Results 271 to 280 of about 67,066 (314)
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1991
Studies of interdiffusion in thin films of Ti-Rh and some ternary alloys have been carried out using Rutherford backscattering. The binary system showed very low levels of interdiffusion at temperatures of 400 °C or less [10].
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Studies of interdiffusion in thin films of Ti-Rh and some ternary alloys have been carried out using Rutherford backscattering. The binary system showed very low levels of interdiffusion at temperatures of 400 °C or less [10].
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2003
Foreword.List of Contributors.1. Structure and Properties of Titanium and Titanium Alloys (M. Peters, et al.).2. Beta Titanium Alloys (G. Terlinde and G. Fischer).3. Orthorhombic Titanium Aluminides: Intermetallic with Improved Damage Tolerance (J. Kumpfert and C. Leyens).4. gamma-Titanium Aluminide Alloys: Alloy Design and Properties (F.
Manfred Peters, Christoph Leyens
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Foreword.List of Contributors.1. Structure and Properties of Titanium and Titanium Alloys (M. Peters, et al.).2. Beta Titanium Alloys (G. Terlinde and G. Fischer).3. Orthorhombic Titanium Aluminides: Intermetallic with Improved Damage Tolerance (J. Kumpfert and C. Leyens).4. gamma-Titanium Aluminide Alloys: Alloy Design and Properties (F.
Manfred Peters, Christoph Leyens
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Titanium Alloys for Aerospace Applications
Advanced Engineering Materials, 2003AbstractThere is probably no other material more closely related to aerospace than titanium and its alloys. With a density of 4.5g/cm3, titanium alloys are only about half as heavy as steel or Ni‐based superalloys, yielding an excellent strength‐to‐weight ratio. Furthermore, they have exceptional corrosion resistance.
Peters, M. +3 more
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Corrosion of Titanium and Titanium Alloys
2005Abstract Titanium alloys are often used in highly corrosive environments because they are better suited than most other materials. The excellent corrosion resistance is the result of naturally occurring surface oxide films that are stable, uniform, and adherent.
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Wrought Titanium and Titanium Alloys
1990Abstract This article discusses the wrought product forms of titanium and titanium-base alloys, which include forgings and the typical mill products with tabulations for various specifications, and compares specifications for pure titanium, titanium alloys for mechanical, physical properties and chemical properties, including chemical ...
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Titanium and Titanium Alloy Castings
2008Abstract The combination of high strength-to-weight ratio, excellent mechanical properties, and corrosion resistance makes titanium the best material choice for many critical applications. This article begins with a description of the historical perspective of titanium casting technology.
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Processing of Titanium and Titanium Alloys
1998Abstract Titanium metal passes through three major steps during processing from ore to finished product: reduction of titanium ore to sponge (porous form), melting of sponge and scrap to form ingot, and remelting and casting into finished shape.
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Introduction to Titanium and Titanium Alloys
1990Abstract Titanium has been recognized as an element with good mechanical and physical properties, alloying characteristics, and corrosion resistance. Providing an outline of general characteristics and types of titanium alloys, this article discusses the contemporary technology of titanium along with its market developments.
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Complex alloying of titanium alloys
Metal Science and Heat Treatment, 19751. The effectiveness of complex alloying was established, in which the strength of both the α and β solid solutions increases, and the difference between their strengths decreases. This leads to more even plastic deformation and more complete utilization of the strength of the α and β phases. 2.
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2005
Publisher Summary The properties of titanium alloys are determined primarily by the morphology, volume fraction, and individual properties of the two phases α and β. The main substitutional alloying elements that dissolve in the α-phase are the stabilizing elements, aluminum and oxygen, and the neutral elements—tin and zirconium.
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Publisher Summary The properties of titanium alloys are determined primarily by the morphology, volume fraction, and individual properties of the two phases α and β. The main substitutional alloying elements that dissolve in the α-phase are the stabilizing elements, aluminum and oxygen, and the neutral elements—tin and zirconium.
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