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  • AIME
    Lightweight Aggregate - Present and Future

    By Allen R. Rowen

    One of the greatest deterrents to more widespread use of manufactured lightweight aggregate is the fact that no industry-wide standards for its application exist. It is true that ASTM has specificatio

    Nov 1, 1956

  • SME
    Lightweight Aggregate : A Growing Industry In New England ? Introduction

    By Henry N. McCarl

    The New England States form the most northeastern portion of the continental United States and include Connecticut, Rhode island, Massachusetts, Vermont, New Hampshire, and Maine. These states have an

    Jan 1, 1964

  • SME
    Lightweight Aggregate As A Construction Material

    By Joel D. Hammond

    Lightweight concretes date back to before the Roman Empire. The earlier concretes were made by combining a burnt lime for cementious material with pumice or volcanic rock for aggregate. Although struc

    Jan 1, 1977

  • AIME
    Lightweight Aggregate Industry in Oregon

    By N. S. Wagner

    The production of lightweight aggregates in Oregon is a new industry, and, like all new enterprises, it is suffering from growing pains characterized by numerous, small operations some of which flouri

    Jan 1, 1949

  • AIME
    Lightweight Aggregates

    By T. A. Klinefelter

    Lightweight concrete aggregates are materials weighing less than the usual aggregates of sand, gravel, and crushed rock. Concretes made with sand and gravel or crushed rock weigh 145 to 150 lb per cu

    Jan 1, 1960

  • CIM
    Lightweight Aggregates and Their Use in the Construction Industry

    By LeRoy A. Thorssen

    The use of lightweight aggregate as a constituent of concrete is not a recent development. Pumice was used by the early Romans, in pozzolana cement concretes, in the construction of many of their work

    Jan 1, 1963

  • CIM
    Lightweight Aggregates in British Columbia

    By J. W. McCammon

    CRANGES in construction ideas and the continually rising costs of labour and conventional building materials, particularly since World War II, have prompted widespread investigations into the developm

    Jan 1, 1957

  • AIME
    Lightweight Aggregates In The Southwest

    By Stuart H. Ingram

    DEFINITION THE term lightweight aggregate implies material which may be substituted for the usual rock, sand and gravel commonly used as the major part of concrete, but distinguished by being much

    Jan 1, 1947

  • SME
    Lightweight Cellular Grout Applications in Tunneling

    By D. A. Day, H. L. Marsh, P. J. Stephens, C. A. Wiggins

    Lightweight cellular grout backfill behind pipe-in-tunnel has been gaining increased acceptance in the tunneling industry and has proved to be both practical and economical. Two successfully construct

    Jan 1, 1999

  • SME
    Lightweight Clay Block Using Vermiculite ? 1. Introduction

    By Gilbert C. Robinson

    Manufacturers of brick and tile are showing growing interest in the possibility of manufacture of a clay bonded block. The block would have the shape of concrete block, but would be made without the u

    Jan 1, 1960

  • NIOSH
    Lightweight Hydraulic Roof Support ? Objective

    Develop a 22-ton capacity temporary mine roof support light enough to be easily lifted and transported manually from one place to another. Approach Several potential approaches were investigated i

    Jan 1, 1983

  • TMS
    Lightweight Structural Concrete Incorporating Volcanic Materials for Sustainable Construction

    By Khandaker M. Anwar Hossain

    This paper presents the development of lightweight concrete (LWC) incorporating pumice aggregate and volcanic ash (VA) based ASTM Type I blended cement (PVAC). Fresh and mechanical properties of LWC m

    Jan 1, 2010

  • TMS
    Lighweight Materials for the Automotive: Environmental Impact Analysis of the Use of Composites

    By Karel Van Acker

    The automotive is a sector where energy consumption during the use phase prevails over the production and the end-of-life phase. Therefore, a lot of research and innovations at replacing classical ste

    Jan 1, 2010

  • AIME
    Lignite and North Dakota A Cautious Response to Accelerated Mining Demands

    By John D. Wiebmer

    Lignite Development in North Dakota is a "shotgun wedding" according to former state senator Robert L. Stroup-the unwilling groom (North Dakota) is being led to the altar by the nation's demand f

    Jan 8, 1977

  • SME
    Lignite and Sustainability

    By K. Häge

    "Die Nachhaltigkeit der Braunkohlengewinnung in der öffentlichen Wahrnehmung wird nur weiter erfolgreich kommuniziert werden können, wenn durch konkretes Handeln glaubhaft gezeigt wird, dass die offen

    Jan 1, 2005

  • NIOSH
    Lignite In Greece - Introduction

    By Albert L. Toenges

    EARLY in 1949, the Economic Cooperation Administration requested the Bureau of Mines to assign a coal-mining engineer to study milling conditions in Greek lignite mines; to make recommendations for th

    Jan 1, 1951

  • AIME
    Lignite In The Northwest

    An extended investigation by the chief engineer of the Bureau of Mines shows that North Dakota has immense beds of lignite. War conditions have stimulated the use of North Dakota lignite until it is n

    Jan 8, 1919

  • SME
    Lignite Mining

    By A. S. Kane

    According to the 1966 Bureau of Mines Mineral Year Book only three states reported production of lignite in that year. These state: were North Dakota, Montana, and South Dakota; although it is known t

    Jan 1, 1968

  • SME
    Lignite Open Pit Mining 1985 - Can Dewatering Defeat The Economics? ? Introduction

    By Rudolf Voigt

    Lignite reserves occur all over the world in different climatic regions. This means, that the impact of the hydrologic regime upon mining activities and, vice versa, of the mining activities upon grou

    Jan 1, 1985

  • SME
    Lignite Quality Estimation Using Artificial Neural Networks (ANN) And Adaptive Neuro-Fuzzy Inference Systems (ANFIS).

    By Konstantinos Theodoridis, Michael Galetakis, Olga Kouridou

    Recent advances in Artificial Neural Networks (ANN) and Adaptive Neuro-Fuzzy Inference Systems (ANFIS) have provided a new approach to the estimation of related quality characteristics, such as heatin

    Jan 1, 2002