Rapid removal of chloroform, carbon tetrachloride and trichloroethylene in water by aluminum–iron alloy particles

Abstract Copper Alloy No. 954 is a copper-aluminum-iron alloy characterized by high strength and hardness, good resistance to fatigue and wear, and excellent corrosion resistance. It is suited for service up to 750 F. This datasheet provides information on composition, physical properties, hardness, elasticity, and tensile properties. It also includes information on corrosion resistance as well as casting, heat treating, machining, and joining. Filing Code: Cu-292. Producer or source: Copper alloy foundries.

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AMPCOLOY B-2

Alloy Digest ◽

10.31399/asm.ad.cu0329 ◽

1977 ◽

Vol 26 (3) ◽

Keyword(s):

Corrosion Resistance ◽

Shear Strength ◽

Physical Properties ◽

Tensile Properties ◽

Iron Alloy ◽

Heat Treating ◽

General Purpose ◽

Good Resistance ◽

Aluminum Iron ◽

Copper Aluminum

Abstract AMPCOLOY B-2 is a copper-aluminum-iron alloy for general-purpose uses. It has good machinability, good hot-working characteristics and moderate strength. Its many uses include cams, gears, bushings, bearings, marine equipment and other applications requiring good resistance to corrosion. This datasheet provides information on composition, physical properties, hardness, elasticity, tensile properties, and shear strength as well as fatigue. It also includes information on corrosion resistance as well as casting, forming, heat treating, machining, and joining. Filing Code: Cu-329. Producer or source: Ampco Metal Inc..

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Gyroremanent magnetization in magnetic tape and in iron and iron-alloy particles

IEEE Transactions on Magnetics ◽

10.1109/20.11608 ◽

1988 ◽

Vol 24 (2) ◽

pp. 1805-1807 ◽

Cited By ~ 4

Author(s):

D.K. Potter ◽

A. Stephenson

Keyword(s):

Magnetic Tape ◽

Iron Alloy ◽

Alloy Particles

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An Experimental Study on the Properties of Recycled High-Density Polyethylene

International Polymer Processing ◽

10.1515/ipp-2020-4071 ◽

2021 ◽

Vol 36 (5) ◽

pp. 557-563

Author(s):

A. G. Toroslu

Keyword(s):

Physical Properties ◽

High Density Polyethylene ◽

Iron Alloy ◽

High Density ◽

Magnetic Method ◽

Metallic Materials ◽

Metallic Material ◽

Alloy Particles ◽

Plastic Materials ◽

Mechanical And Physical Properties

Abstract Recycling of plastic materials has become more environmentally important than recycling of other materials. The most important problem during recycling is the presence of oil, dirt, dust and metal particles that are mixed with plastic materials. These mixtures can change their its mechanical and physical properties and it is quite costly to remove them completely. Removing iron alloy particles from plastic is possible by using the magnetic method. However, removing non-metallic materials requires extra processing. In this study, the use of recycled High-Density Polyethylene (rHDPE) without an expensive cleaning processes has been investigated. Different amounts of aluminium oxide (Al2O3) were added to High Density Polyethylene (HDPE) to simulate the effect of non-metallic material involved. The effect of these contamination rates on the mechanical and physical properties of HDPE was examined in detail. For this purpose, recyclable materials were produced by mixing rHDPE with 1%, to 7% Al2O3 . The results show that up to 7% of the mixture has acceptable effects on the properties of HDPE. When the results of the experiments are examined, it is observed that there is a 3.74% change in the elastic modulus of the material. This means, that up to 7% non-metal contaminated rHDPE material can be used without any costly recycling process.

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Performance of Magnetostrictive Transducers Made of Aluminum‐Iron Alloy or Nickel‐Copper Ferrite

The Journal of the Acoustical Society of America ◽

10.1121/1.1905120 ◽

1956 ◽

Vol 28 (4) ◽

pp. 779-779

Author(s):

Yoshimitsu Kikuchi

Keyword(s):

Iron Alloy ◽

Copper Ferrite ◽

Nickel Copper ◽

Aluminum Iron

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Structure and mechanical behavior of ultrafine-grained aluminum-iron alloy stabilized by nanoscaled intermetallic particles

Acta Materialia ◽

10.1016/j.actamat.2019.01.027 ◽

2019 ◽

Vol 167 ◽

pp. 89-102 ◽

Cited By ~ 10

Author(s):

Amandine Duchaussoy ◽

Xavier Sauvage ◽

Kaveh Edalati ◽

Zenji Horita ◽

Gilles Renou ◽

...

Keyword(s):

Mechanical Behavior ◽

Iron Alloy ◽

Intermetallic Particles ◽

Ultrafine Grained ◽

Aluminum Iron

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FeNbVB ALLOY PARTICLES SUSPENDED IN LIQUID GALLIUM: INVESTIGATING THE MAGNETIC PROPERTIES OF THE MR SUSPENSION

International Journal of Modern Physics B ◽

10.1142/s0217979211058444 ◽

2011 ◽

Vol 25 (07) ◽

pp. 947-955 ◽

Cited By ~ 10

Author(s):

GJERGJ DODBIBA ◽

KENJI ONO ◽

HYUN SEO PARK ◽

SEIJI MATSUO ◽

TOYOHISA FUJITA

Keyword(s):

Magnetic Field ◽

Magnetic Properties ◽

Saturation Magnetization ◽

Iron Alloy ◽

Testing Temperature ◽

Liquid Gallium ◽

Temperature Sensitive ◽

Prepared Powder ◽

Alloy Particles ◽

The Magnetic Field

A MR suspension was prepared by dispersing silica-coated iron alloy particles into a liquid gallium. In other words, the iron alloy particles of 30 to 50 nm in diameter were first prepared and then coated with silica. Next, the particles were then suspended in a liquid Ga (assay: 99.9999%). In addition, the magnetic properties of the synthesized particles and suspension under the influence of the magnetic field were investigated. One of the main findings of this study is that the prepared powder showed a temperature sensitive of magnetization within the testing temperature range of 293–353 K. The saturation magnetization of silica-coated FeNbVB particles was about 0.55 T, whereas the saturation magnetization (297 K) of the synthesized MR suspension was 0.019 T.

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16 Percent Aluminum‐Iron Alloy Cold Rolled in the Order‐Disorder Temperature Range

Journal of Applied Physics ◽

10.1063/1.1721631 ◽

1954 ◽

Vol 25 (3) ◽

pp. 307-313 ◽

Cited By ~ 25

Author(s):

Joseph F. Nachman ◽

William J. Buehler

Keyword(s):

Iron Alloy ◽

Temperature Range ◽

Aluminum Iron ◽

Cold Rolled

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