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Titanium heat exchanger using several grades of commercially pure titanium ...

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in Discovering Metals—A Historical Overview > Metallurgy for the Non-Metallurgist
Published: 01 October 2011
Fig. 4.8 Titanium heat exchanger using several grades of commercially pure titanium (ASTM grades 2, 7, and 12). Courtesy of Joseph Oat Corporation More
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General corrosion behavior of commercially pure titanium and titanium-palla...

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in Corrosion[1] > Titanium<subtitle>Physical Metallurgy, Processing, and Applications</subtitle>
Published: 01 January 2015
Fig. 14.1 General corrosion behavior of commercially pure titanium and titanium-palladium alloys compared with other metals and alloys in oxidizing and reducing environments, with and without chloride ions. Each metal or alloy can generally be used in those environments below its respective More
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Commercially pure titanium sheet (99.0% Ti) (a) as-rolled with elongated α ...

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in Heat Treatment of Nonferrous Alloys > Metallurgy for the Non-Metallurgist
Published: 01 October 2011
Fig. 14.20 Commercially pure titanium sheet (99.0% Ti) (a) as-rolled with elongated α grains. (b) Annealed 2 h at 700 °C with recrystallized α grains. (c) Annealed at 900 °C (just below the transus) and air cooled. Recrystallized grains with some transformed β containing acicular α. Original More
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Application of commercially pure titanium on 9.5 mm (0.4 in.) Haynes AMS 49...

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in Cold Spray Applications in the Defense Industry > High Pressure Cold Spray: Principles and Applications
Published: 01 June 2016
Fig. 9.26 Application of commercially pure titanium on 9.5 mm (0.4 in.) Haynes AMS 4944 (Ti-3Al-2.5V) hydraulic tubing. Courtesy of South Dakota School of Mines and Technology More
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Hydraulic tubing with commercially pure titanium powder deposited to preven...

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in Cold Spray Applications in the Defense Industry > High Pressure Cold Spray: Principles and Applications
Published: 01 June 2016
Fig. 9.27 Hydraulic tubing with commercially pure titanium powder deposited to prevent chafing. (a) Tube in the as-sprayed condition. (b) Same area after a surface finish. Courtesy of South Dakota School of Mines and Technology More
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Typical microstructures of commercially pure titanium plate with (a) normal...

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in Deformation and Recrystallization of Titanium and Its Alloys[1] > Titanium<subtitle>Physical Metallurgy, Processing, and Applications</subtitle>
Published: 01 January 2015
Fig. 5.24 Typical microstructures of commercially pure titanium plate with (a) normal (0.17%) and (b) low (0.03%) iron content. The beta-spheroids in the high-iron material tend to restrict grain growth. Original magnification: 100x. Courtesy of RMI Co. More
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Strength increase with rare earth additions to commercially pure titanium

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in Melting, Casting, and Powder Metallurgy[1] > Titanium<subtitle>Physical Metallurgy, Processing, and Applications</subtitle>
Published: 01 January 2015
Fig. 8.65 Strength increase with rare earth additions to commercially pure titanium More
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Modeled strain distribution in commercially pure titanium after upset. (Onl...

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in Secondary Working of Bar and Billet[1] > Titanium<subtitle>Physical Metallurgy, Processing, and Applications</subtitle>
Published: 01 January 2015
Fig. 10.30 Modeled strain distribution in commercially pure titanium after upset. (Only one-fourth of the pancake is modeled because of twofold symmetry.) The strain varies from 42.3% at “A” at the top center to 126.7% at “G” at the middle center of the pancake. More
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Modeled temperature distribution in commercially pure titanium after upset....

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in Secondary Working of Bar and Billet[1] > Titanium<subtitle>Physical Metallurgy, Processing, and Applications</subtitle>
Published: 01 January 2015
Fig. 10.31 Modeled temperature distribution in commercially pure titanium after upset. The temperature varies from 595 °C (1100 °F) at “A” at the top center to over 815 °C (1500 °F) at “E,” representing most of the pancake. The isotherm represented by “A” for the die shows that its surface More
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Current-voltage curve for electropolishing of commercially pure titanium in...

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in Cleaning and Finishing > Titanium<subtitle>A Technical Guide</subtitle>
Published: 01 December 2000
Fig. 11.4 Current-voltage curve for electropolishing of commercially pure titanium in a mixed acid solution. Polishing occurs on the plateau. More
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Microstructure of commercially pure titanium after annealing in the alpha r...

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in Relationships among Structures, Processing, and Properties > Titanium<subtitle>A Technical Guide</subtitle>
Published: 01 December 2000
Fig. 12.7 Microstructure of commercially pure titanium after annealing in the alpha region or the beta region and cooling to ambient temperatures. (a) Annealed 1 h at 800 °C (1472 °F), water quenched, 0.2% yield strength: 124 MPa (18 ksi), tensile strength: 248 MPa (36 ksi), elongation: 80 More
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The structure of etched (0.5% HF) commercially pure titanium is more clearl...

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in Light Microscopy > Metallography: Principles and Practice
Published: 01 December 1984
Figure 4-18 The structure of etched (0.5% HF) commercially pure titanium is more clearly revealed by the use of polarized light. (Courtesy of N. Gendron, General Electric Co.) More
Book Chapter

Commercially Pure and Modified Titanium Datasheets

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Series: ASM Technical Books
Publisher: ASM International
Published: 01 December 2000
DOI: 10.31399/asm.tb.ttg2.t61120148
EISBN: 978-1-62708-269-3
... Abstract This appendix provides datasheets describing the chemical composition, processing characteristics, mechanical and fabrication properties, and heat treating of commercially pure and modified titanium. The datasheets address four grades of unalloyed titanium (ASTM Grade 1, UNS R50250...
Abstract
This appendix provides datasheets describing the chemical composition, processing characteristics, mechanical and fabrication properties, and heat treating of commercially pure and modified titanium. The datasheets address four grades of unalloyed titanium (ASTM Grade 1, UNS R50250; ASTM Grade 2, UNS R50400; ASTM Grade 3, UNS R50550; and ASTM Grade 4, UNS R50700), two grades of modified titanium (ASTM Grade 7, UNS R52400; and ASTM Grade 11, UNS R52250), and alloy Ti-0.3Mo-0.8Ni (ASTM Grade 12, UNS R53400).
View PDF for content titled, <span class="search-highlight">Commercially</span> <span class="search-highlight">Pure</span> and Modified <span class="search-highlight">Titanium</span> Datasheets
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Microstructure of commercially pure (unalloyed) titanium

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in Metallurgy of Steels and Related Boiler Tube Materials > Failure Investigation of Boiler Tubes: A Comprehensive Approach
Published: 01 December 2018
Fig. 3.41 Microstructure of commercially pure (unalloyed) titanium More
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Commercially pure (CP) and modified titanium typical ultimate tensile stren...

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in Relationships among Structures, Processing, and Properties > Titanium<subtitle>A Technical Guide</subtitle>
Published: 01 December 2000
Fig. 12.9 Commercially pure (CP) and modified titanium typical ultimate tensile strength (UTS) versus temperature More
Book Chapter

Titanium Alloys

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Series: ASM Technical Books
Publisher: ASM International
Published: 01 October 2012
DOI: 10.31399/asm.tb.lmub.t53550223
EISBN: 978-1-62708-307-2
..., and grades of commercially pure titanium and alpha and near-alpha, alpha-beta, and beta titanium alloys. It describes primary and secondary fabrication processes, including melting, forging, forming, heat treating, casting, machining, and joining as well as powder metallurgy and direct metal deposition...
Abstract
Titanium is a lightweight metal used in a growing number of applications for its strength, toughness, stiffness, corrosion resistance, biocompatibility, and high-temperature operating characteristics. This chapter discusses the applications, metallurgy, properties, compositions, and grades of commercially pure titanium and alpha and near-alpha, alpha-beta, and beta titanium alloys. It describes primary and secondary fabrication processes, including melting, forging, forming, heat treating, casting, machining, and joining as well as powder metallurgy and direct metal deposition. It also compares and contrasts the properties of wrought, cast, and powder metal titanium products and discusses corrosion behaviors.
View PDF for content titled, <span class="search-highlight">Titanium</span> Alloys
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The Armstrong/International Titanium Powder process. The TiCl 4 is directl...

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in History and Extractive Metallurgy[1] > Titanium<subtitle>Physical Metallurgy, Processing, and Applications</subtitle>
Published: 01 January 2015
Fig. 1.16 The Armstrong/International Titanium Powder process. The TiCl 4 is directly injected in a vapor form, resulting in the reduction of TiCl 4 to commercially pure titanium. Courtesy of K. Akhtar, Armstrong/Crystal, Sept 2013 More
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Hydrogen embrittlement failure of a Ti-6Al-4V helium pressure vessel used o...

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in Corrosion of Nonferrous Alloy Weldments > Corrosion of Weldments
Published: 01 December 2006
Fig. 8 Hydrogen embrittlement failure of a Ti-6Al-4V helium pressure vessel used on the Saturn IV B. Similar hydriding occurred in Apollo SPS pressure vessels. (a) Failed pressure vessel due to brittle hydride formation along weld bead made with commercially pure titanium. (b) Hydride at edge More
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Effects of interstitial elements carbon, oxygen, and nitrogen on commercial...

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in Joining Titanium and Its Alloys[1] > Titanium<subtitle>Physical Metallurgy, Processing, and Applications</subtitle>
Published: 01 January 2015
Fig. 12.3 Effects of interstitial elements carbon, oxygen, and nitrogen on commercially pure titanium weld-metal notch toughness More
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Effect of oxygen content on the strength and ductility of sintered commerci...

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in Melting, Casting, and Powder Metallurgy[1] > Titanium<subtitle>Physical Metallurgy, Processing, and Applications</subtitle>
Published: 01 January 2015
Fig. 8.59 Effect of oxygen content on the strength and ductility of sintered commercially pure titanium powder. UTS, ultimate tensile strength; E, elongation. Courtesy of Daido Steel Co. More