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Nickel Titanium Tube

Linear Formula:



(2N) 99% Nickel Titanium Tube
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(3N) 99.9% Nickel Titanium Tube
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(4N) 99.99% Nickel Titanium Tube
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(5N) 99.999% Nickel Titanium Tube
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Nickel Titanium Tube Properties



Nickel Titanium Tube Health & Safety Information

Signal Word N/A
Hazard Statements N/A
Hazard Codes N/A
Risk Codes N/A
Safety Statements N/A
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About Nickel Titanium Tube

Round Metallic Tubes--Selected DimensionsAmerican Elements specializes in supplying seamless Nickel Titanium tubing with a variety of dimensions including round, rectangular, square, and oval in numerous standard diameters from 0.02 to 6.0 inches and wall thicknesses from 0.003 to 0.500 inches. Tubing can be further processed to produce rings, washers, sleeves and sheaths. Custom configurations are also available. Selected Ultra High Purity Metallic TubesMaterials include most metals including the rare earth metals and other advanced materials. Tubes can also be produced from custom materials and alloys for commercial and research applications and for new proprietary technologies. Other available shapes include bar or plate form, as well as custom machined shapes and through other processes such as nanoparticles and in the form of solutions and organometallics. We also produce Nickel Titanium as disc, granules, ingot, pellets, powder, rod, wire, foil, and sputtering target.. Other shapes are available by request.

Nickel Titanium Tube Synonyms


Nickel Titanium Tube Chemical Identifiers

Linear Formula


Packaging Specifications

Typical bulk packaging includes palletized plastic 5 gallon/25 kg. pails, fiber and steel drums to 1 ton super sacks in full container (FCL) or truck load (T/L) quantities. Research and sample quantities and hygroscopic, oxidizing or other air sensitive materials may be packaged under argon or vacuum. Shipping documentation includes a Certificate of Analysis and Safety Data Sheet (SDS). Solutions are packaged in polypropylene, plastic or glass jars up to palletized 440 gallon liquid totes, and 36,000 lb. tanker trucks.

Related Elements

See more Nickel products. Nickel (atomic symbol: Ni, atomic number: 28) is a Block D, Group 4, Period 4 element with an atomic weight of 58.6934. Nickel Bohr ModelThe number of electrons in each of nickel's shells is [2, 8, 16, 2] and its electron configuration is [Ar]3d8 4s2. Nickel was first discovered by Alex Constedt in 1751. The nickel atom has a radius of 124 pm and a Van der Waals radius of 184 pm. In its elemental form, nickel has a lustrous metallic silver appearance. Nickel is a hard and ductile transition metal that is considered corrosion-resistant because of its slow rate of oxidation. Elemental NickelIt is one of four elements that are ferromagnetic and is used in the production of various type of magnets for commercial use. Nickel is sometimes found free in nature but is more commonly found in ores. The bulk of mined nickel comes from laterite and magmatic sulfide ores. The name originates from the German word kupfernickel, which means "false copper" from the illusory copper color of the ore.

See more Titanium products. Titanium (atomic symbol: Ti, atomic number: 22) is a Block D, Group 4, Period 4 element with an atomic weight of 47.867. The number of electrons in each of Titanium's shells is [2, 8, 10, 2] and its electron configuration is [Ar] 3d2 4s2. Titanium Bohr ModelThe titanium atom has a radius of 147 pm and a Van der Waals radius of 187 pm. Titanium was discovered by William Gregor in 1791 and first isolated by Jöns Jakob Berzelius in 1825. In its elemental form, titanium has a silvery grey-white metallic appearance. Titanium's properties are chemically and physically similar to zirconium, both of which have the same number of valence electrons and are in the same group in the periodic table. Elemental TitaniumTitanium has five naturally occurring isotopes: 46Ti through 50Ti, with 48Ti being the most abundant (73.8%). Titanium is found in igneous rocks and the sediments derived from them. It is named after the word Titanos, which is Greek for Titans.

Recent Research

Nickel speciation in cocoa infusions using monolithic chromatography - Post-column ID-ICP-MS and Q-TOF-MS., Peeters, Kelly, Zuliani Tea, Žigon Dušan, Milačič Radmila, and Ščančar Janez , Food Chem, 2017 Sep 01, Volume 230, p.327-335, (2017)

Responses of serpentine plants to pine invasion: Vegetation diversity and nickel accumulation in species with contrasting adaptive strategies., Selvi, Federico, Carrari Elisa, Colzi Ilaria, Coppi Andrea, and Gonnelli Cristina , Sci Total Environ, 2017 Oct 01, Volume 595, p.72-80, (2017)

A colorimetric aptasensor for sulfadimethoxine detection based on peroxidase-like activity of graphene/nickel@palladium hybrids., Wang, Aicheng, Zhao Huimin, Chen Xiaochi, Tan Bing, Zhang Yaobin, and Quan Xie , Anal Biochem, 2017 May 15, Volume 525, p.92-99, (2017)

Rapid, sensitive, and reusable detection of glucose by highly monodisperse nickel nanoparticles decorated functionalized multi-walled carbon nanotubes., Başkaya, Gaye, Yıldız Yunus, Savk Aysun, Okyay Tugba Onal, Eriş Sinan, Sert Hakan, and Şen Fatih , Biosens Bioelectron, 2017 May 15, Volume 91, p.728-733, (2017)

Global land-use change hidden behind nickel consumption., Nakajima, Kenichi, Nansai Keisuke, Matsubae Kazuyo, Tomita Makoto, Takayanagi Wataru, and Nagasaka Tetsuya , Sci Total Environ, 2017 May 15, Volume 586, p.730-737, (2017)

Multifold enhanced synergistic removal of nickel and phosphate by a (N,Fe)-dual-functional bio-sorbent: Mechanism and application., Zhang, Yan-Hong, Liu Fu-Qiang, Zhu Chang-Qing, Zhang Xiao-Peng, Wei Meng-Meng, Wang Feng-He, Ling Chen, and Li Ai-Min , J Hazard Mater, 2017 May 05, Volume 329, p.290-298, (2017)

A novel method for remediation of nickel containing wastewater at neutral conditions., Hase, Haruko, Nishiuchi Toru, Sato Tsutomu, Otake Tsubasa, Yaita Tsuyoshi, Kobayashi Tohru, and Yoneda Tetsuro , J Hazard Mater, 2017 May 05, Volume 329, p.49-56, (2017)

Electroless deposition of nickel-boron coatings using low frequency ultrasonic agitation: Effect of ultrasonic frequency on the coatings., Bonin, L, Bains N, Vitry V, and Cobley A J. , Ultrasonics, 2017 May, Volume 77, p.61-68, (2017)

Carbon-Incorporated Nickel-Cobalt Mixed Metal Phosphide Nanoboxes with Enhanced Electrocatalytic Activity for Oxygen Evolution., He, Peilei, Yu Xin-Yao, and Lou Xiong Wen David , Angew Chem Int Ed Engl, 2017 Mar 27, Volume 56, Issue 14, p.3897-3900, (2017)

Electrodeposited-hydroxide surface-covered porous nickel-cobalt alloy electrodes for efficient oxygen evolution reaction., Prataap, R K. Vishnu, and Mohan S , Chem Commun (Camb), 2017 Mar 16, Volume 53, Issue 23, p.3365-3368, (2017)


May 25, 2017
Los Angeles, CA
Each business day American Elements' scientists & engineers post their choice for the most exciting materials science news of the day

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