• Title/Summary/Keyword: mechanical properties at high temperature

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High Temperature Wear Behavior of Inconel 690 Steam Generator tube (인코벨 690 증기발생기 세관의 고온 마모 거동)

  • 홍진기;김인섭;김형남;장기상
    • Proceedings of the Korean Society of Tribologists and Lubrication Engineers Conference
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    • 2001.11a
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    • pp.59-62
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    • 2001
  • Flow induced vibration in steam generators has caused dynamic interactions between tubes and contacting materials resulting in fretting wear . Series of experiments have been performed to examine the wear properties of Inconel 690 steam generator tubes in various environmental conditions. For the present study, the test rig was designed to examine the fretting wear and rolling wear properties in high temperature(room temperature - 290。C) water. The test was performed at constant applied load and sliding distance to investigate the effect of test temperature on wear properties of the steam generator tube materials. To investigate the wear mechanism of material, the worn was observed using scanning electron microscopy. The weight loss increase at higher test temperature was caused by the decrease of water viscosity and the mechanical property change of tube material. The mechanical property changes of steam generator tube material, such as decrease of hardness or yield stress in the high temperature tests. From the SEM observation of worn surfaces, the severe wear scars were observed in specimens tested at the higher temperature.

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Evaluation Study on the Mechanical and Thermal Properties of High Strength Structural Steel at High Temperature (고강도 구조용 강재의 고온물성 평가연구)

  • Kwon, In-Kyu
    • Fire Science and Engineering
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    • v.27 no.3
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    • pp.72-79
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    • 2013
  • Recently, building constructions have been developed toward high-rise, long span, and multi-complexed using the high strength materials, optimized section. But the structural behavior of steel structural members built with a high strength steel at fire condition is not clarified because of lacking of information of related references such as mechanical and thermal properties at high temperature situation. In this paper, to evaluate the structural stability of member or frame of steel framed building at fire situation through the engineering method, the mechanical and thermal experimental coupon tests have conducted at various high temperatures and the comparison to those of ordinary strength steels were done.

Effect of Annealing Conditions on Microstructures and Mechanical Properties of a 5083 Al Alloy deformed at Cryogenic Temperature (어닐링 조건이 극저온 압연 5083 Al Alloy의 미세조직 및 기계적성질에 미치는 영향)

  • 이영범;남원종
    • Transactions of Materials Processing
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    • v.13 no.5
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    • pp.449-454
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    • 2004
  • The annealing behavior of a 5083 Al alloy deformed at cryogenic temperature was investigated, focusing on the evolution of microstructures and mechanical properties. Especially, the effects of annealing temperature, $150~300^{\circ}C$, and time, 3∼60min., on microstructures and mechanical properties of the sheets received 85% reduction at cryogenic temperature were investigated. The optimization of the annealing conditions resulted in a mixture of equiaxed grains and elongated subgrains, exhibiting a good combination of uniform elongation and high strength.

Geomechanical study of well stability in high-pressure, high-temperature conditions

  • Moradi, Seyyed Shahab Tabatabaee;Nikolaev, Nikolay I.;Chudinova, Inna V.;Martel, Aleksander S.
    • Geomechanics and Engineering
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    • v.16 no.3
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    • pp.331-339
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    • 2018
  • Worldwide growth in hydrocarbon and energy demand is driving the oil and gas companies to drill more wells in complex situations such as areas with high-pressure, high-temperature conditions. As a result, in recent years the number of wells in these conditions have been increased significantly. Wellbore instability is one of the main issues during the drilling operation especially for directional and horizontal wells. Many researchers have studied the wellbore stability in complex situations and developed mathematical models to mitigate the instability problems before drilling operation. In this work, a fully coupled thermoporoelastic model is developed to study the well stability in high-pressure, high-temperature conditions. The results show that the performance of the model is highly dependent on the truly evaluated rock mechanical properties. It is noted that the rock mechanical properties should be evaluated at elevated pressures and temperatures. However, in many works, this is skipped and the mechanical properties, which are evaluated at room conditions, are entered into the model. Therefore, an accurate stability analysis of high-pressure, high-temperature wells is achieved by measuring the rock mechanical properties at elevated pressures and temperatures, as the difference between the model outputs is significant.

Evaluation on Creep properties of Reduced Activation Ferritic Steel(RAFs) for Nuclear Fusion Reactor (핵융합로용 저방사화 철강재료(RAFs)의 크리프 특성평가)

  • Kong, Yu-Sik;Yoon, Han-Ki;Kim, Dong-Hyen;Park, Yi-Hyen;Nahm, Seung-Hoon
    • Proceedings of the Korea Committee for Ocean Resources and Engineering Conference
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    • 2003.10a
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    • pp.146-151
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    • 2003
  • Reduced Activation Ferritic/Martenstic (RAFs) are leading candidates for structural materials of D-T fusion reactor. One of The RAFs, JLF-1 (9Cr-2W-V, Ta) has been developed and proved to have good resistance against high-fluency neutrino irradiation and good phase stability. Recently, in order to clarify the strengthening mechanical at high temperature, a new scheme to improve high temperature mechanical properties is desired. Therefore, the creep properties and creep life prediction by Larson-Miller Parameter method for JLF-1 to be used for fusion reactor materials or other high temperature components were presented at the elevated temperatures of $500^{\circ}C$, $550^{\circ}C$, $600^{\circ}C$, $650^{\circ}C$ and $704^{\circ}C$. It was confirmed experimentally and quantitatively that a creep life predictive e벼ation at such various high temperatures was well derived by LMP.

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Mechanical Properties Evaluation of Gas Tungsten Arc Welding for INCONEL 718 alloy apply to Cryogenic Condition (극저온 환경에 적용되는 INCONEL 718합금의 Gas Tungsten Arc Welding 기계적 특성 평가)

  • Kim, Ki-Hong;Moon, In-Sang;Moon, Il-Yoon;Rhee, Byung-Ho
    • Korean Journal of Materials Research
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    • v.19 no.12
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    • pp.692-698
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    • 2009
  • Inconel 718 alloy has excellent mechanical properties at room temperature, high temperature and cryogenic conditions. UTS of base metal is about 900MPa at room temperature; this is increased up to 1300MPa after heat treatment & aging-hardening. Mechanical properties of Inconel 718 Alloy were similar to those shown in the the results for tensile test; mechanical properties of Inconel 718 alloy's GTAW were similar to those of base metal's properties at room temperature. Mechanical properties at cryogenic conditions were better than those at room temperature. Heat-treated Inconel 718, non- filler metal GTAW on Inconel 718 and GTAW used filler metal on Inconel 718's UTS was 1400MPa at cryogenic condition. As a result, the excellent mechanical properties of Inconel 718 alloy under cryogenic conditions was proved through tensile tests under cryogenic conditions. In addition, weldability of Inconel 718 alloy under cryogenic conditions was superior to that of its base-metal. In this case, UTS of hybrid joint (IS-G) at -100$^{\circ}C$ was 900MPa. Consequently, UTS of Inconel 718 alloy is estimated to increase from -100$^{\circ}C$ to a specific temperature below -100$^{\circ}C$. Therefore, Inconel 718 alloy is considered a pertinent material for the production of Lox Pipe under cryogenic conditions.

The Effect of High Temperature on the Mechanical Properties of High Strength Cement Composites Mixed with Recycled Glass Powder (고온이 순환유리미분말을 혼입한 고강도 시멘트 복합체의 역학적 특성에 미치는 영향)

  • Park, Jun-Young;Kim, Gyu-Yong;Eu, Ha-Min;Choi, Youn-Sung;Ji, Sung-Jun;Nam, Jeong-Soo
    • Proceedings of the Korean Institute of Building Construction Conference
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    • 2023.05a
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    • pp.109-110
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    • 2023
  • In this study, mechanical properties of high strength cement composites (HSC) containing recycled glass powder (GP) after heating were investigated. As a result, at 100Mpa, as the heating temperature increased, the compressive strength increased while the elastic modulus decreased . At 140Mpa, after heating at 300℃, the spalling occurred excluding GP0, and it is believed to be due to the high density of HSC.

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Evaluation of Mechanical Properties for AZ31 Magnesium Alloy(1) (AZ31 마그네슘 합금 판재의 기계적 특성 평가(1))

  • Won S.Y.;Oh S.K.;Osakada Kozo;Park J.K.;Kim Y.S.
    • Proceedings of the Korean Society for Technology of Plasticity Conference
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    • 2004.05a
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    • pp.53-56
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    • 2004
  • The mechanical properties and optical micrographs are studied for rolled magnesium alloy sheet with hexagonal close packed structure(HCP) at room and elevated temperatures. Tensile properties such as tensile strength, elongation, R-value and n-value are also measured for AZ31 magnesium alloy. Magnesium with strong texture of basal plane parallel to the rolling direction usually has high R-value and plastic anisotropy at room temperature. As temperature increases, the R-value for AZ31 magnesium sheet decreases. In addition, the AZ31 sheet becomes isotropy and recrystallization above $200^{\circ}C$. Formability of magnesium alloy sheets remarkably poor at room temperature is improved by increasing temperature. Sheet forming of magnesium alloy is practically possible only at high temperature range where plastic anisotropy disappears.

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Evaluation of Mechanical Properties for Magnesium Sheet Forming by Tension and Compression Tests (마그네슘 판재성형을 위한 인장 및 압축실험을 통한 기계적 물성 평가)

  • Oh, S. W.;Choo, D. K.;Lee, J. H.;Kang, C. G.
    • Transactions of Materials Processing
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    • v.14 no.7 s.79
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    • pp.635-641
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    • 2005
  • The crystal structure of magnesium was hexagonal close-packed (HCP), so its formability was poor at room temperature. But formability was improved in high temperature with increasing of the slip planes. Purpose of this paper was to know about the mechanical properties of magnesium alloy (AZ31B), before warm and hot forming process. The mechanical properties were defined by the tension and compression tests in various temperature and strain-rate. As the temperature was increased, yield·ultimate strength, K-value, work hardening exponent (n) and anisotropy factor (R) were decreased. But strain rate sensitivity (m) was increased. As strain-rate increased, yield·ultimate strength, K-value, and work hardening exponent (n) were increased. Also, microstructures of grains fined away at high strain-rate. These results would be used in simulations and manufacturing factor fer warm and hot forming process.

A Study on the Plate-Type Polymer Hyperfine Pit Structure Fabrication and Mechanical Properties Measurement by Using Thermal-Nanoindentation Process (열간나노압입공정을 이용한 극미세 점구조체 제작을 위한 플라스틱소재 판의 기계적 특성 조사)

  • Lee, E.K.;Kang, C.G.
    • Transactions of Materials Processing
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    • v.17 no.8
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    • pp.633-642
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    • 2008
  • It's important to measure quantitative properties about thermal-nano behavior of polymer for producing high quality components using Nanoimprint lithography process. Nanoscale indents can be used to make the cells for molecular electronics and drug delivery, slots for integration into nanodevices, and defects for tailoring the structure and properties. In this study, formability of polymethylmetacrylate(PMMA) and polycarbonate(PC) were characterized Polymer has extreme variation in thermo mechanical variation during forming high temperature. Because of heating the polymer, it becomes softer than at room temperature. In this case it is particularly important to study high temperature-induced mechanical properties of polymer. Nanoindenter XP(MTS) was used to measure thermo mechanical properties of PMMA and PC. Polymer was heated by using the heating stage on NanoXP. At CSM(Continuous Stiffness Method) mode test, heating temperature was $110^{\circ}C,120^{\circ}C,130^{\circ}C,140^{\circ}C$ and $150^{\circ}C$ for PMMA, $140^{\circ}C,150^{\circ}C,160^{\circ}C,170^{\circ}C$ and $180^{\circ}C$ for PC, respectively. Maximum indentation depth was 2000nm. At basic mode test, heating temperature was $90^{\circ}C$ and $110^{\circ}C$ for PMMA, $140^{\circ}C,160^{\circ}C$ for PC. Maximum load was 10mN, 20mN and 40mN. Also indented pattern was observed by using SEM and AFM. Mechanical properties of PMMA and PC decreased when temperature increased. Decrease of mechanical properties from PMMA went down rapidly than that of PC.