Search Documents
Search Again
Search Again
Refine Search
Refine Search
- Relevance
- Most Recent
- Alphabetically
Sort by
- Relevance
- Most Recent
- Alphabetically
-
Miscellaneous Metals and Alloys - Hydrogen Content of Electrolytic Manganese and Its Removal (Metals Technology, June 1945)By E. V. Potter, E. T. Hayes, H. C. Lukens
Large volumes of hydrogen are liberated at the cathode during electrolytic precipitation of manganese. Most of the gas escapes from the electrolyte, but a considerable amount may be entrapped in the m
Jan 1, 1945
-
Miscellaneous Metals and Alloys - Oxide Films Formed on Metals and Binary Alloys. An Electron Diffraction Study (Metals Tech., Dec. 1948, TP 2483)By J. W. Hickman
Most of the electron diffraction studies of oxide films which form on metals and alloys have been carried out by oxidizing the specimens in an auxiliary furnace, cooling down to room temperature and t
Jan 1, 1949
-
Miscellaneous Metals and Alloys - Platinum-tungsten Alloys (Metals Tech., Aug. 1948, TP 2420)By R. I. Jaffee, H. P. Nielsen
In recent years much attention has been given to high melting alloy systems. It has been of interest in this respect to investigate the alloys of platinum and tungsten, which were known from the liter
Jan 1, 1949
-
Miscellaneous Metals and Alloys - Substitute Solders of the 15-85 Tin-lead Type (Metals Technology, Oct. 1944) (With discussion)By J. O. Mack, J. B. Russell
In recent years, solders containing 20 per cent tin with no bismuth or cadmium have been developed by a few companies, and personnel have been properly instructed in their use. In addition, since the
Jan 1, 1945
-
Miscellaneous Metals and Alloys - The Cobalt-chromium Binary System (Metals Tech., June 1948, TP 2393)By G. K. Manning, A. R. Elsea, A. B. Westerman
A considerable number of high-tem-perature alloys, that is, alloys which have load-carrying ability at elevated temperatures, have been developed on an empirical basis. In order to determine why these
Jan 1, 1949
-
Miscellaneous Metals and Alloys - The Constitution of the Gold-germanium System (Metals Technology, June 1945)By Robert I. Jaffee, Bruce W. Gonser, Eugene M. Smith
There has been little investigation of the gold-germanium binary alloys. Haughtonl does not mention any work on the system. In a review article commemorating the fiftieth anniversary of the discovery
Jan 1, 1945
-
Miscellaneous Metals and Alloys - The Hardness of Silver-antimony Solid Solutions (Metals Technology, Oct. 1944)By J. H. Frye, R. M. Treco
One of the chief hindrances to an understanding of the hardness of solid solutions is the sparsity of suitable hardness data. There is great need of a large body of hardness data obtained from many di
Jan 1, 1945
-
Miscellaneous Metals and Alloys - The Low Temperature Properties of Tin and Tin-lead Alloys (Metals Tech., Sept. 1948, TP 2442)By H. S. Kalish, F. J. Dunkerley
Introduction and Previous Work THE determination of the low temperature tensile properties of tin and tin-lead alloys was initiated as part of an extensive research program on the phasial equilibri
Jan 1, 1949
-
Miscellaneous Metals and Alloys - Thermal and Electrical Properties of Ductile Titanium (Metals Tech., Sept. 1948, TP 2466)By W. C. Ellis, E. S. Greiner
Metallic titanium has been prepared in small quantities since the beginning of the century. Hunter1 reported in 1910 that he obtained a malleable product of 99.9 pct purity by the reduction of the tet
Jan 1, 1949
-
Miscellaneous Physical SeparationsBy G. Swartz, R. J. Brison, R. A. Wyman, J. P. Vandenhoeck, S. E. Khalafalla
Magnetic fluids are commonly composed of ultrafine submicron particles of magnetite (Fe3O4) dispersed in either a kerosene or a water carrier medium with oleic acid as a protective colloid. The unique
Jan 1, 1985
-
Miscellaneous ProcessesBy David R. Mitchell, R. B. Hewes
MANY processes for cleaning coal that are in use depend primarily on physical properties of coal and refuse other than specific gravity and surface conditions relating to froth flotation. These proper
Jan 1, 1943
-
Miscellaneous Processes (14e6f9cf-3934-4e5f-99e8-a3bd3ba1979f)By David R. Mitchell, R. B. Hewes
MANY processes for cleaning coal that are in use depend primarily on physical properties of coal and refuse other than specific gravity and surface conditions relating to froth flotation. These proper
Jan 1, 1950
-
Miscellaneous Processes (1f0a97e6-b4b6-49fb-bef1-c1d3e2321716)By David R. Mitchell, R. B. Hewes
MANY processes for cleaning coal that are in use depend primarily on physical properties of coal and refuse other than specific gravity and surface conditions relating to froth flotation. These proper
Jan 1, 1943
-
Miscellaneous Underground Methods - Cut-and-fill Mining Methods at Falconbridge Nickel Mines, LimitedBy John Metz, D. E. Macdonell
The Falconbridge ore body, on the southeastern periphery of the Sudbury Basin, is definitely associated with a strong shear zone along the norite greenstone contact, in contrast to the "offset" ore bo
Jan 1, 1946
-
Miscellaneous Underground Methods - Cut-and-fill Mining Methods:The cut-and-fill mining methods in use in the mines of The International Nickel Company of Canada Limited, at Falconbridge Nickel Mines Limited, in the Sudbury District, and at McIntyre Por
Jan 1, 1946
-
Miscellaneous Underground Methods - Cut-and-fill Stoping at International Nickel Company MinesBy A. F. Brock
The cut-and-fill mining methods in use in the mines of The International Nickel Company of Canada Limited, at Falconbridge Nickel Mines Limited, in the Sudbury District, and at McIntyre Por
Jan 1, 1946
-
Miscellaneous Underground Methods - Cut-and-fill Stoping at the McIntyre Porcupine Mines, Limited. By S. A. WookeyBy S. A. Wookey
More than 90 per cent of the ore produced by stoping at McIntyre is mined by horizontal cut-and-fill methods. The remainder is mined by square set and fill. In the stopes on the upper levels, mill
Jan 1, 1946
-
Miscellaneous Underground Methods - Draining and Mining a Wet Mine (T. P. 1834, Mining Tech., July 1934)By R. C. Mahon
The Homer iron-ore mine is at Iron River, Mich. Because it covers a large area, 400 acres, and because there was a considerable depth of water in the glacial drift above most of the ore bodies, this m
Jan 1, 1946
-
Miscellaneous Underground Methods - Mining a Deep Limestone Deposit in Ohio (T. P. 1622, MiningBy George A. Morrison
The Columbia Chemical Division of the Pittsburgh Plate Glass Co. is at Bar-berton, Ohio, 35 miles south of Cleveland. For many years large tonnages of limestone have been brought to the Barberton p
Jan 1, 1946
-
Miscellaneous Underground Methods - Opening the Mather Mine (T.P. 1781, Mining Tech., Jan. 1945)By C. W. Allen, L. C. Moore
The Mather mine, of the Negaunee Mine Co., is within the limits of the City of Ishpeming. on the Marquette iron range in Michigan's Upper Peninsula. It is named for William G. Mather, who has ser
Jan 1, 1946