Effect of temperature onUse as a topical subdivision under individual animals and groups of animals, individual materials and types of materials, and individual plants and groups of plants. See also what's at your library, or elsewhere.
Narrower terms:Used for:- Effect of water temperature on
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Filed under: Actuators -- Effect of temperature on Study of a liquid metal NaK-77 for application in flight control systems. Volume I (Wright-Patterson Air Force Base, Ohio : Flight Control Laboratory, Aeronautical Systems Division, Air Force Systems Command, United States Air Force, 1963., 1963), by R. C. Kumpitsch, P. J. Kroon, J. R. Granan, General Electric Company. Light Military Electronics Department, and United States. Air Force. Systems Command. Aeronautical Systems Division (page images at HathiTrust) Study of a liquid metal NaK-77 for application in flight control systems. Volume III, Investigation of system applications and components (Wright-Patterson Air Force Base, Ohio : Air Force Flight Dynamics Laboratory, Research and Technology Division, Air Force Systems Command, United States Air Force, 1964., 1964), by R. C. Kumpitsch, P. J. Kroon, J. R. Granan, General Electric Company. Light Military Electronics Department, Air Force Flight Dynamics Laboratory (U.S.), and United States. Air Force. Systems Command. Research and Technology Division (page images at HathiTrust)
Filed under: Airframes -- Effect of temperature on Summary of a study of temperatures attained in a dummy aircraft wing during the summer at Madison, Wisconsin (U.S. Dept. of Agriculture, Forest Service, Forest Products Laboratory, 1943), by F. L. Browne, University of Wisconsin, and Forest Products Laboratory (U.S.) (page images at HathiTrust) A study of temperatures attained in a dummy aircraft wing during the summer at Madison, Wisconsin (U.S. Dept. of Agriculture, Forest Service, Forest Products Laboratory, 1943), by F. L. Browne, University of Wisconsin, and Forest Products Laboratory (U.S.) (page images at HathiTrust)
Filed under: Alloys -- Effect of temperature on Thorium-titanium alloy system (U.S. Atomic Energy Commission. Technical Information Service, 1953), by H. A. Wilhelm, Harry E. Lunt, O. Norman Carlson, Iowa State College, Ames Laboratory, and U.S. Atomic Energy Commission (page images at HathiTrust) Crater characteristics of 11 metal alloys under hyper-velocity impact including effects of projectile density and target temperature (National Aeronautics and Space Administration ;, 1969), by Nestor Clough, A. R. McMillan, Seymour Lieblein, United States National Aeronautics and Space Administration, and Lewis Research Center (page images at HathiTrust) Preliminary investigation of the compressive strength and creep lifetime of 2024-T3 (formerly 24S-T3) aluminum-alloy plates at elevated temperatures (National Advisory Committee for Aeronautics, 1955), by Eldon E. Mathauser, William D. Deveikis, Langley Aeronautical Laboratory, United States. National Adviosry Committee for Aeronautics, and United States National Advisory Committee for Aeronautics (page images at HathiTrust) Tensile properties of some sheet materials under rapid-heating conditions (National Advisory Committee for Aeronautics, 1955), by George J. Heimerl, John E. Inge, Langley Aeronautical Laboratory, United States. National Adviosry Committee for Aeronautics, and United States National Advisory Committee for Aeronautics (page images at HathiTrust) Studies of solid state reactions in high temperature alloy systems : first quarterly report for subcontract CAAT-17 nickel base alloy studies (General Electric, Aircraft Nuclear Propulsion Dept., Atomic Products Division, 1959), by J. F. Radavich and General Electric Company. Aircraft Nuclear Propulsion Department. Atomic Products Division (page images at HathiTrust) Corrosion studies of ternary zirconium alloys in high-temperature water and steam (Argonne National Laboratory, Metallurgy Division, 1961), by R. D. Misch, C. Van Drunen, and Argonne National Laboratory (page images at HathiTrust) Examination of EBWR Core-1A fuel (Argonne, Ill. : Argonne National Laboratory, 1966., 1966), by R. Carlander, U.S. Atomic Energy Commission, and Argonne National Laboratory (page images at HathiTrust) On stress interaction in fatigue and cumulative damage rule : part II. 7075 aluminum alloy (Wright Patterson Air Force Base, Ohio : Wright Air Development Center, Air Research and Development Command, United States Air Force, 1960., 1956), by Alfred M. Freudenthal, Robert A. Heller, United States. Air Force. Air Research and Development Command, and Wright Air Development Center (page images at HathiTrust) Determination of the effects of elevated temperature materials properties of several high temperature alloys (Wright-Patterson Air Force Base, Ohio : Directorate of Materials and Processes, Aeronautical Systems Division. Air Force Systems Command, United States. Air Force, 1962., 1962), by M. M. Lemcoe, Alex. Jr Trevino, United States. Air Force. Systems Command. Aeronautical Systems Division. Directorate of Materials and Processes, United States. Air Force. Systems Command. Aeronautical Systems Division, and Southwest Research Institute (page images at HathiTrust)
Filed under: Aluminum-zinc alloys -- Effect of temperature on
Filed under: Ammonia -- Effect of temperature on
Filed under: Anhydrite -- Effect of temperature on
Filed under: Apples -- Effect of temperature on
Filed under: Aquatic plants -- Effect of temperature on
Filed under: Atlantic salmon -- Effect of temperature on
Filed under: Bacteria -- Effect of temperature on
Filed under: Barley -- Effect of temperature on
Filed under: Bearings (Machinery) -- Effect of temperature on
Filed under: Blood flow -- Effect of temperature on Cutaneous blood flows in calf, forearm, cheek and ear during changing ambient temperature (Wright-Patterson Air Force Base, Ohio, Biomedical Laboratory, Aerospace Medical Laboratory, Wright Air Development Division, Air Research and Development Command, United States Air Force, 1961., 1961), by Leo C. Senay, Alrick Brynhjolf Hertzman, Margaret L. Christensen, United States. Air Force. Air Research and Development Command, Wright Air Development Division, and United States. Wright Air Development Division (page images at HathiTrust) Finger and forearm cutaneous blood flows during changing ambient temperature (Wright-Patterson Air Force Base, Ohio : Wright Air Development Division, Air Research and Development Command, United States Air Force, 1960., 1960), by Leo C. Senay, Alrick B. Hertzman, Margaret L. Christensen, Aerospace Medical Laboratory, United States. Wright Air Development Division, United States. Air Force. Air Research and Development Command, and St. Louis University. School of Medicine (page images at HathiTrust)
Filed under: Brook trout -- Effect of temperature on
Filed under: Brown trout -- Effect of temperature on
Filed under: Building materials -- Effect of temperature on Mastic construction adhesives in fire exposure (U.S. Dept. of Agriculture, Forest Service, Forest Products Laboratory, 1973), by Bryan H. River (page images at HathiTrust) Cold weather construction materials : part 1, regulated-set cement for cold weather concreting (U.S. Dept. of Defense, Dept. of the Army, Army Cold Regions Research and Engineering Laboratory, 1975), by Billy J. Houston, G. C. Hoff, and Cold Regions Research and Engineering Laboratory (U.S.) (page images at HathiTrust)
Filed under: Cardiac output -- Effect of temperature on Impedance measurements of cardiac output during moderate heat exposure (Wright-Patterson Air Force Base, Ohio : Aerospace Medical Research Laboratories, Aerospace Medical Division, Air Force Systems Command, United States Air Force, 1966., 1966), by Bernell Coleman, Franz Flath, Louis S. D'Agrosa, Alrick Brynhjolf Hertzman, Aerospace Medical Research Laboratories (U.S.), and St. Louis University. School of Medicine (page images at HathiTrust)
Filed under: Cement -- Effect of temperature on Effect of frost on the strength of cement mortar (1900), by Howard Vanreed Maury (page images at HathiTrust; US access only) Effect of heat on the strength of cement mortar (1911), by Herbert Clinton Beck (page images at HathiTrust; US access only) Cold weather construction materials : Part 2 : Regulated-set cement for cold weather concreting ; field validation of laboratory tests (The Station ;, 1981), by Billy J. Houston, G. C. Hoff, Structures Laboratory (U.S.), Cold Regions Research and Engineering Laboratory (U.S.), and United States. Army. Office of the Chief of Engineers (page images at HathiTrust) Thermal stability of certain hydrated phases in systems made using Portland cement (U.S. Army Engineer Waterways Experiment Station ;, 1985), by Alan D. Buck, Toy S. Poole, J. P. Burkes, United States. Dept. of Energy, and U.S. Army Engineer Waterways Experiment Station (page images at HathiTrust) Cold weather construction materials : part 1, regulated-set cement for cold weather concreting (U.S. Dept. of Defense, Dept. of the Army, Army Cold Regions Research and Engineering Laboratory, 1975), by Billy J. Houston, G. C. Hoff, and Cold Regions Research and Engineering Laboratory (U.S.) (page images at HathiTrust) Preliminary report on relation between strength of Portland cement mortar and its temperature at time of test (University of Texas, 1928), by George Ashworth Parkinson, J. E. Hoff, and Stanley Phister Finch (page images at HathiTrust; US access only)
Filed under: Cesium compounds -- Effect of temperature on
Filed under: Chemical kinetics -- Effect of temperature on
Filed under: Chromium-molybdenum steel -- Effect of temperature on
Filed under: Clay -- Effect of temperature on
Filed under: Composite materials -- Effect of temperature on Thermal stresses induced in a composite model bridge structure : prepared for Missouri State Highway Dept. (Civil Engineering Dept., University of Missouri-Rolla, 1977), by Jack H Emanuel, David John Wisch, United States Federal Highway Administration, University of Missouri--Rolla. Civil Engineering Dept, and Missouri. State Highway Dept (page images at HathiTrust; US access only) Buckling of composites under hot and wet environment (Wright-Patterson Air Force Base, Ohio : Flight Dynamics Laboratory, Air Force Wright Aeronautical Laboratories, Air Force Systems Command, United States Air Force, 1984., 1984), by V. Sarma Avva, L. Sharpe, D. Yogi Goswami, Air Force Wright Aeronautical Laboratories, Air Force Flight Dynamics Laboratory (U.S.), and North Carolina Agricultural and Technical State University (page images at HathiTrust)
Filed under: Concrete -- Effect of temperature on Effects of temperature on properties of concrete (Department of Architectural Science, University of Sydney, 1972), by P. M. Desai and University of Sydney. Department of Architectural Science (page images at HathiTrust) Antifreeze admixtures for concrete (Cold Regions Research and Engineering Laboratory, 1997), by C. J. Korhonen, Cold Regions Research and Engineering Laboratory (U.S.), and United States Army Corps of Engineers (page images at HathiTrust) Experiments on concrete for furnace lining (1907), by Albert Alexander Van Petten (page images at HathiTrust; US access only) Influence of temperature upon the strength of concrete (1914), by J. Albert Anderson and Walter John Bublitz (page images at HathiTrust; US access only) Temperature variations in concrete (1906), by Daniel Harmon Brush (page images at HathiTrust; US access only) The relation of thermal expansion of aggregates to the durability of concrete. (Waterways Experiment Station, 1950), by Waterways Experiment Station (U.S.) (page images at HathiTrust) Effect of temperature on air-entraining admixture demand of concrete with and without pozzolans (Waterways Experiment Station, 1968), by W. O. Tynes (page images at HathiTrust) Tests of holding strength of form anchors embedded in concrete placed and cast at reduced temperatures. (Waterways Experiment Station, 1958), by Waterways Experiment Station (U.S.) (page images at HathiTrust) Investigation of refrigerated slurry. (Waterways Experiment Station, 1962), by Waterways Experiment Station (U.S.) (page images at HathiTrust) Correlation between tensile and compressive strengths for lean mass concrete (Waterways Experiment Station, 1974), by W. O. Tynes (page images at HathiTrust) The effect of temperature on the creep of concrete : a literature review (Waterways Experiment Station, 1970), by H. G. Geymayer, Waterways Experiment Station (U.S.), and United States Army Corps of Engineers (page images at HathiTrust) Antifreeze admixtures for cold regions concreting : a literature review (United States Government Printing Office, 1990), by C. J. Korhonen, Cold Regions Research and Engineering Laboratory (U.S.), and United States Army Corps of Engineers (page images at HathiTrust)
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