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Monday, May 18, 2020 | History

2 edition of Development of novel surface engineering technologies for Ti6A14V alloy found in the catalog.

Development of novel surface engineering technologies for Ti6A14V alloy

Hanshan Dong

Development of novel surface engineering technologies for Ti6A14V alloy

by Hanshan Dong

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  • 3 Currently reading

Published by University of Birmingham in Birmingham .
Written in English


Edition Notes

Thesis (Ph.D) - University of Birmingham, School of Metallurgy and Materials, Faculty of Engineering.

Statementby Hanshan Dong.
ID Numbers
Open LibraryOL17221852M

The capabilities of using LAM for surface modification of metals are also presented in this chapter. A specific example is given as a case study for the surface modification of titanium alloy (Ti6Al4V) with Ti6Al4V/TiC composite using laser material deposition process – an important LAM by: 5. The Woodhead Publishing Series in Metals and Surface Engineering is a collection of professional reference books that provide comprehensive reviews on all the major research and technological developments in surface engineering, corrosion and the production and manufacture of metals and commercial alloys.

Purchase Surface Engineering of Light Alloys - 1st Edition. Print Book & E-Book. ISBN , Additive technology is a novel surface engineering technique, which allows us to obtained alloys with high density (about %) similar to cast materials [6]. A number of characteristics are important in manufacturing of the parts with additive technologies (selective laser fusion, selective laser synthesis, electron beam fusion).

Hanshan Dong is Professor of Surface Engineering and Leader of Surface Engineering Research Group at the University of Birmingham. He is a leading surface engineering expert in developing novel surface engineering technologies (such as S-phase surface engineering, ceramic conversion, graphene-based coatings, active-screen plasma co-alloying and triple-glow plasma multi . Introduction to Selection of Titanium Alloys General Background TITANIUM is a low-density element (ap-proximately 60% of the density of steel and superalloys) that can be strengthened greatly by alloying and deformation processing. (Charac-teristic properties of elemental .


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Development of novel surface engineering technologies for Ti6A14V alloy by Hanshan Dong Download PDF EPUB FB2

The optimization of surface alloying treatments of Ti6A14V under CO2 and N2atmospheres with a pulsed Nd-YAG laser has been performed, trying to maximize alloyed layer hardness and minimize surface Gas Surface Alloying of Ti6A14V Alloy by Laser | SpringerLinkCited by: 2.

Titanium and its alloy are most widely used implant materials in dental and orthopaedic fields. However, infections occurring during implantation leads to implant failure in most of the cases.

Here, we have demonstrated antibacterial behavior of Ti6Al4V alloy achieved when surface modified using femtosecond laser beam. Post laser treatment conical microstructures were observed on the Ti6Al4V Cited by: 1.

Titanium, due to its physical and mechanical properties, is a very good material to be used in modern technology. The article presents the effect of titanium Ti6Al4V alloy surface preparation method on the physicochemical properties of the functional : Marcin Ornowski, Marcin Grobelny, Małgorzata Kalisz.

In this study, a novel protocol for surface modification of 3D titanium alloy‐based open porous structures is developed, which applies a combination of chemical etching (CHE) and electrochemical polishing (ECP) using HF‐based by: Because of its disadvantages of low surface hardness values, a high coefficient of friction and poor wear resistance, Ti6Al4V alloy is seldom used in tribological-related engineering components.

To improve the surface performance of Ti6Al4V alloy used as petroleum tubes for oil and gas exploitation applications, a. Surface texture (ST) has been confirmed as an effective and economical surface treatment technique that can be applied to a great range of materials and presents growing interests in various engineering fields.

Ti6Al4V which is the most frequently and successfully used titanium alloy has long been restricted in tribological-related operations due to the shortcomings of low surface hardness Cited by: Ti-Al alloying diffusion layer was fabricated on the surface of titanium alloy (Ti6Al4V) by double glow discharge plasma technique and hollow cathode effect.

SURFACE MODIFICATION OF Ti6Al4V TITANIUM ALLOY FOR BIOMEDICAL APPLICATIONS AND ITS EFFECT 76 2 7 5 6.R.!2." 5 TVMIE-CCLF5 0NUFQ-C -CHK-G Faculty of Mechanical Engineering, Department of Materials and Biomedical Engineering, Bialystok University of Technology, ul.

IWSXaYO +5 +)+ 4WO`gab]Y B]ZO?R Received: Abstract. Ti6Al4V is an alpha-beta alloy and the most widely used of all the titanium alloys.

Ti6Al4V ELI is also briefly described. The composition, physical and mechanical properties and fabrication details are provided.

A comprehensive data sheet is also attached. Founded in Surface Engineering Alloy Company specializes in developing new, creative solutions to minimize wear by utilizing current and/or emerging technologies. Our Company prides itself on providing a full spectrum of consumables designed to reduce or eliminate production inefficiencies caused by wear in all industries.

Our Commitment For a partnership to be successful, it [ ]. surface technologies that best protect engineering devices and products: diffusion technologies, deposition technologies, and other less commonly acknowledged surface engineering (SE) Author: Peter Dearnley.

Surface modification of titanium, titanium alloys, and related materials for biomedical applications Xuanyong Liua,b, Paul K. Chub,*, Chuanxian Dinga aShanghai Institute of Ceramics, Chinese Academy of Sciences, Dingxi Road, ShanghaiChina bDepartment of Physics and Materials Science, City University of Hong Kong, Tat Chee Avenue, Kowloon, Hong KongFile Size: 2MB.

Surface Engineering publishes materials on both theory and practice, including design, surface modification technologies and process control. surface modification technologies and process control.

Search in: Advanced search. Submit an article. New content alerts RSS. Subscribe. Preparation of a superhydrophobic aluminium alloy surface.

In the paper, the scanning electron microscopy (SEM), energy-dispersive X-ray spectroscopy (EDS), and X-ray photoelectron spectroscopy (XPS) results of the Ti6Al4V alloy treated by a novel plasma electrolytic oxidation (PEO) (micro arc oxidation) in the electrolyte containing concentrated phosphoric acid and copper nitrate are presented.

The PEO treatment was performed at Cited by: widely used in engineering, namely in the aerospatiale, automotive and biomedical fields [2,3].

The alloy Ti-6Al-4V, due to its biocompatibility coupled with good combination of mechanical and corrosive properties, is the most popular titanium-based material in the manufacture of biomedical components, including dental implants, prosthetic.

Recently, an environmental friendly ceramic conversion (CC) technology has been developed for titanium alloy which involves the conversion of the metallic surface, through controlled thermal oxidation (TO) processes, into a diffusional bonded ceramic (rutile-TiO 2) layer on the titanium alloy surface and an oxygen solution strengthened diffusion zone underneath.Cited by: Recently, two novel surface engineering techniques, thermal oxidation (TO) and oxygen diffusion (OD), have been developed in the group, which can produce combined improvements in tribological and corrosion propert Cited by: Ti6Al4V is an alpha-beta alloy and the most widely used of all the titanium alloys.

Ti6Al4V ELI is also briefly described. The composition, physical and mechanical properties and fabrication details are provided. A comprehensive data sheet is also ition: Ti/6Al/4V.

Dissolution Test For dissolution test, six samples of bare and ZrN coated Ti6Al4V alloy of surface area 1 cm 2 were im mersed in 50 ml of normal saline solution in polypropylene bottles. The bottles were evacuated, tightly closed and i ncubated in thermostatic chamber at 37±1 bottles.

The symposium titled “Surface Engineering: Science and Technology II” was organized by Ashok Kumar, Y. Chung, John J. Moore, Gary L. Doll, D. Misra and Kiyoshi Yatsui, and held in Seattle, Washington, during the TMS annual meeting, FebruaryThis volume.

Key challenges remain, and a great deal of research is required to develop 3D printing technology for all classes of materials including polymers, metals, ceramics, and composites. In view of the growing importance of 3D manufacturing worldwide, this Special Issue aims to seek original articles to further assist in the development of this.Surface modification procedures by laser techniques allow the generation of specific topographies and microstructures that enable the adaptation of the external layers of materials for specific applications.

In laser texturing processes, it is possible to maintain control over the microgeometry and dimensions of the surface pattern through varying the processing by: 5.Accept.

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