichiometric ratio. These precursors were treated at temperatures in the range of 1200-1400° C for 2 h in flowing Argon atmosphere to synthesize TiB2.The process utilizes a carbothermic reduction reaction of novel carbon coated precursor that has potential of producing high-quality powders (sub-micrometer and high purity). Single phase TiB2 powders produced, were compared with commercially available titanium diboride using X-ray diffraction and Transmission electron microscopy obtained from boron carbide and boric acid containing carbon coated precursor.
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Domenici, V., S. Dolci, G. Pampaloni, and Z. Jaglicic. "New Ultra Small Iron-Oxide Nanoparticles with Titanium-Carbamate Coating: Preparation and Magnetic Properties." Thesis, Sumy State University, 2012. http://essuir.sumdu.edu.ua/handle/123456789/35456.

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This work deals with the preparation and chemical characterization of new Ultra-Small Iron-Oxide Superparamagnetic Nanoparticles (USPIONs) functionalized with Titanium-carbamate. The synthesis was performed starting from oleate-coated and 2-pyrrolidone-coated USPIONs having a maghemite ( -Fe2O3) and magnetite (Fe3O4) crystalline core, respectively. Zero-field-cooled (ZFC) and field-cooled (FC) magnetic susceptibility curves as well as the magnetization behavior as a function of temperature are reported and discussed in view of the superparamagnetic properties and coating effect of these new magnetic nanoparticles. When you are citing the document, use the following link http://essuir.sumdu.edu.ua/handle/123456789/35456
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Kar, Archana. "Hydroxyapatite deposition onto nanoporous TiO2 and assessment of bone cell growth and proliferation." abstract and full text PDF (free order & download UNR users only), 2007. http://0-gateway.proquest.com.innopac.library.unr.edu/openurl?url_ver=Z39.88-2004&rft_val_fmt=info:ofi/fmt:kev:mtx:dissertation&res_dat=xri:pqdiss&rft_dat=xri:pqdiss:1447622.

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Books on the topic "Titanium coating"

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Marinković, S. Titanium nitride coatings: Preparations, characteristics, and applications. 2nd ed. Jülich: Forschungszentrum Jülich, 1991.

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Prange, Robert. Abscheidung metastabiler Ti₁₋xAlxN-Schichten nach dem plasmagestützten CVD-Verfahren. Düsseldorf: VDI Verlag, 2000.

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(Ramaswamy), Narayanan R., and Rautray Tapash R, eds. Surface modification of titanium for biomaterial applications. New York: Nova Science Publishers, 2010.

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Kim, Kyo-Han. Surface modification of titanium for biomaterial applications. Hauppauge, N.Y: Nova Science Publishers, 2009.

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McIlwain, J. F. Plasma-sprayed iron-base wear-resistant coatings containing titanium diboride. Pittsburgh, Pa: U.S. Dept. of the Interior, Bureau of Mines, 1985.

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Sloof, Willem Gerrit. Internal stresses and microstructure of layer/substrate assemblies: Analysis of TiC and TiN coatings chemically vapour deposited on various substrates. Delft, Netherlands: Delft University Press, 1996.

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Hahn, H. J. Method for the production of strongly adhesive metal films on titanium and titanium alloys with a metallization process [microform]. Washington D.C: National Aeronautics and Space Administration, 1986.

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Hahn, H. J. Method for the production of strongly adhesive metal films on titanium and titanium alloys with a metallization process [microform]. Washington D.C: National Aeronautics and Space Administration, 1986.

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Milošev, Ingrid. Corrosion properties of hard PVD nitride coatings (with the emphasis on TiN): German-Slovenian-Cooperation in Research and Technological Development. Jülich: Forschungszentrum Jülich, 1995.

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Bliznakovska, Blagica. Analysis methods and techniques for hard thin layer-coatings characterization: In particular on titanium nitride. Jülich: Forschungszentrum Jülich, 1993.

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Book chapters on the topic "Titanium coating"

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Yang, Hai Long, Shouichi Somegawa, Ying Jie Yang, and Zhi Chen Luo. "Calcium Phosphate Coating on Titanium." In Key Engineering Materials, 617–20. Stafa: Trans Tech Publications Ltd., 2007. http://dx.doi.org/10.4028/0-87849-422-7.617.

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Bogdanov, Sergey, and Maxim Sychov. "Core-Shell Powders with Titanium Coating." In Advances in Intelligent Systems and Computing, 81–86. Cham: Springer International Publishing, 2017. http://dx.doi.org/10.1007/978-3-319-67459-9_11.

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Badkar, Duradundi Sawant. "Investigations on Laser Surface Modification of Commercially Pure Titanium Using Continuous-Wave Nd:YAG Laser." In Advanced Coating Materials, 349–92. Hoboken, NJ, USA: John Wiley & Sons, Inc., 2018. http://dx.doi.org/10.1002/9781119407652.ch12.

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Forouzanmehr, Mohsen, Kazem Reza Kashyzadeh, Amirhossein Borjali, Mosayeb Jafarnode, and Mahmoud Chizari. "Effects of CrN/TiN Coatings on Interfacial Contact Resistance of Stainless Steel 410 Bipolar Plates in Fuel Cells." In Springer Proceedings in Energy, 133–39. Cham: Springer International Publishing, 2021. http://dx.doi.org/10.1007/978-3-030-63916-7_17.

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AbstractChallenge on energy resources exists, especially when the fossil resources are limited. Fuel cells, as an alternative replacement, can be used. Fuel cells with coated bipolar plates are the interest of this paper. Current research is concerned with the effects of CrN/TiN coatings on interfacial contact resistance (ICR). Stainless steel 410 was selected as a base metal, and the coating process was performed using chromium nitride and titanium nitride by cathodic arc evaporation method. It was found that the surface roughness and ICR values of CrN-coated sample are lower than the TiN-coated sample. The concluded that the CrN layer could be replaced with the TiN layer for better performance of bipolar plates.
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Moroni, A., V. Caja, E. Egger, F. Gottsauner Wolf, L. Trinchese, G. Rollo, and E. Y. Chao. "Porous Titanium Implants with and without Hydroxyapatite Coating." In Bioceramics and the Human Body, 141–47. Dordrecht: Springer Netherlands, 1992. http://dx.doi.org/10.1007/978-94-011-2896-4_18.

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Hashimoto, Takayoshi, Akiko Obata, and Toshihiro Kasuga. "Preparation of Silicon-Containing Apatite Coating on Titanium." In Advanced Materials Research, 801–4. Stafa: Trans Tech Publications Ltd., 2007. http://dx.doi.org/10.4028/0-87849-463-4.801.

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Badkar, D. S. "Effects of Laser Process Parameters on Overlapped Multipass/Multitrack Hardened Bead Parameters of Ti-6Al-4V Titanium Alloy Using Continuous-Wave Rectangular Beam." In Advanced Coating Materials, 65–84. Hoboken, NJ, USA: John Wiley & Sons, Inc., 2018. http://dx.doi.org/10.1002/9781119407652.ch3.

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Wirth, Jonathan, and Lobat Tayebi. "Engineering of Dental Titanium Implants and Their Coating Techniques." In Applications of Biomedical Engineering in Dentistry, 149–60. Cham: Springer International Publishing, 2019. http://dx.doi.org/10.1007/978-3-030-21583-5_6.

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Finke, B., Karsten Schroeder, F. Luethen, J. B. Nebe, J. Rychly, K. Liefeith, R. Bader, et al. "Plasma Polymer Coating of Titanium for Improved Bone Implants." In IFMBE Proceedings, 30–33. Berlin, Heidelberg: Springer Berlin Heidelberg, 2008. http://dx.doi.org/10.1007/978-3-540-69367-3_9.

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LeGeros, John P., Shu Jie Lin, Dindo Mijares, Fred Dimaano, and Racquel Z. LeGeros. "Electrochemically Deposited Calcium Phosphate Coating on Titanium Alloy Substrates." In Bioceramics 17, 247–50. Stafa: Trans Tech Publications Ltd., 2005. http://dx.doi.org/10.4028/0-87849-961-x.247.

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Conference papers on the topic "Titanium coating"

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Manoharan, Mohan Prasad, Amit Desai, and Amanul Haque. "Fracture Toughness of Titanium - Titanium Nitride Multi-Layer Thin Film." In ASME 2008 International Design Engineering Technical Conferences and Computers and Information in Engineering Conference. ASMEDC, 2008. http://dx.doi.org/10.1115/detc2008-49821.

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Thin film specimens of titanium - titanium nitride multilayer erosion resistant coating were prepared using liftout technique in Focused Ion Beam - Scanning Electron Microscope (SEM). The fracture toughness of the thin film specimen was measured in situ using a cantilever bending experiment in SEM to be 11.33 MPa/m0.5, twice as much as conventional TiN coatings. Ti–TiN multi-layer coatings are part of a new class of advanced erosion resistant coatings and this paper discusses an experimental technique to measure the fracture toughness of these coatings.
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Karthikeyan, J., C. M. Kay, J. Lindeman, R. S. Lima, and C. C. Berndt. "Cold Spray Processing of Titanium Powder." In ITSC 2000, edited by Christopher C. Berndt. ASM International, 2000. http://dx.doi.org/10.31399/asm.cp.itsc2000p0255.

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Abstract Oxygen-free titanium coatings are at present produced using vacuum plasma spray systems. The cold spray process can produce titanium coatings in atmospheric air at reduced cost. Variations of the deposition efficiency as well as the coating characteristics with various process parameters were studied. Results show that the deposition efficiency drops drastically below a critical temperature. The parameters which affect the jet velocity; viz., the type of gas and the nozzle geometry have maximum effect on the process deposition efficiency. Sprayed coatings were porous and exhibited a low modulus and high hardness. Post processing of the coating by machining produced dense, strong and hard coatings. Key words: Cold-Spray, Titanium, Oxidation.
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Ohmori, A., Z. Zhou, and C. J. Li. "Characterization of Graded Ti Silicide Coating Formed by Thermal Diffusion Treatment of Low Pressure Plasma Sprayed Silicon Coating." In ITSC 1998, edited by Christian Coddet. ASM International, 1998. http://dx.doi.org/10.31399/asm.cp.itsc1998p0605.

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Abstract The silicon coating was sprayed on titanium substrate by low pressure plasma spraying and the subsequent coating was heat-treated in vacuum. It is found that a titanium silicide coating with the composition changed gradually can be formed through thermal diffusion treatment of silicon coating sprayed by low pressure plasma on titanium substrate. The formed silicide coatings are characterized by optical microscopy, scanning electron microscopy, EPMA analysis and X-ray diffraction (XRD). The forming process of the silicide coating is investigated by examining the relationship between silicide coating thickness and thermal diffusion parameters. The results show that the composition of silicide coating changes gradually from TiSi, at the silicon coating side through TiSi and Ti5Si4, to Ti5Si4, near substrate side. The thickness of such graded silicide coating is determined by temperature and holding time during heat-treatment. The diffusion of silicon into titanium substrate is mainly responsible for the formation of silicide. Moreover, the investigation of oxidation behavior of silicide coating shows that the formation of silicide coating on the titanium substrate can improve the oxidation resistance of titanium.
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Liburdi, J., D. R. Nagy, and V. R. Parameswaran. "Erosion Resistant Titanium Nitride Coating for Turbine Compressor Applications." In ASME 1992 International Gas Turbine and Aeroengine Congress and Exposition. American Society of Mechanical Engineers, 1992. http://dx.doi.org/10.1115/92-gt-417.

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While operating in dusty environments, the blades and vanes in turbine compressors are prone to degradation by solid particle erosion which causes surface roughening as well as loss of airfoil contour and changes in airfoil geometry. This results in decreased compressor performance, higher specific fuel consumption, and significantly increased operational costs. Erosion damage is more prominent in flight engines that cannot be protected by inlet filters. This paper describes the development and application of a thin ceramic titanium nitride coating to improve the erosion resistance of compressor airfoils. The coatings were produced by a Reactive Ion Coating (RIC) process and optimized to produce a very adherent erosion resistant coating structure. The coating process was successfully scaled up and applied to a complete Allison T56 compressor for engine test. The control laboratory tests showed that the thin coating had no significant influence on either the resonance frequency or the fatigue resistance of the blades and the instrumented engine tests confirmed that the performance was typical of overhauled engines. Therefore, titanium nitride coatings are suitable for service and can be retrofitted on existing engines to improve the life of the compressors.
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Dewi, Ratnawati Irma, Rubianto Muhammad, and Prahasanti Chiquita. "Titanium implant coating and their effect on osseointegration." In THE 2ND INTERNATIONAL CONFERENCE ON PHYSICAL INSTRUMENTATION AND ADVANCED MATERIALS 2019. AIP Publishing, 2020. http://dx.doi.org/10.1063/5.0036187.

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Hopkins, Caroline G., Peter E. McHugh, and J. Patrick McGarry. "Computer Modeling of Cardiovascular Stent Coating Damage." In ASME 2008 Summer Bioengineering Conference. American Society of Mechanical Engineers, 2008. http://dx.doi.org/10.1115/sbc2008-192880.

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In this paper computational simulations of stent coating debonding are presented. Finite element methods are implemented to model coating delamination during stent crimping, deployment and recoil. Gold, titanium and polymer coatings of differing thicknesses are explicitly modeled. The interfacial relationship between the stent surface and the coating during crimping and deployment is simulated using a cohesive zone model.
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Holcomb, G. R., S. D. Cramer, S. J. Bullard, B. S. Covino, W. K. Collins, R. D. Govier, and G. E. McGill. "Characterization of Thermal-Sprayed Titanium Anodes for Cathodic Protection." In ITSC 1997, edited by C. C. Berndt. ASM International, 1997. http://dx.doi.org/10.31399/asm.cp.itsc1997p0141.

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Abstract Thermal-sprayed titanium coatings were investigated as anodes for impressed current cathodic protection systems for steel reinforced concrete structures. The coatings were applied by twin-wire thermal-spraying using air and nitrogen as atomizing gases. The coatings were non-homogeneous due to oxidation and nitridation of the molten titanium with the atmospheric gases oxygen and nitrogen. The primary coating constituents were α-Ti (containing interstitial nitrogen and oxygen), γ-TiO and TiN. Nitrogen atomization produced coatings with less cracking, more uniform chemistry, and lower resistivity than air atomization.
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Hajmrie, K., and A. P. Chilkowich. "Low Friction Cobalt-Based Coatings for Titanium Alloys." In ITSC 1997, edited by C. C. Berndt. ASM International, 1997. http://dx.doi.org/10.31399/asm.cp.itsc1997p0127.

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Abstract Protective coatings adapted for titanium alloys which come into frictional contact with one another are described. Among the many coatings investigated, the best ones are cobalt based. The coatings are sprayed only on one of the rubbing surfaces. During rubbing, a small part of the coating transfers to the unprotected titanium alloy surface. The rubbing pair is thus essentially composed of two cobalt alloy-based surfaces. This leads to low coefficient of friction and little or no damage to the rubbing surfaces. The coatings find particular application in the protection from adhesive and fretting wear, galling and seizure of gas turbine and jet engine parts or the like made from titanium alloys.
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Cai, F., Xiao Huang, Q. Yang, and Doug Nagy. "Tribological Behaviours of Titanium Nitride and Chromium Nitride Based PVD Coating Systems." In ASME Turbo Expo 2012: Turbine Technical Conference and Exposition. American Society of Mechanical Engineers, 2012. http://dx.doi.org/10.1115/gt2012-68107.

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This study investigates the effects of the deposition process and coating composition on microstructural and tribological properties of TiN and CrN based coating systems. Coatings were produced using various PVD based processes — electron beam (EB), cathodic arc (CA) and plasma enhanced magnetron sputtering (PEMS). All coated samples were evaluated for their composition, microstructure and surface morphology. Coating mechanical properties such as hardness, Young’s modulus and coefficient of friction were also studied and related to their microstructures, wear and erosion resistances. It was found that hardness (H), Young’s modulus (E) and coefficient of friction had impact on both wear and erosion rates. In particular, the H3/E2 ratio was inversely proportional to the specific wear rate. For erosion behaviour, higher H3/E2 ratios relate to lower erosion rates at low impingement angles; whereas higher H3/E2 ratios relate to higher erosion rates at high impingement angles.
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Youtao Xie, Fei Yang, Kerong Dai, Xuebin Zheng, and Chuanxian Ding. "Nano-structured titanium coating for improving its biological performance." In 2010 IEEE 3rd International Nanoelectronics Conference (INEC). IEEE, 2010. http://dx.doi.org/10.1109/inec.2010.5424813.

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Reports on the topic "Titanium coating"

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Stricklin, Isaac, Douglas Vodnik, Igor Usov, Charles Beauvais, Nicholas Bittner, Tommy Rockward, and Christopher Wetteland. Adhesion of Titanium Coatings on Additively Manufactured Stainless Steel. Office of Scientific and Technical Information (OSTI), September 2021. http://dx.doi.org/10.2172/1823713.

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Stricklin, Isaac, Douglas Vodnik, Igor Usov, Alexander Edgar, Victor Siller, Charles Beauvais, Nicholas Bittner, Tommy Rockward, and Christopher Wetteland. Adhesion of Titanium Coatings on Additively Manufactured Stainless Steel. Office of Scientific and Technical Information (OSTI), September 2021. http://dx.doi.org/10.2172/1822705.

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Faldetta, G. M. Corrosion-resistance characteristics of sputtered titanium-Hastelloy C glassy alloy coatings. Office of Scientific and Technical Information (OSTI), August 1986. http://dx.doi.org/10.2172/5405930.

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Chung, Eun-Young, Chang-Kuk Im, and Sung-Hwan Lim. Preparation and Characteristics of Mica-Coated Titania Pearlescent Pigment for High-Performance Automotive Coatings. Warrendale, PA: SAE International, May 2005. http://dx.doi.org/10.4271/2005-08-0075.

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