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  • AIME
    Papers - Production - Domestic - Development and Production in East and East Central Texas for 1940

    By D. C. Williams, D. V. Carter

    Four oil discoveries were made in east and east central Texas during 1940, three of which represented new fields. In the Chapel Hill field, Smith County, oil was found where formerly only gas and dist

    Jan 1, 1941

  • DFI
    Mobilised Shear Strength on the Failure Surface of 2D Belled Anchor Model Piles under Uplift in Cohesionless Soil

    By Tanaya Deb, Sujit Kumar Pal

    "Experimental investigations are carried out on failure pattern around 2D models of belled anchor piles in dry sand bed of density 15.60 kN/m3 under uplift. The models are having thickness ratio (Ts/T

    Jan 1, 2015

  • AIME
    Rock Mechanics - A Comparison of Explosives by Cratering and Other Methods

    By W. I. Duvall, L. D. Sadwin

    Three explosives with different detonation characteristics were tested by studying their cratering ability in a granite-gneiss. The strain wave generating characteristics of these explosives were also

    Jan 1, 1965

  • AIME
    Production - Domestic - Oil and Gas Development in West Virginia during 1942

    By David B. Reger

    Wildcat drilling for new supplies of gas and the expansion of previously discovered oil and gas pools were the principal petroleum activities in West Virginia .during 1942. Much of the new gas explora

    Jan 1, 1943

  • SME
    Annual Review 1987 - Exploration - Introduction

    By E. D. Attanasi, M. W. Bultman

    Most statistical measures of mineral exploration continued downward in 1986. Prospects in 1987, however, appear to have brightened for exploration as the overall economic health of the mineral industr

    Jan 5, 1988

  • AIME
    Production Engineering and Research - An Engineering Study of the Lafitte Oil Field (T. P. 1869, Petr.

    By Harold Vance

    The Lafitte field, the largest oil reserve in South Louisiana, is in Jefferson Parish, some 25 miles due south of the City of New Orleans. The discovery well, The Texas Company's No. I, Louisi

    Jan 1, 1945

  • AIME
    Geology - Belt Series in Lincoln and Southwest Flathead Counties, Montana

    By W. M. Johns

    The geological mapping of Lincoln and Flathead Counties was a five-year project undertaken by the Montana Bureau of Mines and Geology. This paper, written by the Project Geologist of the survey, is pr

    Jan 1, 1962

  • AIME
    Precipitation And Reversion Of Graphite In Low-Carbon Low-Alloy Steel In The Temperature Range 900° To 1300°F.

    By C. O. Tarr, G. V. Smith, R. F. Miller

    METALLURGISTS have long recognized that the Fe3C type of carbide is not a stable phase in steel and that, given sufficient time, it will decompose with formation of graphite, at least at temperatures

    Jan 1, 1944

  • AIME
    Extractive Metallurgy Division - Pilot-Plant Development of a Sulfation Process for Complex Sulfide Ores

    By J. A. Morgan, R. E. Lund, D. E. Warnes

    The design, operation, and performance of an integrated pilot plant for recovering zinc and copper from a complex sulfide ore are described. Metallurqical processing comprised selective sulfate roasti

    Jan 1, 1962

  • AIME
    Technical Notes - Surface Properties of Silicate Minerals

    By R. A. Deju, R. B. Bhappu

    The basic structural unit of all silicate minerals is a tetrahedron with a silicon atom at the center and four oxygen atoms at the corners. The oxygen-silicon distance is about 1.6 & and the oxygen-ox

    Jan 1, 1967

  • AIME
    Institute of Metals Division - The Effect of Prior Strain and Polygonization on the Creep-Rupture Properties of Nickel

    By Nicholas J. Grant, W. Michael Yim

    The creep-rupture properties of nickel, in as-prestrained or prestrain-polygonized condition, were studied at 1300°F and 4000 psi, and also at 700°F and 26,000 psi. An improvement of strength was note

    Jan 1, 1963

  • AIME
    Papers - Metallography - Precipitation and Reversion of Graphite in Low-carbon Low-alloy Steel in the Temperature Range 900°F to 1300°F (Metals Technology, June 1944) (With discussion)

    By G. V. Smith, C. O. Tarr, R. F. Miller

    Metallurgists have long recognized that the Fe3C type of carbide is not a stable phase in steel and that, given sufficient time, it will decompose with formation of graphite, at least at temperatures

    Jan 1, 1944

  • AIME
    Papers - Metallography - Precipitation and Reversion of Graphite in Low-carbon Low-alloy Steel in the Temperature Range 900°F to 1300°F (Metals Technology, June 1944) (With discussion)

    By C. O. Tarr, G. V. Smith, R. F. Miller

    Metallurgists have long recognized that the Fe3C type of carbide is not a stable phase in steel and that, given sufficient time, it will decompose with formation of graphite, at least at temperatures

    Jan 1, 1944

  • AIME
    Logging and Log Interpretation - Some Aspects of Streaming Potential and the Electrochemical SP i...

    By M. R. Tek, K. H. Coats, D. L. Katz

    A large number of boundary value problems encountcred in unsteady-state heat transfer, fluid flow through porous media, neutron diffusion and mass transfer involve the solution of a linear, parabolic

  • AIME
    Bauxite

    By E. C. Harder, E. W. Greig

    Bauxite is known mainly as the ore from which aluminum is smelted but it has large use also in the manufacture of artificial abrasives and in the production of a number of useful chemicals as well as

    Jan 1, 1960

  • CIM
    Increase of Productivity in a Magnesite Flotation Operation by Means of Selective Milling

    By A. P. Yovanovic, P. Bonadia, M. N. Moraes, C. F. Matos

    "The magnesite flotation operation of Magnesita Refractories, in Brumado – Brazil, has four parallel ball mills working in closed circuit with hydrocyclones to grind the ore for the reverse flotation

    Jan 1, 2016

  • AIME
    Technical Papers and Discussions - Copper - Roan Antelope Smelter, Northern Rhodesia (Metals Tech., December 1947, TP 2249)

    By R. J. Stevens

    The Roan Antelope Smelter commenced operations in October, 1931. As originally designed, its equipment consisted of one reverberatory furnace, 120 X 25 ft, two Peirce-Smith converters 12 X 20 ft, and

    Jan 1, 1949

  • AIME
    Secondary Recovery and Pressure Maintenance - Sweep Efficiency by Miscible Displacement in a Five-Spot

    By C. S. Matthews, J. L. Mahaffey, W. M. Rutherford

    This paper gives results of an experimental study of the sweep efficiency of a miscible displacement in a five-spot. The study was carried out in a parallel-plate glass model in which effects of diffu

    Jan 1, 1967

  • AIME
    Opening The Mather Mine

    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 se

    Jan 1, 1945

  • AIME
    Reservoir Engineering - General - Waterflooding a Highly Stratified Reservoir

    By G. E. Warner

    This paper presents a review and analysis of a highly stratified Burbank sand waterflooding project in Osage County, Okla. Permeability values in this reservoir range from less than 0.1 md to nearly 3

    Jan 1, 1969