Relevant bibliographies by topics / Heat resistant material

Contents

  1. Journal articles
  2. Dissertations / Theses
  3. Books
  4. Book chapters
  5. Conference papers
  6. Reports

Academic literature on the topic 'Heat resistant material'

Author: Grafiati
Published: 28 July 2024
Last updated: 30 July 2024

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Journal articles on the topic "Heat resistant material"

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Tukhareli, V. D., E. E. Gnedash, and A. V. Tukhareli. "Heat-Resistant Composite Materials Based on Secondary Material Resources." Solid State Phenomena 299 (January 2020): 287–92. http://dx.doi.org/10.4028/www.scientific.net/ssp.299.287.

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Heat-resistant properties of the cement stone are provided by both high-temperature filler and the modified matrix on the basis of the Portland cement. For production of heat-resistant compositions as high-temperature filler, it is offered to use the secondary and accompanying products of production of carbide of silicon (SiC) and production wastes of the abrasive tools on a ceramic base. Increase in heat-resistant properties of the Portland cement knitting substance is offered to be solved by introduction to the structure of a cement composition of single substituted orthophosphate of calcium. The choice as an additive to the Portland cement a single substituted orthophosphate of calcium (double superphosphate) is proved by questions of safety measures and ecology, when using ortho-phosphoric acid and its salts for giving to cement compositions heat-resistant properties. The multicomponent composition of fine-grained concrete makes it possible to operate effectively the processes of forming the structure of cement stone at all stages of the technology, and to obtain materials with the most diverse set of properties. An introduction to the structure of a composite of 5% of filler of cyclonic dust of carbide of silicon, and a replacement of quartz filler by waste of abrasive production gave the increase of the compressive strength at 12%, bending strength for 36%. The thermal firmness increased by 3 times. An introduction to the structure of heat-resistant composition of single substituted orthophosphate of calcium (double superphosphate) in a number of 0.2% of the mass of cement allowed to increase the thermal firmness of structures to 20 heat exchanges (water, 800 oС).
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Wu, Guang Feng, Xiao Bin Zhang, and Wei Wu. "Microstructure and Corrosion Resistant Property Research of Super 304H and TP347H Heat-Resistant Steel Welding Joint." Advanced Materials Research 295-297 (July 2011): 1402–7. http://dx.doi.org/10.4028/www.scientific.net/amr.295-297.1402.

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Microstructure of Super 304H and TP347H austenitic heat resistance steel welding joint by handwork argon tungsten-arc welding and electro-chemical corrosion property of weld metal and two base materials were investigated by SEM and M273 constant potential rectifier. The results shows that microstructure of the weld metalwere austenitic matrix + δ ferrite; In 5% HCl Solution, corrosion resistant capabilities were super 304H base material> weld metal>TP347H base material; in 9.8% H2SO4 Solution, corrosion resistant capabilities were Super 304H base material>TP347H base material> weld metal; Super 304H and TP347H austenitic heat resistance steel welding joint has better corrosion resistant property in HCl solution than in H2SO4 solution; Inter-crystalline corrosion results were consistence to results electro-chemical corrosion experiment in 9.8% H2SO4 solution.
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KhLYSTOV, A. I., M. V. KONNOV, A. V. VLASOV, and E. A. ChERNOVA. "INORQANIC HIAT RESISTANT INDUSTRIALWORSES AS RAW WABERTAL BASE FOR MANUFACTUREOF FARE RESISTANT KILN MATERIALS." Urban construction and architecture 1, no. 4 (December 15, 2011): 87–92. http://dx.doi.org/10.17673/vestnik.2011.04.17.

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The question of usage of high-heat inorganic waste material of industry in the structure of heat-resistant binding agents, fillers and concretes is considered. It was established that physical and thermal properties of heat- resistant composites depend on the type of concrete used for chemical binding of anthropogenic raw material. The ways of an efficient choice of raw components and heat- resistant binding agents are suggested for optimization of the structures of refractory lining materials.
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Husarova, I. O., O. M. Potapov, B. M. Gorelov, T. A. Manko, and G. O. Frolov. "Model composition heat-resistant materials for multifunctioal coating." Kosmìčna nauka ì tehnologìâ 28, no. 1 (February 28, 2022): 43–50. http://dx.doi.org/10.15407/knit2022.01.043.

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A schematic diagram of composite material for a heat-resistant multifunctional coating providing radio invisibility and thermal protection of parts of missiles is proposed. Organosilicon binder KO-08K, inorganic binder НС-1A, and heat-resistant mastic NEOMID-TITANIUM were researched to select the materials of the heat-resistant matrix. Based on the analysis of the results of thermal desorption spectrometry of organosilicon binder and mastic NEOMID-TITANIUM with heat-resistant fillers, it was found that the thermal destruction is most effectively reduced by the matrix filler with perlite and aluminum. The efficiency of the selected composites at a high rate of temperature change was evaluated by the heat stroke method. It was revealed that samples based on the organosilicon binder with fillers failed to provide the required heat resistance of the material: NEOMID-TITANIUM mastic can be used in case of filling with 2 % of aluminum and aluminum-silicate binder HC-1A in the case of filling with 5 % aluminum and 10 % mullite. Selected materials were tested in a jet of a gas-dynamic burner. The results confirmed the need to reinforce the matrix with heat-resistant fabrics to increase its strength and erosion resistance. Heat-resistant silica fabric KT-11 and silica heat-resistant tape LKA-1200 were used as heat-resistant radio-transparent reinforcing fabric fillers. Thermo-erosion tests of reinforced samples in the jet of a gas-dynamic burner showed that the minimum linear removal was obtained on samples with a matrix based on NEOMID-TITANIUM mastic, which was reinforced with KT-11 fabric (outer layer) and LKA-1200 tape, which allows using these materials to create the multifunctional coating.
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Yan, Jun, Hong Lu Bai, Jiao Liu, and Da Jun Song. "Analyzing on the Reasonable Composition of High-Chromium Alloy Cast Iron to Make the Mud Pump Shell of Dredger." Advanced Materials Research 734-737 (August 2013): 2465–69. http://dx.doi.org/10.4028/www.scientific.net/amr.734-737.2465.

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Chose high-chromium cast iron as the material to make the mud pump shell, the composition of high-chromium alloy has been optimized and five kinds of alloy ( A, B, C, D and E) are designed. Furthermore, using the heat treatment method of air-cooled quenching of 1040°C + 260°C tempering, the relationship among material hardness, the impact toughness and the heating temperature is analyzed after heat treatment. Finally, the abrasion performance of wear-resistant materials is tested. The test result shows that all kinds of wear-resistant materials display well anti-abrasion performance, where the material E has the best relative wear resistance and 19.3% higher than the imported pump casing material. The results provide a scientific standard for selecting the practical wear-resistant materials and locating the piece casting bivalve pump of Cr26 high-chromium cast iron.
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Бессмертный, Василий, Vasiliy Bessmertnyy, Оксана Соколова, Oksana Sokolova, Надежда Бондаренко, Nadezhda Bondarenko, Диана Бондаренко, et al. "PLASMACHEMICAL MODIFICATION OF THERMAL INSULATED BLOCKS WITH DECORATIVE COATING." Bulletin of Belgorod State Technological University named after. V. G. Shukhov 4, no. 3 (April 10, 2019): 85–92. http://dx.doi.org/10.34031/article_5ca1f6331ec888.51255959.

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The impact of plasma of an arc plasmatron on plasmochemical modification of a two-layer heat-resistant decorative covering on the protecting foam glass blocks is investigated. The optimum technological parameters of plasma processing of such blocks with a preliminary basis of finely divided glass containers and high-quality glass breakage are determined. It is shown that the texture and quality of a two-layer heat-resistant decorative covering are affected by speed characteristics of the plasma torch. It is established experimentally that when the arc-plasma reflow rate is 5 mm /s, a continuous wavy coating is formed on the surface of the foam glass block, and at 10 mm /s – a continuous coating with even spill. Intermediate heat-resistant and basic compositions of decorative two-layer coating for plasma-chemical modification of enclosing blocks of heat-insulating materials have been developed. The intermediate heat-resistant structure includes the following ingredients: heat-resistant aluminous cement, crushed and fractioned high-aluminous refractory material, liquid glass. The basic structure includes mixture of fine ground glass powder of tare and high-quality glasses with the crushed high-aluminous refractory material. The following performance indicators are investigated: adhesion strength of the coating with the matrix, frost resistance, microhardness, acid resistance, water resistance, abrasion resistance, moisture resistance and resistance to neutral salt spray test.
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Tukhareli, V. D., O. Y. Pushkarskaya, and A. V. Tukhareli. "Methodological Approaches in Assessing the Possibility of Using Waste Electrocorundum Materials in Concrete Compositions." Solid State Phenomena 284 (October 2018): 1030–35. http://dx.doi.org/10.4028/www.scientific.net/ssp.284.1030.

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Heat-resistant concretes have been successfully used in many heat units and building structures. Making concrete heat-resistant is possible through the development of a heat-resistant phosphate matrix, aluminophosphate binder. The compositions of high-refractory concretes on aluminophosphate binder with electrocorundum and chrome-aluminous slag have relatively high strength up to 70 MPa after heat treatment. Wastes generated as a result of technological activities of enterprises have several technical and economic advantages as industrial raw materials. After passing the production possibility frontier, the material not only has not lost its properties, but became more prepared with the position of the grain composition and growth of specific surface area, heat treatment for use in the technology of concrete and refractory concrete, in particular, as heat-resistant fillers. The methodological approach in the study of defective ceramic-bond abrasive wheels has been proposed herein. The chemical, grain and mineralogical analyses of the material after mechanical grinding allowed us to define it as an aggregate for concrete in order to give it heat-resistant properties. The obtained concrete composition has a tensile strength 2.5 times higher than conventional cement composition of concrete and thermal resistance (water, 800°C) of the composition with heat-resistant filler has increased in 5 times.
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Zhang, Lin Chun. "Assessment of Heat Resistant Concrete of Magnesia-Phosphate." Advanced Materials Research 800 (September 2013): 341–44. http://dx.doi.org/10.4028/www.scientific.net/amr.800.341.

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In this paper, we choose heat resistant material wollastonite and corundum to get the concrete which has heat resistance up to 600 centigrade. SEM reveals that at the temperature of 400 centigrade and 600 centigrade, the material is very dense. But when the temperature gets 800 centigrade and 1000 centigrade, the SEM reveals cracks. The refractory concrete made by magnesium potassium phosphate as the binder and wollastonite and corundum as aggregate has short setting time, early strength and rapid hardening. And it is suitable for emergency repair materials for the kiln.
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Baranova, T. F., and S. A. Valiakhmetov. "Ceramic Material for Making Heat-Resistant Products." Refractories and Industrial Ceramics 57, no. 1 (May 2016): 46–49. http://dx.doi.org/10.1007/s11148-016-9925-6.

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Chukhlanov, V. Yu, O. G. Selivanov, and M. E. Ilina. "Development of Heat-Resistant Composite Foam Material." Materials Science Forum 1082 (March 31, 2023): 141–45. http://dx.doi.org/10.4028/p-026s0w.

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The paper is devoted to the research results dealing with the development of heat-resistant composite cellularmaterial, where polymer matrix is based on10% polycarbosilanesolution in xylene, hollow microspheres and fibrous mineral material are used as fillers. In this study, the used hollow microspheres are corundum and aluminosilicate microspheres, and fibrous filler is quartz fiber. According to the experiments, the best results refer to thecomposite foam samples, containing hollow corundum microspheres as filler. The developed composite foam is characterized with low thermal conductivity and density, good physical and mechanical properties,when polymer binder content was 20-70% wt., corundum hollow microspheres - 20-60% wt., and quartz fiber material - 10-50% wt. Thus, the developed composite foam might be recommended for the applicationin high-tech industries, including heat and power engineering, nuclear power and aircraft construction as high-temperature thermal insulation material.
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Dissertations / Theses on the topic "Heat resistant material"

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Lundberg, Daniel, Filip Wilson, Hjalmar Gunnarsson, Leo Sjörén, Robin Xu, and Erik Djurberg. "Long term aging and creep exposure for advanced heat resistant alloys : A phase analysis." Thesis, Uppsala universitet, Institutionen för materialvetenskap, 2021. http://urn.kb.se/resolve?urn=urn:nbn:se:uu:diva-446407.

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This project was ordered by Sandvik Materials Technology and was performed by a group of students at Uppsala university. The purpose of the project was to study precipitation behavior and structure stability in six advanced heat resistant alloys. Each sample were subjected to a creep rupture test in 600 or 700°C depending on the alloy type. Two parts of each alloy where examined; one part which had been affected by creep and another part which was unaffected by creep. A literature study was performed first to gain knowledge of the scientific theory utilized in this project, namely creep, precipitation hardening, and about the different materials which were analyzed. Preliminary results for the phase composition of the materials were obtained from a Thermo-Calc (TC) simulation. The SEM-images showed nothing noteworthy for any sample due to the roughness of the sample surfaces. The EDS-analysis showed chromium depletion in the centers of the aged samples of HT9 and Sanicro® 75X. Other minority phases such as Cr23C6 in Sanicro®70, P-phase and a titanium nitride phase in sanicro® 60X, VB in Esshete 1250 and Sigma-phase in 4C54 were identified using EDSmapping. It was found that when using XRD to analyze the phase compositions of small samples it is impractical to have the samples cast in bakelite beforehand. The XRD-results obtained in this project showed that more than 90% of the XRD diffractogram for every sample was graphite, which made the identification of minority phases impossible. The quality of the LOM-images varied greatly between samples, for 4C54 grain sizes were measured in all images, for Esshete 1250 grain sizes were measured for the crept sample, and for Sanicro® 60X measurements could only be taken from one image. Most of the sample preparation was insufficient to achieve the test results necessary for complete microstructural analysis and phase analysis of the samples. The mistakes in the practical steps of the project were noted and improvements for these mistakes are presented in the conclusion.
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Nilsson, Erik A. A. "Degradation Mechanisms of Heat Resistant Steel at Elevated Temperatures : In an Iron Ore Pelletizing Industry." Doctoral thesis, Luleå tekniska universitet, Materialvetenskap, 2017. http://urn.kb.se/resolve?urn=urn:nbn:se:ltu:diva-62162.

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This thesis focuses on the different degradation mechanisms of the stainless steel in a travelling grate in a Grate-Kiln iron ore pellet indurator. The travelling grate is a conveyor belt that transports green-body pellets to a rotary kiln while the pellets are being dried and pre-heated to a temperature of 900-1100 °C by recycled hot air. After unloading of the pellets to the rotary-kiln for further sintering, the travelling grate is cooled in room temperature while returning to the loading zone of the wet pellets. The steel was tested during thermal cycling in a test-rig, in order to simulate the influence of thermo mechanical fatigue and oxide spallation. The influence of erosion-deposition was investigated in a modified horizontal industrial combustion kiln at 800 °C, with slag and coal from production used as erosive media and combustion fuel, respectively. The influence of minor alloying additions of Mn, Si and Ti on the microstructure was explored by eight different casted alloy compositions. Isothermal heat treatments were performed at 800 °C during 200 hours on steel immersed in deposits recovered from a travelling grate in production. The three main degradation mechanisms found in this work are thermal spallation, erosion-deposition and deposit induced accelerated corrosion (DIAC). Thermal spallation of the oxide layer is caused by the thermal expansion difference between the oxide and the metal during heating and cooling. It has been found that Ti improves the spallation resistance while Si reduces it. Spallation of deposits is another cause believed to increase the degradation. Erosion-deposition appears due to simultaneous erosion and deposition of particles on the travelling grate that causes erosion or deposition depending on the amount of alkali metals in the environment. The velocity of the particles also influences erosion and deposition in the way that higher velocities increase erosion. DIAC is proposed to form on the travelling grate due to the concentration of chloride- and sulphate containing alkali metals in the deposits.  Other than these major degrading mechanisms, minor degradation mechanisms such as internal oxidation, sigma formation, carburization and sensitization towards inter-granular attack have been found inside the steel during heating. Thermo mechanical fatigue (TMF) causes intergranular cracks in the material of the travelling grate. Casting issues such as micro-segregation have also been addressed in this thesis. A few different ways to improve degradation resistance have been proposed, such as homogenization heat treatments, optimization of process parameters and inhibitor solutions.
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Morata, Royes Joan. "Wear resistance of heat-treated Advanced High Strength Steels and casting." Thesis, Luleå tekniska universitet, Institutionen för teknikvetenskap och matematik, 2020. http://urn.kb.se/resolve?urn=urn:nbn:se:ltu:diva-80526.

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The necessity to improve the durability of the machinery used in the milling industry has lead to several types of research. One study is focused on the plates that are located in the stationary and moving jaws of crushers to diminish particles sizes of Gneiss and Diabase rocks. Thus, one type of approach to increase its durability is by reducing the material loss of the plates. Amongst all the parameters to reduce the wear ratio that includes inputs from geometry to load, just the hardness input of the material can be in constant development. Consequently, there are two well-known types of heat treatment that can produce this change in hardness and are named Carbide Free Bainite (CFB) and Quenching and Partitioning (QP). In this master thesis the topic is to perform the QP heat treatments for two compositions A and B to obtain the microstructure of the steels that consist in a mix of austenite, bainite and martensite which considerably increase the hardness while the toughness is not drastically reduced due to the austenite soft phase. Five samples have been studied at four different partitioning temperatures: QP250 A, QP180 B, QP210 B, QP240 B and Mn Steel as it is the composition most used nowadays in the industry. In order to characterise both mechanical properties and microstructural features, different analysis had been performed with Micro-indentations, Charpy-V, Gouging Abrasion Tests, Optical Microscopy, Scanning Electron Microscopy and X-Ray Diffraction. These analysis had been done in the samples before and after wear as a result in change of the microstructure. As the abrasive-impact of the rocks collide with the sample, austenite transforms to martensite by induced plasticity called TRIP effect. Thus, the surface of the alloy is harder than the bulk material as no austenite is found and the wear ratio is seen to be improved. The results have shown several behaviours. Austenite transforms in its majority to fresh martensite which is an unstable martensitic phase but harder than tempered martensite that is the stable martensitic phase. Moreover, the difference in hardness between the bulk and the surface produce an affected depth layer as a consequence of the abrasive-impact penetration of rocks in which the microstructure has fully transformed to martensite on the surface and the austenite phase increases as it goes further inside the steel. The thinner this layer is, the better wear ratio presents the alloy. From all the samples, the best combination of hardness and toughness is for QP210 B.
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Nilsson, Erik. "Oxidation of heat resistant stainless steels in a pelletizing process." Licentiate thesis, Luleå tekniska universitet, Materialvetenskap, 2014. http://urn.kb.se/resolve?urn=urn:nbn:se:ltu:diva-26622.

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Godkänd; 2014; 20140331 (niriel); Nedanstående person kommer att hålla licentiatseminarium för avläggande av teknologie licentiatexamen. Namn: Erik Nilsson Ämne: Konstruktionsmaterial/Engineering Materials Uppsats: Oxidation of Heat Resistant Stainless Steels in a Pelletizing Process Examinator: Biträdande professor Marta-Lena Antti, Institutionen för teknikvetenskap och matematik, Luleå tekniska universitet Diskutant: Ph.D., Research Leader Rikard Norling, Swerea KIMAB AB, Kista Tid: Tisdag den 27 maj 2014 kl 10.00 Plats: E632, Luleå tekniska universitet
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Pathak, Sayali V. "Enhanced Heat Transfer in Composite Materials." Ohio University / OhioLINK, 2013. http://rave.ohiolink.edu/etdc/view?acc_num=ohiou1368105955.

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Davis, Robert Bruce. "Design and development of advanced castable refractory materials /." Full text open access at:, 2001. http://content.ohsu.edu/u?/etd,187.

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Nam, Jae-Do. "Polymer matrix degradation : characterization and manufacturing process for high temperature composites /." Thesis, Connect to this title online; UW restricted, 1991. http://hdl.handle.net/1773/9867.

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Peng, Wu Tseng. "Evaluation of ceramic candle filters degradation and damage location using four-point bending tests." Morgantown, W. Va. : [West Virginia University Libraries], 1999. http://etd.wvu.edu/templates/showETD.cfm?recnum=1105.

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Thesis (M.S.)--West Virginia University, 1999.
Title from document title page. Document formatted into pages; contains x, 85 p. : ill. (some col.). Includes abstract. Includes bibliographical references (p. 81-82).
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Chhasatia, Viralsinh. "Characterization of thermal interface materials using flash diffusivity and infrared microscopy methods." Diss., Online access via UMI:, 2009.

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Thesis (M.S.)--State University of New York at Binghamton, Thomas J. Watson School of Engineering and Applied Science, Department of Mechanical Engineering, 2009.
Includes bibliographical references.
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Fox, Bronwyn Louise. "The manufacture, characterization and aging of novel high temperature carbon fibre composites." View thesis entry in Australian Digital Theses Program, 2001. http://thesis.anu.edu.au/public/adt-ANU20011207.114246/index.html.

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Books on the topic "Heat resistant material"

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1935-, Schacht Charles A., ed. Refractories handbook. New York: Marcel Dekker, 2004.

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United States. National Aeronautics and Space Administration., ed. Probabilistic material strength degradation model for Iconel 718 components subjected to high temperature, mechanical fatigue, creep and thermal fatigue effects. [Washington, DC]: National Aeronautics and Space Administration, 1994.

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George C. Marshall Space Flight Center., ed. A preliminary mechanical property and stress corrosion evaluation of VIM-VAR work strengthened and direct aged inconel 718 bar material. [Marshall Space Flight Center, Ala.]: National Aeronautics and Space Administration, George C. Marshall Space Flight Center, 1987.

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Weimar Workshop on High Performance Concrete: Material Properties and Design (4th 1995 Hochschule für Architektur und Bauwesen). High performance concrete: Material properties and design : proceedings of the Fourth Weimar Workshop on High Performance Concrete: Material Properties and Design held at Hochschule für Architektur und Bauwesen (HAB) Weimar, Germany, October 4th and 5th 1995. Edited by Wittmann F. H, Schwesinger Peter, and Hochschule für Architektur und Bauwesen Weimar (Germany). Freiburg: Aedificatio, 1995.

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Erol, Ayşe. Dilute III-V nitride semiconductors and material systems: Physics and technology. Berlin: Springer, 2008.

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High Heat-resistant Plastics Conference (1985 Stamford, Conn.). Proceedings from 1985 Conference on High Heat-resistant Plastics: "material options and market opportunities in plastics applications requiring elevated temperature resistance" : as presented at 1985 High Heat-resistant Plastics Conference, November 12-13, 1985, Crowne Plaza Hotel, Stamford, Connecticut. Stamford, CT: Business Communications Co., 1985.

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Kajaste-Rudnitski, Juri. Numerical model of thermoelastic-plastic concrete material. Espoo: Technical Research Centre of Finland, 1993.

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Hugo, Leon, and Huang Xiao, eds. Superalloys: Alloying and performance. Materials Park, Ohio: ASM International, 2010.

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1939-, Kumashiro Yukinobu, ed. Electric refractory materials. New York: Marcel Dekker, 2000.

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R, Davis J., and ASM International. Handbook Committee., eds. Heat-resistant materials. Materials Park, Ohio: ASM International, 1997.

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Book chapters on the topic "Heat resistant material"

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Chukhlanov, Vladimir, Oleg Selivanov, Marina Ilina, and Ivan Kurochkin. "Development of Heat-Resistant Composite Foam Material." In Fundamental and Applied Scientific Research in the Development of Agriculture in the Far East (AFE-2022), 690–95. Cham: Springer Nature Switzerland, 2023. http://dx.doi.org/10.1007/978-3-031-36960-5_78.

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Yang, Huimin. "A Heat Resistant Label Material and Its Application in High Temperature Processing." In Advances in Porcelain Enamel Technology, 77–78. Hoboken, NJ, USA: John Wiley & Sons, Inc., 2010. http://dx.doi.org/10.1002/9780470640906.ch14.

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Mishuris, Gennady, Wiktoria Miszuris, and Andreas Öchsner. "Evaluation of Transmission Conditions for a Thin Heat-Resistant Inhomogeneous Interphase in Dissimilar Material." In Materials Science Forum, 87–92. Stafa: Trans Tech Publications Ltd., 2007. http://dx.doi.org/10.4028/0-87849-438-3.87.

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Zhu, Zenghui, and Qingqin Meng. "Analysis on Random Vibration and Impact Response of Vehicle-Borne Electronic Chassis." In Lecture Notes in Mechanical Engineering, 1281–96. Singapore: Springer Nature Singapore, 2024. http://dx.doi.org/10.1007/978-981-97-1876-4_103.

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AbstractIn order to meet lightweight design requirement of vehicle-borne electronic chassis, vibration and impact response of chassis was analyzed based on the theory of random vibration and transient impact dynamics. Considering the influence of heat dissipation, corrosion resistance, material strength and economy of processing, weight reduction design was carried out according to vibration and impact response stress nephogram of chassis. The computation results show that the weight of chassis frame decreased by 16.4% and the first-order modal frequency of chassis decreased by 14.2% after weight reduction. Impact response had a lag relative to input impact spectrum. The increase of vibration stress was obviously higher than that of impact stress in different directions, which was still less than the corresponding material yield strength. That is, the structural strength of chassis after weight reduction meets the requirements of vibration and impact resistant design. The research results can provide theoretical basis of electronic equipment lightweight design under vehicle vibration and impact environment.
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Mori, Kenichi, Kazuhiro Takahashi, Hideki Fujii, and Hiroaki Otsuka. "Material Properties of Newly Developed Heat Resistant Titanium Alloy “Ti-1Cu-1Sn-0.35Si-0.2Nb” for Automotive Exhaust Applications." In Proceedings of the 13th World Conference on Titanium, 1831–38. Hoboken, NJ, USA: John Wiley & Sons, Inc., 2016. http://dx.doi.org/10.1002/9781119296126.ch307.

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Shulpekov, Alexander М., Ramil M. Gabbasov, Vladimir D. Kitler, and Olga K. Lepakova. "Synthesis of Composite Material 2(CrxTi1−x)AlC by the SHS Method for Heat-Resistant Products and Coatings." In Springer Proceedings in Physics, 315–21. Singapore: Springer Nature Singapore, 2024. http://dx.doi.org/10.1007/978-981-97-1872-6_43.

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Bíró, Tamás, and László Dévényi. "Damage Analysis of Heat Resistant Steels." In Materials Science Forum, 303–6. Stafa: Trans Tech Publications Ltd., 2007. http://dx.doi.org/10.4028/0-87849-426-x.303.

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Berger, C., J. Granacher, and Y. Kostenko. "Creep Equations for Heat Resistant Steels." In Steels and Materials for Power Plants, 345–51. Weinheim, FRG: Wiley-VCH Verlag GmbH & Co. KGaA, 2006. http://dx.doi.org/10.1002/3527606181.ch60.

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Eisenträger, Johanna, and Holm Altenbach. "Creep in Heat-resistant Steels at Elevated Temperatures." In Advanced Structured Materials, 79–112. Cham: Springer International Publishing, 2019. http://dx.doi.org/10.1007/978-3-030-30355-6_4.

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Donskoi, A. A., M. A. Shashkina, and G. E. Zaikov. "Development of fire and heat shield materials." In Fire Resistant and Thermally Stable Materials Derived from Chlorinated Polyethylene, 156–69. London: CRC Press, 2023. http://dx.doi.org/10.1201/9780429070723-9.

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Conference papers on the topic "Heat resistant material"

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Diaz, Alejandro R., and Andre Benard. "Topology Optimization of Heat-Resistant Structures." In ASME 2003 International Design Engineering Technical Conferences and Computers and Information in Engineering Conference. ASMEDC, 2003. http://dx.doi.org/10.1115/detc2003/dac-48769.

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The standard problem of finding the optimal layout of structural material associated with maximum stiffness is expanded to include consideration of thermal criteria. The problem is posed as a three-phase layout problem where the phases include an insulating or fire retardant material and an unknown distribution of heat sources, in addition to the structural material. The model used is simple, yet results suggest that the introduction of measures to control the temperature in the structure when subjected to significant heat transfer rates can result in layouts that differ substantially from solutions where thermal issues are ignored.
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Koňáková, Dana, Eva Vejmelková, Vojtěch Pommer, Václav Kočí, and Robert Černý. "Material properties of low-cement heat resistant composites containing ceramic powder." In INTERNATIONAL CONFERENCE OF NUMERICAL ANALYSIS AND APPLIED MATHEMATICS ICNAAM 2021. AIP Publishing, 2023. http://dx.doi.org/10.1063/5.0162266.

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Sanling, Fu, Li Quanan, Jing Xiaotian, Zhang Qing, Chen Zhi, and Liu Wenjian. "Review on research and development of heat resistant Magnesium alloy." In 1st International Conference on Mechanical Engineering and Material Science). Paris, France: Atlantis Press, 2012. http://dx.doi.org/10.2991/mems.2012.179.

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Liu, Juan, Hongyuan Xu, Longhao Qi, and He Li. "Study on Erosive Wear and Novel Wear-Resistant Materials for Centrifugal Slurry Pumps." In ASME 2004 Heat Transfer/Fluids Engineering Summer Conference. ASMEDC, 2004. http://dx.doi.org/10.1115/ht-fed2004-56248.

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The erosive wear of the impellers and liner of centrifugal slurry pumps was investigated. The eroded material surfaces of different parts in impellers and liner have been studied by using scanning electron microscopic (SEM). The examination shows that the eroded surface pattern and eroded degree of different parts in slurry pump are different. The microstructure SEM analysis provides insights into the erosive wear mechanisms in pumps. The material removal processes include chipping out of lateral cracks caused by impact of the erodent particles, grain boundary cracking and grain pull out, as well as plastic deformation caused by the repeated sliding and impact of the particles. A new kind of anti-erosive wear material- Al2O3 engineering ceramic has been made. Engineering ceramics have a high application potential for wear-protection of different working parts used for slurry pumps and mineral industries. Measurements of the erosive wear of various materials used in centrifugal slurry pumps have been studied in a simple slurry pot tester in aqueous slurry of silicon carbide grits. Effects of varying the size distribution and volume content of erodent particle are investigated.
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Fan, Zhichao, Shulin Xiang, and Tao Chen. "Design of Centrifugally Cast Fe-Cr-Ni Heat-Resistant Alloys Driven by Material Genome Technology." In ASME 2023 Pressure Vessels & Piping Conference. American Society of Mechanical Engineers, 2023. http://dx.doi.org/10.1115/pvp2023-106244.

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Abstract Due to the excellent creep and corrosion resistance at high temperatures, heat-resistant alloy tube is the key component of hydrogenation reformer and ethylene pyrolysis furnaces in petrochemical industries. The development of material genome technology provides a new idea for the control and optimization of heat-resistant alloys. Based on the CALculation of PHAse Diagram (CALPHAD) method, the effect of key microalloying elements on the evolution of phases is detected, hence the preliminary content range of the microalloying element is determined. According to coupled finite element-cellular automaton (CAFE) model and experimental verification, the grain morphology model of centrifugal cast heat-resistant alloy is established, and the optimized parameters of pouring temperature and rotation speed are put forward. The correlation analysis between component/microstructure and creep rupture life is carried out using a machine learning (ML) approach. The classification of alloy microstructure (grain size, primary carbide morphology, etc.) based on a convolution neural network is established, and the regression of creep rupture life using a deep learning model based on multi-source heterogeneous data is exploited. Combined with the optimization algorithm, an accurate design of alloy composition for target service life is developed. The alloy design method based on material genome technology will accelerate the R&D and application of new heat-resistant materials and advanced components.
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Hamaguchi, Tomoaki, Shinnosuke Kurihara, Hiroyuki Hirata, and Hirokazu Okada. "Microstructural Evaluation in Heat-Affected Zone of 9Cr-3W-3Co-Nd-B Heat-Resistant Steel." In AM-EPRI 2019, edited by J. Shingledecker and M. Takeyama. ASM International, 2019. http://dx.doi.org/10.31399/asm.cp.am-epri-2019p0071.

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Abstract A newly developed ferritic heat-resistant steel; 9Cr-3W-3Co-Nd-B steel has higher creep rupture strength both in the base metal and welded joints than the conventional high-Cr ferritic heat-resistant steels. The creep rupture strengths of 9Cr-3W-3Co-Nd-B steel welded joints were below the lower limit of the base metal in long-term creep stage more than 20,000 hours. The creep rupture position was heat-affected zone (HAZ) from 1.0 to 1.5 mm apart from the fusion line on the welded joint specimen ruptured at 34,966 hours. The equiaxed subgrains and coarsened precipitates were observed in HAZ of the ruptured specimen. In order to clarify the creep fracture mechanism of the welded joints, the microstructures of HAZ were simulated by heat cycle of weld, then observed by EBSD analysis. Fine austenite grains formed along the prior austenite grain boundaries in the material heated just above AC3 transformation temperature, however there were no fine grains such as conventional steel welded joints. The prior austenite grain boundaries were unclear in the material heated at 1050 °C. The creep rupture life of the material heated at just above AC3 transformation temperature exceeded the lower limit of base metal and there was no remarkable degradation, although it was shorter than the other simulated materials. It is, therefore, concluded that the creep fracture of 9Cr-3W-3Co-Nd-B steel welded joint in long-term stage occurred at HAZ heated at from just above AC3 transformation temperature to 1050 °C. It is speculated that the fine austenite grains formed along the prior austenite grain boundaries and inhomogeneous microstructures cause the coarsening precipitates and recovery of lath structure during long-term creep deformation.
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Ikeda, Hiroaki, and Shigenobu Sekine. "The Plating Technology for Press-Fit Pins using Heat-Resistant IMC Joint Material." In 2024 International Conference on Electronics Packaging (ICEP). IEEE, 2024. http://dx.doi.org/10.23919/icep61562.2024.10535538.

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Glasser, Marc. "Choosing the Proper Heat Resistant Alloy Based on Application Criteria." In HT 2015. ASM International, 2015. http://dx.doi.org/10.31399/asm.cp.ht2015p0186.

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Abstract In today’s competitive world of globalization and low cost manufacturing, it is essential that when engineering a job, to get it right the first time. This is especially true for capital equipment with a high cost and long expected lifetimes. It is even more critical, when the equipment must operate at high temperatures, and different potential for failure exists. In order to do it right the first time, engineers must understand high temperature properties, and incorporate these principles into the decision making process for materials. Some of these properties are intrinsic, some are affected by environment, and some are governed by thermodynamic and kinetic changes to the material at the operating temperatures. All must be considered.
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Narita, Toshio, L. T. Handoko, and Masbah R. T. Siregar. "A View of Compatible Heat-Resistant Alloy and Coating Systems at High-Temperatures." In INTERNATIONAL WORKSHOP ON ADVANCED MATERIAL FOR NEW AND RENEWABLE ENERGY. AIP, 2009. http://dx.doi.org/10.1063/1.3243272.

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Belov, A. N., Yu A. Chaplygin, A. A. Golishnikov, D. A. Kostyukov, M. G. Putrya, S. O. Safonov, and V. I. Shevyakov. "Tungsten alloyed with rhenium as an advanced material for heat-resistant silicon ICs interconnects." In The International Conference on Micro- and Nano-Electronics 2016, edited by Vladimir F. Lukichev and Konstantin V. Rudenko. SPIE, 2016. http://dx.doi.org/10.1117/12.2264789.

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Reports on the topic "Heat resistant material"

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Porter, W. D. Thermophysical Properties of Heat Resistant Shielding Material. Office of Scientific and Technical Information (OSTI), December 2004. http://dx.doi.org/10.2172/885686.

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Deevi, S. C., and V. K. Sikka. Reaction synthesis of heat-resistant materials. Office of Scientific and Technical Information (OSTI), December 1995. http://dx.doi.org/10.2172/273757.

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Crisosto, Carlos, Susan Lurie, Haya Friedman, Ebenezer Ogundiwin, Cameron Peace, and George Manganaris. Biological Systems Approach to Developing Mealiness-free Peach and Nectarine Fruit. United States Department of Agriculture, 2007. http://dx.doi.org/10.32747/2007.7592650.bard.

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Peach and nectarine production worldwide is increasing; however consumption is flat or declining because of the inconsistent eating quality experienced by consumers. The main factor for this inconsistent quality is mealiness or woolliness, a form of chilling injury that develops following shipping periods in the global fruit market today. Our research groups have devised various postharvest methods to prolong storage life, including controlled atmosphere and delayed storage; however, these treatments only delay mealiness. Mealiness texture results from disruption of the normal ripening process involving disassembly of cell wall material, and creates a soft fruit texture that is dry and grainy instead of juicy and smooth. Solving this problem is a prerequisite for increasing the demand for fresh peach and nectarine. Two approaches were used to reveal genes and their associated biochemical processes that can confer resistance to mealiness or wooliness. At the Volcani Center, Israel, a nectarine cultivar and the peach cultivar (isogenetic materials) from which the nectarine cultivar spontaneously arose, and at the Kearney Agricultural Center of UC Davis, USA, a peach population that segregates for quantitative resistance to mealiness was used for dissecting the genetic components of mealiness development. During our project we have conducted research integrating the information from phenotypic, biochemical and gene expression studies, proposed possible candidate genes and SNPs-QTLs mapping that are involved in reducing peach mealiness susceptibility. Numerous genes related to ethylene biosynthesis and its signal transduction, cell wall structure and metabolism, stress response, different transcription factor families were detected as being differentially accumulated in the cold-treated samples of these sensitive and less sensitive genotypes. The ability to produce ethylene and keep active genes involved in ethylene signaling, GTP-binding protein, EIN-3 binding protein and an ethylene receptor and activation of ethyleneresponsive fruit ripening genes during cold storage provided greater resistance to CI. Interestingly, in the functional category of genes differentially expressed at harvest, less chilling sensitive cultivar had more genes in categories related to antioxidant and heat sock proteins/chaperones that may help fruit to adapt to low temperature stress. The specific objectives of the proposed research were to: characterize the phenotypes and cell wall components of the two resistant systems in response to mealiness- inducing conditions; identify commonalities and specific differences in cell wall proteins and the transcriptome that are associated with low mealiness incidence; integrate the information from phenotypic, biochemical, and gene expression studies to identify candidate genes that are involved in reducing mealiness susceptibility; locate these genes in the Prunus genome; and associate the genes with genomic regions conferring quantitative genetic variation for mealiness resistance. By doing this we will locate genetic markers for mealiness development, essential tools for selection of mealiness resistant peach lines with improved fruit storability and quality. In our research, QTLs have been located in our peach SNPs map, and proposed candidate genes obtained from the integrated result of phenotypic, biochemical and gene expression analysis are being identified in our QTLs as an approach searching for consistent assistant markers for peach breeding programs.
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Hershcovitch, Ady, and Michael Furey. Fire Retardant/Heat Resistant Paint, Primer, Insulation and Other Construction Materials. Office of Scientific and Technical Information (OSTI), May 2013. http://dx.doi.org/10.2172/1080286.

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Kelly, J., J. Haslam, L. Finkenauer, P. Roy, J. Stolaroff, D. Nguyen, M. Ross, et al. Additive Manufacturing of Corrosion Resistant UHTC Materials for Chloride Salt-to-sCO2 Brayton Cycle Heat Exchangers. Office of Scientific and Technical Information (OSTI), May 2021. http://dx.doi.org/10.2172/1787194.

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Fuchs, Marcel, Jerry Hatfield, Amos Hadas, and Rami Keren. Reducing Evaporation from Cultivated Soils by Mulching with Crop Residues and Stabilized Soil Aggregates. United States Department of Agriculture, 1993. http://dx.doi.org/10.32747/1993.7568086.bard.

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Field and laboratory studies of insulating properties of mulches show that the changes they produce on the heat balance and the evaporation depend not only on the intrinsic characteristics of the material but also on the structure of air flow in boundary layer. Field measurements of the radiation balance of corn residue showed a decrease of reflectivity from 0.2 to 0.17 from fall to spring. The aerodynamic properties of the atmospheric surface layer were turbulent, with typical roughness length of 12 to 24 mm. Evaporation from corn residue covered soils in climate chambers simulating the diurnal course of temperature in the field were up to 60% less than bare soil. Wind tunnel studies showed that turbulence in the atmospheric boundary layer added a convective component to the transport of water vapor and heat through the mulches. The decreasing the porosity of the mulch diminished this effect. Factors increasing the resistance to vapor flow lowering the effect of wind. The behavior of wheat straw and stabilized soil aggregates mulches were similar, but the resistance to water of soil aggregate layer with diameter less than 2 mm were very large, close to the values expected from molecular diffusion.
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Sabau, Adrian. Review of Thermal Contact Resistance of Flexible Graphite Materials for Thermal Interfaces in High Heat Flux Applications. Office of Scientific and Technical Information (OSTI), October 2022. http://dx.doi.org/10.2172/1896991.

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Wang, Yong-Yi, Zhili Feng, Wentao Cheng, and Sudarsanam Suresh Babu. L51939 Weldability of High-Strength Enhanced Hardenability Steels. Chantilly, Virginia: Pipeline Research Council International, Inc. (PRCI), September 2003. http://dx.doi.org/10.55274/r0010384.

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Since the 1970s, the development of high-strength pipeline steels has followed the route of progressively reduced harden ability through lower carbon and alloying element contents. Micro-alloying, controlled rolling (CR), and thermo-mechanical controlled processing (TMCP) have been used extensively to achieve the high-strength and other material property requirements despite the trend towards lower carbon content. The primary driving force behind the evolution of these alloying and processing strategies stems from the concerns over the weld ability, particularly the hydrogen induced cracking (HIC), at ever-increasing strength levels. Accompanying the extensive reliance on micro-alloying, CR, and TMCP, there has been a movement to tighter restrictions on micro-alloy variability, the increased use of heavy reduction at low inter-critical temperatures and, in some instances, the reliance on cold expansion. The objective of this project was to evaluate alternate steels with enhanced harden ability and identify those that would have a potential to (1) meet the high strength/high toughness requirement but without the adverse effects of the early trial heats of micro-alloyed TMCP X80 and X100 line pipe steels, and (2) exhibit sufficient resistance to hydrogen induced cracking (HIC) when welded with processes and consumables representative of state-of-the-art, low-hydrogen field girth welding practices. The focus of the project was on the weld ability and properties of the base metal and the heat-affected zone (HAZ). The selection and development of suitable weld consumables were not part of this project.
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Gill. L51675 Effects of Weldment Property Variations on the Behavior of Line Pipe. Chantilly, Virginia: Pipeline Research Council International, Inc. (PRCI), January 1993. http://dx.doi.org/10.55274/r0010133.

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A steel weldment is a composite of zones or layers of different microstructures that possess different material properties. The zones include the base metal (or the sections of pipe), the weld metal, and a complex heat-affected zone (HAZ) of base metal that has been exposed to a variety of thermal cycles resulting in varying microstructures. The material properties of primary concern with respect to the mechanical behavior of the pipe are the stress-strain response (the constitutive properties) and the resistance to initiation and propagation of cracks or tears in the presence of a crack, notch, or other stress concentrator (the fracture toughness properties). Most of the experimental data on the behavior of welds with significant discontinuities were obtained from test specimens with surface or through-thickness notches or cracks. These data typically show an increase in load or nominal ductility for overmatched welds and a decrease in load or nominal ductility for undermatched welds. However, there are cases where the presence of a soft zone may enhance the nominal ductility and cases where overmatched welds will decrease the nominal ductility. The latter is especially likely in a girth weld with a circumferential crack in the HAZ.
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Madrzykowski, aniel, Craig Weinschenk, and Joseph Willi. Exposing Fire Service Hose in a Flashover Chamber. UL's Fire Safety Research Institute, April 2018. http://dx.doi.org/10.54206/102376/tkog7594.

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At the request of the Fire Department City of New York (FDNY), UL’s Fire Safety Research Institute (FSRI) instrumented and documented a series of 12 thermal exposure hose experiments that were conducted in the burn compartment of an FDNY flashover simulator. The main objective of the experiments was to observe the performance of fire hoses exposed to the heat flux from flaming hot gas layer conditions above the hose. FDNY collected a variety of hose types that represented a cross section of commercially available materials and construction methods. The thermal exposures generated in the burn compartment were measured. The fire experiments were stopped once the hose being examined began to lose water through the wall of the hose. All of the hoses lost water through their wall, although the size of the holes and the amount of water leakage varied. While the burn compartment provided a “fire room environment” and different types of hose failures were demonstrated, the thermal exposure within the compartment was not demonstrated to be repeatable. Therefore it is not possible to develop a comparable rank or rating of the fire resistance of these hoses from this series of experiments.
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