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  • AIME
    The Production Control Problem

    FOLLOWING the presentation of the papers by Messrs. Mahan and Butler, the discussion printed below ensued. A. C. LANE* With particular reference to the New England con-sumer, I entirely agree with M

    Jan 4, 1928

  • CIM
    The Production of Castings in Permanent Molds

    By G. M. Carr-Harris

    "THE SUBJECT of permanent molding has received a great deal of attention in the technical press as illustrated by the many excellent articles in the bibliography which follows. In general, this covers

    Jan 1, 1960

  • AIME
    The Production Of Copper And Copper Alloy Tubes

    By H. Y. Bassett

    THIS paper attempts to show the various major operations used in nonferrous tube mills and does not necessarily represent the current practices at the two plants of the Wolverine Tube Div., of Calumet

    Jan 1, 1951

  • CIM
    The Production of Elemental Sulphur from Jumping Pound Natural Gas

    By L. T. Munn

    "IT IS NOT necessary here to dwell on the fact that sulphur is currently in short supply. It may be well, however, to •point out that this •storage is not merely a temporary condition, but that, judgi

    Jan 1, 1952

  • CIM
    The Production of Expanded Shale Aggregates

    By B. A. Monkman

    "IntroductionONE OF :THE most effective methods by which the construction industry is combatting mounting building costs is by making increased use of lightweight materials, thus reducing the dead loa

    Jan 1, 1955

  • AUSIMM
    The production of green steel using Hismelt

    By N J. Goodman

    The HIsmelt technology was developed and proven in Western Australia (WA) after more than 30 years and several billion dollars of research and development. The HIsmelt technology was transferred to Ch

    Nov 8, 2021

  • CIM
    The Production of High-Purity Niobium Oxide from Pyrochlore-Perovskite Concentrate

    By F J. Kelly

    A chemical process, based on laboratory investigations, is proposed for the production of high-purity niobium oxide from a pyrochlore-perovsk1te flotation concentrate produced from ore obtained at the

    Jan 1, 1965

  • CIM
    The Production of High-Purity Tellurium

    By P. H. Jennings

    Commercial tellurium commonly contains heavy basemetal impurities such as lead, copper, iron, etc., as well as selenium and oxygen. The base metals may be removed by vacuum distillation or by zone mel

    Feb 1, 1966

  • CIM
    The Production of High-Purity Tellurium (964f8e8f-af45-47ca-b189-05e96895f095)

    By P. H. Jennings, J. C. T. Farge

    Commercial tellurium commonly contains heavy base-metal impurities such as lead, copper, iron, etc., as well as selenium and oxygen. The base metals may be removed by vacuum distillation or by zone me

    Jan 1, 1966

  • SAIMM
    The production of high-strength Iow-alloy steels in the hot-rolled condition

    By E. H. van Niekerk

    The production of high-strength Iow-alloy (HSLA) steels containing either niobium or vanadium as the principal micro-alloying element is discussed, including recent developments in steelmaking practic

    Jan 1, 1984

  • CIM
    The Production of Liquid Fuels from Coal

    By Robert H. Clark

    Introduction During the last twenty years, science and industry have been strenuously endeavouring to discover new sources and new kinds of liquid fuels and to work out suitable chemical methods fo

    Jan 1, 1928

  • AIME
    The Production Of Metallic Single Crystals

    By J. A. M. van Liempt

    SINCE the discovery of von Laue, that a crystal forms a natural grating for X-rays, our knowledge of the structure of solids has gone forward with rapid strides. This progress is not only of purely sc

    Jan 1, 1928

  • AIME
    The Production of Metallic Single Crystals (dfdd349a-d87d-4b84-aaf8-a12a9e77adbc)

    By J. A. M. van Liempt

    SINCE the discovery, of von Laue, that a crystal forms a natural grating for X-rays, our knowledge of the structure of solids has gone forward with rapid strides. This progress is not only of purely s

    Jan 1, 1927

  • AIME
    The Production of Mine Timbers

    "The mines of Butte, in addition to the square timber used, consume each year large quantities of round timber, which are called stulls. The Stull business is an important industry, as will be seen fr

    Jan 1, 1913

  • CIM
    The Production of Molybdenite and Bismuth at La Corne, Quebec

    By F. K. McKean

    Introduction The present paper may be considered as a sequel to a paper, A Process for Cleaning Molybdenite .Concentrate, which was presented by the author at the annual meeting of the Institute la

    Jan 1, 1947

  • TMS
    The Production of Nickel Carbonate Spheroids from Dilute Solutions in a Pellet Reactor

    By G. Van Weert

    The pellet reactor was developed approximately 20 years ago in the Netherlands for softening drinking water. Since then, some 35 plants have been built, ranging in capacity up to 8500 m3/h. Applicatio

    Jan 1, 1993

  • TMS
    The Production of Nickel: Extractive Metallurgy -Past, Present and Future

    By C. S. Simons

    This paper presents a review of the extractive processes used in the production of nickel, with emphasis on developments since the beginning of the Second World War. Attention is given to the factors,

    Jan 1, 1988

  • SME
    The Production Of Pellets At CVRD Brazil

    By Roberto Pimentel de Souza

    CURD started producing pellets in 1969, with one two-million ton straight grate plant. In the beginning of April '73, the second unit came on stream with an additional capacity of 3 million TPY

    Jan 1, 1978

  • CIM
    The Production of Pyrochlore concentrates at St Lawrence Columbium and Metals Corp.

    By C Carbonneau

    In order to successfully produce columbium pyrochlore concentrates, St. Lawrence Columbium and Metals Corporation had to face two principal problems met in several new operations but possibly made mor

    Jan 1, 1965

  • CIM
    The Production of Reactive Metals

    By L. M. Pidgeon

    "Part I. - PrinciplesIntroductionIf the oxides of the metals are listed in decreasing order of the magnitude of their heats of formation, the list appearing in Table 1 will be formed. It will be appar

    Jan 1, 1950