Effects of minor elements on the weldability of high-nickel alloys
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Effects of minor elements on the weldability of high-nickel alloys proceedings of a symposium sponsored by the Welding Research Council. by Welding Research Council Symposium on Effects of Minor Elements on the Weldability of High Nickel Alloys, Houston, Tex. 1967

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Published by Welding Research Council] in [New York .
Written in English


  • Nickel alloys -- Welding -- Congresses

Book details:

Edition Notes

ContributionsEngineering Foundation, New York. Welding Research Council
LC ClassificationsTS227 W4 1967
The Physical Object
Number of Pages144
ID Numbers
Open LibraryOL20219322M

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Effect of Minor Element Additions—B and Zr of welding metallurgy and weldability of nickel and nickel alloys. This book focuses on the metallurgical behavior of Ni - base alloys with particular emphasis on weldability issues. It does not specifi cally address. It has been reported that susceptibility to hot-cracking, especially solidification cracking and liquation cracking for nickel-based alloys is affected by alloying elements such as niobium, titanium and aluminum, and by minor elements such as sulfur, silicon, manganese, phosphorus etc., due to eutectic formation, as shown in Figs. 20 and You can write a book review and share your experiences. Other readers will always be interested in your opinion of the books you've read. Whether you've loved the book or not, if you give your honest and detailed thoughts then people will find new books that are right for them. J. A. Talento, “Laboratory Test To Determine the Weldability of alloy /EN82 Ni-Cr-Fe Base-Filler Alloy Combinations,” in Effect of Minor Elements on the Weldability of High Cited by: 3.

Nickel and High Nickel Alloys Welding Metallurgy by alloy The nickel based alloys are used in the wider range of applications as corrosion resistant alloys, resistance heating elements, controlled expansion alloys and elevated temperature creep resistant alloys. Carbon steel is not a suitable material to be used against H 2 S. High nickel alloys resist sulfide corrosion in sour gas well environments [27]. h Effect of CO 2 corrosion in oil and gas fields. Several oil and gas fields are very active in CO 2 corrosion (sweet corrosion). In Holland, the bottom temperature of gas wells was reported to be Nickel alloys have good resistance to dilute alkali and chloride solutions. Because resistance to stress-corrosion cracking increases with nickel content, the stress relieving of welds in the high-nickel-content alloys is not usually needed. Effect of slag on weld metal. Nickel-titanium-carbon alloys. See also what's at your library, or elsewhere.. Broader terms: Nickel alloys; Titanium alloys; Titanium carbide; Filed under: Nickel-titanium-carbon alloys Effects of composition and processing variables on transverse rupture strength and hardness of nickel-alloy-bonded titanium carbide / (Pittsburgh, Pa.: U.S. Dept. of the Interior, Bureau of Mines, ), by G.

The main topic of this book is material “weldability.” As described in Chapter 1, there is considerable disagreement over the meaning of the term weldability and the subjects it encompasses.   4 R. J. Truman High Temperature Properties of Steel. I.S.I. Special Publication. G p. 5 Canonico Symposium on Effects of Minor Elements on the Weldability of High Nickel Alloys. Houston. Oct. 6 F. E. Asbury, and G. Willoughby Incoloy - Some Effects on Heat Treatment on Metallurgical Structure and Heat Treated Tensile Strength. The effects of carbon, manganese, sulphur, phosphorus, aluminium, nitrogen, nickel and other alloying elements in the chemical composition of steels are discussed.   But the alloys can make it crack susceptible, so it’s a good idea to use low-hydrogen welding processes with them. Preheating might also prove necessary. 3. High-alloy Steels. The stainless steel is the most important commercial high-alloy steel. Stainless steels are at least 12% chromium and many have high nickel contents.