Nickel base superalloys study for applications in chemical and pulp and paper industry

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Some of the earliest Ni-base superalloys were derived from alloys containing additions of Cr, Cu, Co and Fe, with properties superior to those of stainless steels, these single-phase Ni-base alloys exhibited good high-temperature strength and resistance to environmental degradation, like aerospace i...

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Autores principales: Ares, A.E., Schvezov, C.E.
Formato: CONF
Materias:
Characterization
Chemical and pulp and paper industry
Nickel base superalloys
Aerospace industry
Alloy steel
Chemical industry
Chemical resistance
Defects
Degradation
Electron microscopy
High resolution transmission electron microscopy
High strength alloys
High strength steel
Microstructure
Nickel
Oxidation resistance
Pulp
Scanning electron microscopy
Solidification
Superalloys
Sustainable development
Tensile strength
Transmission electron microscopy
Creep rupture strengths
Elevated temperature
High temperature mechanical properties
High temperature strength
High temperature structural material
High-temperature tensile strengths
Nickel base superalloy
Pulp and paper industry
Paper and pulp industry
Environments
High Temperature
Paper Industry
Acceso en línea:http://hdl.handle.net/20.500.12110/paper_NIS21926_v_n_p_Ares
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Biblioteca Digital - Facultad de Ciencias Exactas y Naturales (UBA) de Universidad de Buenos Aires
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spelling todo:paper_NIS21926_v_n_p_Ares2023-10-03T16:46:19Z Nickel base superalloys study for applications in chemical and pulp and paper industry Ares, A.E. Schvezov, C.E. Characterization Chemical and pulp and paper industry Nickel base superalloys Aerospace industry Alloy steel Characterization Chemical industry Chemical resistance Defects Degradation Electron microscopy High resolution transmission electron microscopy High strength alloys High strength steel Microstructure Nickel Oxidation resistance Pulp Scanning electron microscopy Solidification Superalloys Sustainable development Tensile strength Transmission electron microscopy Creep rupture strengths Elevated temperature High temperature mechanical properties High temperature strength High temperature structural material High-temperature tensile strengths Nickel base superalloy Pulp and paper industry Paper and pulp industry Degradation Environments High Temperature Paper Industry Some of the earliest Ni-base superalloys were derived from alloys containing additions of Cr, Cu, Co and Fe, with properties superior to those of stainless steels, these single-phase Ni-base alloys exhibited good high-temperature strength and resistance to environmental degradation, like aerospace industry, chemical and the pulp and paper industry. Some of the important requirements for high-temperature structural materials are high-temperature tensile strength, creep rupture strength and oxidation resistance. Significant additions of molybdenum make Ni-Cr-Mo alloys highly resistant to pitting. They retain high strength and oxidation resistance at elevated temperatures, but they are used in the chemical industry primarily for their resistance to a wide variety of aqueous corrosives. As the levels of refractory alloying additions to these Ni-base superalloys increases to enhance high-temperature mechanical properties, grain defect formation, particularly the development of porosity and freckle chains, during directional solidification has become an increasingly important problem. The conditions of solidification affect the microstructure and the properties of the alloys. The macrosegregation due to the freckles defects result from the convective flow due to the density gradient in the mushy zone. The objective of this present study is analyzing the tendency to a freckle formation using PWA 1480 nickel base superalloy, which is prone to form freckles. The macrostructure and microstructure obtained after directional solidification was characterized using visual observations (VO), optical microscopy (OM), scanning electron microscopy (SEM) and transmission electron microscopy (TEM). CONF info:eu-repo/semantics/openAccess http://creativecommons.org/licenses/by/2.5/ar http://hdl.handle.net/20.500.12110/paper_NIS21926_v_n_p_Ares
institution Universidad de Buenos Aires
institution_str I-28
repository_str R-134
collection Biblioteca Digital - Facultad de Ciencias Exactas y Naturales (UBA)
topic Characterization
Chemical and pulp and paper industry
Nickel base superalloys
Aerospace industry
Alloy steel
Characterization
Chemical industry
Chemical resistance
Defects
Degradation
Electron microscopy
High resolution transmission electron microscopy
High strength alloys
High strength steel
Microstructure
Nickel
Oxidation resistance
Pulp
Scanning electron microscopy
Solidification
Superalloys
Sustainable development
Tensile strength
Transmission electron microscopy
Creep rupture strengths
Elevated temperature
High temperature mechanical properties
High temperature strength
High temperature structural material
High-temperature tensile strengths
Nickel base superalloy
Pulp and paper industry
Paper and pulp industry
Degradation
Environments
High Temperature
Paper Industry
spellingShingle Characterization
Chemical and pulp and paper industry
Nickel base superalloys
Aerospace industry
Alloy steel
Characterization
Chemical industry
Chemical resistance
Defects
Degradation
Electron microscopy
High resolution transmission electron microscopy
High strength alloys
High strength steel
Microstructure
Nickel
Oxidation resistance
Pulp
Scanning electron microscopy
Solidification
Superalloys
Sustainable development
Tensile strength
Transmission electron microscopy
Creep rupture strengths
Elevated temperature
High temperature mechanical properties
High temperature strength
High temperature structural material
High-temperature tensile strengths
Nickel base superalloy
Pulp and paper industry
Paper and pulp industry
Degradation
Environments
High Temperature
Paper Industry
Ares, A.E.
Schvezov, C.E.
Nickel base superalloys study for applications in chemical and pulp and paper industry
topic_facet Characterization
Chemical and pulp and paper industry
Nickel base superalloys
Aerospace industry
Alloy steel
Characterization
Chemical industry
Chemical resistance
Defects
Degradation
Electron microscopy
High resolution transmission electron microscopy
High strength alloys
High strength steel
Microstructure
Nickel
Oxidation resistance
Pulp
Scanning electron microscopy
Solidification
Superalloys
Sustainable development
Tensile strength
Transmission electron microscopy
Creep rupture strengths
Elevated temperature
High temperature mechanical properties
High temperature strength
High temperature structural material
High-temperature tensile strengths
Nickel base superalloy
Pulp and paper industry
Paper and pulp industry
Degradation
Environments
High Temperature
Paper Industry
description Some of the earliest Ni-base superalloys were derived from alloys containing additions of Cr, Cu, Co and Fe, with properties superior to those of stainless steels, these single-phase Ni-base alloys exhibited good high-temperature strength and resistance to environmental degradation, like aerospace industry, chemical and the pulp and paper industry. Some of the important requirements for high-temperature structural materials are high-temperature tensile strength, creep rupture strength and oxidation resistance. Significant additions of molybdenum make Ni-Cr-Mo alloys highly resistant to pitting. They retain high strength and oxidation resistance at elevated temperatures, but they are used in the chemical industry primarily for their resistance to a wide variety of aqueous corrosives. As the levels of refractory alloying additions to these Ni-base superalloys increases to enhance high-temperature mechanical properties, grain defect formation, particularly the development of porosity and freckle chains, during directional solidification has become an increasingly important problem. The conditions of solidification affect the microstructure and the properties of the alloys. The macrosegregation due to the freckles defects result from the convective flow due to the density gradient in the mushy zone. The objective of this present study is analyzing the tendency to a freckle formation using PWA 1480 nickel base superalloy, which is prone to form freckles. The macrostructure and microstructure obtained after directional solidification was characterized using visual observations (VO), optical microscopy (OM), scanning electron microscopy (SEM) and transmission electron microscopy (TEM).
format CONF
author Ares, A.E.
Schvezov, C.E.
author_facet Ares, A.E.
Schvezov, C.E.
author_sort Ares, A.E.
title Nickel base superalloys study for applications in chemical and pulp and paper industry
title_short Nickel base superalloys study for applications in chemical and pulp and paper industry
title_full Nickel base superalloys study for applications in chemical and pulp and paper industry
title_fullStr Nickel base superalloys study for applications in chemical and pulp and paper industry
title_full_unstemmed Nickel base superalloys study for applications in chemical and pulp and paper industry
title_sort nickel base superalloys study for applications in chemical and pulp and paper industry
url http://hdl.handle.net/20.500.12110/paper_NIS21926_v_n_p_Ares
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AT schvezovce nickelbasesuperalloysstudyforapplicationsinchemicalandpulpandpaperindustry
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