Bibliografie tematiche / Elevated temperature

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Letteratura scientifica selezionata sul tema "Elevated temperature"

Autore: Grafiati
Pubblicato: 4 giugno 2021
Ultima modifica: 25 luglio 2025

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Articoli di riviste sul tema "Elevated temperature"

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Biju George, Raichel, and Shobha Elizabeth Thomas. "Analytical Study of FRCM under Elevated Temperature." International Journal of Scientific Engineering and Research 4, no. 7 (2016): 31–35. https://doi.org/10.70729/ijser15887.

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Hofmeister, Anne M., and Maik Pertermann. "Thermal diffusivity of clinopyroxenes at elevated temperature." European Journal of Mineralogy 20, no. 4 (2008): 537–49. http://dx.doi.org/10.1127/0935-1221/2008/0020-1814.

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sinha, Dr Deepa A. "Flexural Behavior of TBsFrc subjected to sustained Elevated Temperature." Indian Journal of Applied Research 4, no. 7 (2011): 221–25. http://dx.doi.org/10.15373/2249555x/july2014/68.

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Rajaram, M., S. Kandasamy, A. Ravichandran, and A. Muthadhi. "Effect of Polystyrene Waste on Concrete at Elevated Temperature." Indian Journal Of Science And Technology 15, no. 38 (2022): 1912–22. http://dx.doi.org/10.17485/ijst/v15i38.225.

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Prasad, Jamuna. "Viscosity of N-Dodecane at Elevated Pressure and Temperature." International Journal of Science and Research (IJSR) 11, no. 2 (2022): 167–70. http://dx.doi.org/10.21275/sr22201222336.

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Wheeler, J. M., P. Brodard, and J. Michler. "Elevated temperature,in situindentation with calibrated contact temperatures." Philosophical Magazine 92, no. 25-27 (2012): 3128–41. http://dx.doi.org/10.1080/14786435.2012.674647.

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Prashant, shinkar* Prof. Deepak kakade Dr.A.P.Wadekar. "EFFECT OF ELEVATED TEMPERATURE ON COMPRESSIVE STRENGTH OF FIBER REINFORCED CONCRETE." Global Journal of Engineering Science and Research Management 4, no. 4 (2017): 19–25. https://doi.org/10.5281/zenodo.556386.

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This paper deals with the mechanical properties of concrete with steel fibers subjected to temperatures up to 500°C. Now a day concrete are being used extensively in the construction that might be subjected to elevated temperatures. The behavior of concrete structures at elevated temperatures is of significant importance in predicting the safety of structures in response to certain accidents or particular service conditions. Concrete mixes of M 50 have been designed along with steel fibers from 0.5-4% by weight of cement. Specimens were made and subjected at room temperature, 100, 200,300,400
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Hancox, N. L. "Elevated temperature polymer composites." Materials & Design 12, no. 6 (1991): 317–21. http://dx.doi.org/10.1016/0261-3069(91)90072-c.

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Iwamoto, T., Norio Kawagoishi, Nu Yan, Eiji Kondo, and Kazuhiro Morino. "Fatigue Strength of Maraging Steel at Elevated Temperatures." Key Engineering Materials 385-387 (July 2008): 161–64. http://dx.doi.org/10.4028/www.scientific.net/kem.385-387.161.

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Rotating bending fatigue tests were carried out to investigate the effects of temperature on the fatigue strength and the fracture mechanism of an 18 % Ni maraging steel at room and elevated temperatures of 473K and 673K. Fatigue strength was higher at elevated temperatures than at room temperature, though static strength was decreased by softening at elevated temperature. There was no effect of temperature on crack morphology and fracture mechanism. On the other hand, during fatigue process at elevated temperature, the specimen was age-hardened and the specimen surface was oxide. That is, the
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Le, Quang X., Vinh TN Dao, Jose L. Torero, Cristian Maluk, and Luke Bisby. "Effects of temperature and temperature gradient on concrete performance at elevated temperatures." Advances in Structural Engineering 21, no. 8 (2017): 1223–33. http://dx.doi.org/10.1177/1369433217746347.

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To assure adequate fire performance of concrete structures, appropriate knowledge of and models for performance of concrete at elevated temperatures are crucial yet currently lacking, prompting further research. This article first highlights the limitations of inconsistent thermal boundary conditions in conventional fire testing and of using constitutive models developed based on empirical data obtained through testing concrete under minimised temperature gradients in modelling of concrete structures with significant temperature gradients. On that basis, this article outlines key features of a
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Tesi sul tema "Elevated temperature"

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Cigas, Saulius. "Standaus apkrovimo ciklinių deformavimo parametrų nustatymas korozijai ir karščiui atsparaus plieno suvirintųjų sujungimų medžiagoms." Master's thesis, Lithuanian Academic Libraries Network (LABT), 2005. http://vddb.library.lt/obj/LT-eLABa-0001:E.02~2005~D_20050613_152519-67955.

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Cigas S. Determination of low cycle straining parameters for weld metals of stainless steel: Master thesis of mechanical engineer / research advisor associate professor dr. R. Šniuolis; Šiauliai University, Technological Faculty, Mechanical Engineering Department.–Šiauliai, 2005.-68p. Strain and stress change during the exploitation depend on the type of material (hardening, softening or cyclically stabile), that is chosen for the constructions in low cycle loading. If we know the type of the material, we can determine the possibility of its application in concrete exploitation conditions. Rea
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Karademir, Tanay. "Elevated temperature effects on interface shear behavior." Diss., Georgia Institute of Technology, 2011. http://hdl.handle.net/1853/42764.

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Environmental conditions such as temperature inevitably impact the long term performance, strength and deformation characteristics of most materials in infrastructure applications. The mechanical and durability properties of geosynthetic materials are strongly temperature dependent. The interfaces between geotextiles and geomembranes as well as between granular materials such as sands and geomembranes in landfill applications are subject to temperature changes due to seasonal temperature variations as well as exothermic reactions occurring in the waste body. This can be a critical factor gover
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borgonovo, cecilia. "Aluminum Nano-composites for Elevated Temperature Applications." Digital WPI, 2010. https://digitalcommons.wpi.edu/etd-theses/962.

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"Conventional manufacturing methods are sub-optimal for nano-composites fabrication. Inhomogeneous dispersion of the secondary phase and scalability issues are the main issues. This work focuses on an innovative method where the reinforcement is formed in-situ in the melt. It involves the reaction of the molten aluminum with a nitrogen- bearing gas injected through the melt at around 1273 K. AlN particles are expected to form through this in situ reaction. A model has been developed to predict the amount of reinforced phase. Experiments have been carried out to confirm the feasibility of the p
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Lind, Jonna. "Tribology of polymer composites for elevated temperature applications." Licentiate thesis, Uppsala universitet, Tillämpad materialvetenskap, 2017. http://urn.kb.se/resolve?urn=urn:nbn:se:uu:diva-332985.

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Polymers as construction material are common in the industry. Although more recently the use of polymer composites in more demanding applications has increased, requiring more of them mechanically, tribologically and thermally. To enhance the properties various fillers are used, from common glass fibers to more advanced nanoparticles. For this study three types of base polymers have been studied: poly-amide (PA), poly-phenylene-sulphide (PPS) and poly-ether-ether-ketone (PEEK). They have been filled with glass fibers, carbon fibers, poly-tetra-fluoro-ethylene (PTFE), graphite and thermally con
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Yang, Kwan-Ho. "Development of impact testing procedure at elevated temperature /." Thesis, Connect to this title online; UW restricted, 1988. http://hdl.handle.net/1773/7038.

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Cretegny, Laurent. "Fracture toughness behavior of weldments at elevated temperature." Thesis, Georgia Institute of Technology, 1996. http://hdl.handle.net/1853/19957.

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Przydatek, Jan. "The elevated temperature deformation of aluminium alloy 2650." Thesis, Imperial College London, 1998. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.287577.

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Tsembelis, Kostantinos. "Elevated temperature measurements during a hypervelocity impact process." Thesis, University of Kent, 1998. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.285978.

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Zhu, Cuiru. "Elevated temperature liquid chromatography and peak shape analysis." Thesis, University of York, 2005. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.413172.

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Renshaw, Matthew Peter. "Magnetic resonance studies at elevated temperature and pressure." Thesis, University of Cambridge, 2015. https://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.709303.

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Libri sul tema "Elevated temperature"

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Dahotre, Narendra B., Janet M. Hampikian, and John E. Morral, eds. Elevated Temperature Coatings. John Wiley & Sons, Inc., 2001. http://dx.doi.org/10.1002/9781118787694.

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Orange, Thomas W. Elevated temperature crack propagation. National Aeronautics and Space Administration, 1993.

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Orange, Thomas W. Elevated temperature crack propogation. National Aeronautics and Space Administration, 1993.

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United States. National Aeronautics and Space Administration, ed. Elevated temperature biaxial fatigue. National Aeronautics and Space Administration, 1985.

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1947-, Yau Jen-Fu, and United States. National Aeronautics and Space Administration, eds. Elevated temperature crack growth: Annual report. General Electric, Aircraft Engine Business Group, Advanced Technology Programs Dept., 1985.

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H, Van Stone R., and United States. National Aeronautics and Space Administration., eds. Elevated temperature crack growth: Final report. National Aeronautics and Space Administration, 1992.

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N, Malik S., and United States. National Aeronautics and Space Administration, eds. Elevated temperature crack growth: Annual report. General Electric, Aircraft Engine Business Group, Advanced Technology Programs Dept., 1987.

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Piascik, RS, RP Gangloff, and A. Saxena, eds. Elevated Temperature Effects on Fatigue and Fracture. ASTM International, 1997. http://dx.doi.org/10.1520/stp1297-eb.

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Healy, Joseph Cornelius. Short fatigue crack growth at elevated temperature. Universityof Birmingham, 1989.

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C, Watkins J., Nitzel M. E, and U.S. Nuclear Regulatory Commission. Office of Nuclear Regulatory Research. Division of Engineering Technology., eds. Performance of MOV stem lubricants at elevated temperature. Division of Engineering Technology, Office of Nuclear Regulatory Research, U.S. Nuclear Regulatory Commission, 2001.

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Capitoli di libri sul tema "Elevated temperature"

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Stiger, M. J., R. Handoko, J. L. Beuth, F. S. Pettit, and G. H. Meier. "Accelerated Durability Testing of Coatings for Gas Turbines." In Elevated Temperature Coatings. John Wiley & Sons, Inc., 2013. http://dx.doi.org/10.1002/9781118787694.ch1.

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Wu, Kaisheng, Yunzhi Wang, and John E. Morral. "Predicting Interdiffusion Microstructures using the Phase Field Approach." In Elevated Temperature Coatings. John Wiley & Sons, Inc., 2013. http://dx.doi.org/10.1002/9781118787694.ch10.

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Kim, G. Y., J. D. Meyer, L. M. He, W. Y. Lee, and J. A. Haynes. "Synthesis of Hf-Doped CVD β-NiAl Coating by Continuous Doping Procedure." In Elevated Temperature Coatings. John Wiley & Sons, Inc., 2013. http://dx.doi.org/10.1002/9781118787694.ch11.

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Sohn, Y. H., and M. A. Dayananda. "A New Analysis for the Determination of Ternary Interdiffusion Coefficients for Ni-Cr-Al and Fe-Ni-Al Alloys." In Elevated Temperature Coatings. John Wiley & Sons, Inc., 2013. http://dx.doi.org/10.1002/9781118787694.ch12.

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Ranganathan, Rajesh, Olga Vayena, Teiichi Ando, Charalabos C. Doumanidis, and Craig A. Blue. "In-Situ Processing of Nickel Aluminide Coatings on Steel Substrates." In Elevated Temperature Coatings. John Wiley & Sons, Inc., 2013. http://dx.doi.org/10.1002/9781118787694.ch13.

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Bird, R. Keith, Terryl A. Wallace, and Sankara N. Sankaran. "Development of Protective Coatings for High-Temperature Metallic Materials." In Elevated Temperature Coatings. John Wiley & Sons, Inc., 2013. http://dx.doi.org/10.1002/9781118787694.ch14.

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Fernandes, Stela M. C., and Lalgudi V. Ramanathan. "Rare Earth Oxide Coatings for Life Extension of Chromia Forming Alloys." In Elevated Temperature Coatings. John Wiley & Sons, Inc., 2013. http://dx.doi.org/10.1002/9781118787694.ch15.

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Seal, Sudipta, Leyda A. Bracho, Vimal Desai, and Kirk Scammon. "High Temperature Surface Oxidation Chemistry of IN-738LC." In Elevated Temperature Coatings. John Wiley & Sons, Inc., 2013. http://dx.doi.org/10.1002/9781118787694.ch16.

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Dahotre, Narendra B., and Lalitha R. Katipelli. "Oxidation Kinetics and Morphology of Laser Surface Engineered Hard Coating on Aluminum." In Elevated Temperature Coatings. John Wiley & Sons, Inc., 2013. http://dx.doi.org/10.1002/9781118787694.ch17.

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Sobczak, Natalia, and Rajiv Asthana. "The Influence of Metallic Coatings on the Structure, Wetting, and Mechanical Strength of Ceramic/Metal Interfaces." In Elevated Temperature Coatings. John Wiley & Sons, Inc., 2013. http://dx.doi.org/10.1002/9781118787694.ch18.

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Atti di convegni sul tema "Elevated temperature"

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Bock, Peter P. "Coating Systems for Elevated Temperature Surfaces." In SSPC 2003. SSPC, 2003. https://doi.org/10.5006/s2003-00005.

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Abstract A new generation of high-temperature coatings, and new application procedures are providing reliable and cost-effective corrosion protection for insulated or exposed surfaces operating at elevated temperatures.
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Harper, Mark A., and Larry R. Walker. "Chromium Depletion in High Temperature Alloys During Elevated Temperature Exposure." In CORROSION 2001. NACE International, 2001. https://doi.org/10.5006/c2001-01154.

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Abstract Alloys typically rely on the formation of an external scale for protection against high temperature aggressive environments. Furthermore, metallic components requiring an appreciable service life (e g. thousands of hours) in an oxidizing atmosphere at operating temperatures above approximately 700°C, typically contain sufficient additions of Cr, Al, and/or Si such that a protective Cr2O3, Al2O3, and/or SiO2 scale forms on the component during operation. The vast majority of high temperature alloys are Cr2O3 formers which requires the diffusion of Cr to the alloy/scale interface to sup
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Kuusela, Luukas, Timo Aho, Riina Ulkuniemi, et al. "High-power DBR lasers at elevated operation temperature." In Novel In-Plane Semiconductor Lasers XXIV, edited by Alexey A. Belyanin and Peter M. Smowton. SPIE, 2025. https://doi.org/10.1117/12.3039770.

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Vyas, Palash Pranav, Ali Alahmer, Sergio Bolanos, et al. "Drop Shock Test of PCB at Elevated Temperature." In 2024 23rd IEEE Intersociety Conference on Thermal and Thermomechanical Phenomena in Electronic Systems (ITherm). IEEE, 2024. http://dx.doi.org/10.1109/itherm55375.2024.10708973.

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Jetter, Robert. "A Design Perspective of Elevated Temperature Material Behavior." In AM-EPRI 2007, edited by R. Viswanathan, D. Gandy, and K. Coleman. ASM International, 2007. https://doi.org/10.31399/asm.cp.am-epri-2007p0733.

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Abstract The purpose of this paper is to discuss elevated temperature materials behavior from the perspective of the component designer/stress analyst and the developer of elevated temperature design rules and criteria. Some issues associated with the design and structural integrity evaluation process are discussed including application of criteria supporting elevated temperature design of nuclear components to non-nuclear power and petrochemical components, particularly those subjected to significant cyclic service. The fundamental problem is how to relate specimen data gathered over limited
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Gibson, Grant. "Behavior of Al-Zn-In Anodes at Elevated Temperature." In CORROSION 2010. NACE International, 2010. https://doi.org/10.5006/c2010-10396.

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Abstract There has been little theoretical and experimental data on the behavior of Al-Zn-In anodes in elevated temperature seawater. The majority of the work was aimed at giving the cathodic protection engineer some direction on the performance of anodes in harsh environments without discussion of the theoretical aspects of aluminum activation and failure at elevated temperatures. A discussion of previous research is reviewed with respect to aluminum anode performance in seawater at elevated temperatures. Experiments were conducted on a commercially available aluminum anode at 20, 40, 60, and
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Sun, Yuhua, Tao Hong, and Christoph Bosch. "CO2 Corrosion in Wet Gas Pipelines at Elevated Temperature." In CORROSION 2002. NACE International, 2002. https://doi.org/10.5006/c2002-02281.

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Abstract Wet gas corrosion rates of C1018 steel at the top and bottom of a high pressure 10 cm diameter horizontal pipeline have been measured under annular flow conditions at 0.45 MPa CO2 and 90°C. The corrosive medium consists of de-ionized water and a low viscosity hydrocarbon phase at water cuts of 80%. Superficial gas velocities (Vsg) of 15 and 20 m/s were applied at a superficial liquid velocity (Vsl) of 0.05 m/s for 100 hours. The instantaneous corrosion rates measured by electrical resistance (ER) technique advance in three stages showing an exponential decay corresponding to the iron
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Luettich, Scott M., and Nicholas Yafrate. "Measuring Temperatures in an Elevated Temperature Landfill." In Geo-Chicago 2016. American Society of Civil Engineers, 2016. http://dx.doi.org/10.1061/9780784480144.017.

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Becht, Charles. "Elevated Temperature Shakedown Concepts." In ASME 2009 Pressure Vessels and Piping Conference. ASMEDC, 2009. http://dx.doi.org/10.1115/pvp2009-78067.

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This paper is the first part of a two part paper. It describes concepts of shakedown at elevated temperatures that form the foundation for proposed rules described in the second paper for extension of fatigue design rules in Section VIII, Div 2 slightly into the creep range.
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LINDBERG, LAURA. "Elevated temperature durability of ceramic materials." In 24th Joint Propulsion Conference. American Institute of Aeronautics and Astronautics, 1988. http://dx.doi.org/10.2514/6.1988-3055.

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Rapporti di organizzazioni sul tema "Elevated temperature"

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Cook, R., and J. Gunther. OXIDATION OF BE AT ELEVATED TEMPERATURE. Office of Scientific and Technical Information (OSTI), 2004. http://dx.doi.org/10.2172/15014802.

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Field, B. A., and R. J. Fields. Elevated temperature deformation of structural steel. National Institute of Standards and Technology, 1989. http://dx.doi.org/10.6028/nist.ir.88-3899.

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Grant, P. R., R. S. Gruber, and C. Van Katwijk. Elevated temperature effects on concrete properties. Office of Scientific and Technical Information (OSTI), 1993. http://dx.doi.org/10.2172/10186573.

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Payer. L51904 High Temperature Performance of Existing Pipeline Coatings. Pipeline Research Council International, Inc. (PRCI), 2003. http://dx.doi.org/10.55274/r0011155.

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The objective was to establish the performance of commonly used pipeline-coating materials over the temperature range from 120F to 200F (49C to 93C). The results are useful for the prediction of in-service limitations, integrity and time-to-failure of coatings. Results at higher temperature are directly relevant to pipelines operating at higher temperatures. In addition, elevated temperature has been an accelerating factor used to predict performance at longer times at ambient temperature.
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White, K. W. Process Zone Modeling of Elevated Temperature Structural Ceramics. Defense Technical Information Center, 1997. http://dx.doi.org/10.21236/ada330361.

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Braski, D. N., J. R. Gibson, L. J. Turner, and R. L. Sy. High vacuum chamber for elevated-temperature tensile testing. Office of Scientific and Technical Information (OSTI), 1988. http://dx.doi.org/10.2172/7020133.

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Abeln, S. P., R. Field, and M. C. Mataya. Elevated temperature stress strain behavior of beryllium powder product. Office of Scientific and Technical Information (OSTI), 1995. http://dx.doi.org/10.2172/113965.

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Vogel, Sven C. Elevated and Low Temperature Deformation of Cast Depleted Uranium. Office of Scientific and Technical Information (OSTI), 2015. http://dx.doi.org/10.2172/1170623.

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Schulthess, Jason. Elevated Temperature Tensile Tests on DU–10Mo Rolled Foils. Office of Scientific and Technical Information (OSTI), 2014. http://dx.doi.org/10.2172/1183495.

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Schulthess, Jason. Elevated temperature tensile tests on DU-10Mo rolled foils. Office of Scientific and Technical Information (OSTI), 2018. http://dx.doi.org/10.2172/1466662.

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