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Modelling of strengthening mechanisms in wrought nickel-based 825 alloy subjected to solution annealing
KTH, Skolan för industriell teknik och management (ITM), Materialvetenskap. R&D, AB Sandvik Materials Technology, SE-811 81 Sandviken.ORCID-id: 0000-0003-0381-5494
R&D, AB Sandvik Materials Technology, SE-811 81 Sandviken.
KTH, Skolan för industriell teknik och management (ITM), Materialvetenskap.ORCID-id: 0000-0002-6339-4612
KTH, Skolan för industriell teknik och management (ITM), Materialvetenskap.ORCID-id: 0000-0001-9775-0382
2021 (engelsk)Inngår i: Metals, ISSN 2075-4701, Vol. 11, nr 5, s. 771-20Artikkel i tidsskrift (Fagfellevurdert) Published
Abstract [en]

Wrought nickel‐based Alloy 825 is widely used in the oil and gas industries, attributed toits high strength at temperatures up to 540 °C. However, differences in mechanical properties arisein finished components due to variations in both grain size and dislocation density. Numerous ex‐perimental studies of the strengthening mechanisms have been reported and many models havebeen developed to predict strengthening under thermomechanical processing. However, there aredebates surrounding some fundamental issues in modeling and the interpretation of experimentalobservations. Therefore, it is important to understand the evolution of strain within the materialduring the hot‐forging process. In addition, there is a lack of research around the behavior duringhot deformation and subsequent stabilization of Alloy 825. This article investigates the origin of thisstrength and considers a variety of strengthening mechanisms, resulting in a quantitative predictionof the contribution of each mechanism. The alloy is processed with a total forging strain of 0.45, 0.65,or 0.9, and subsequent annealing at a temperature of 950 °C, reflecting commercial practice. Themicrostructure after annealing is similar to that before annealing, suggesting that static recovery isdominant at this temperature. The maximum yield strength and ultimate tensile strength were348 MPa and 618 MPa, respectively, obtained after forging to a true strain of 0.9, with a ductility of40%. The majority of strengthening was attributed to grain refinement, the dislocation densities thatarise due to the large forging strain deformation, and solid solution strengthening. Precipitatestrengthening was also quantified using the Brown and Ham modification of the Orowan bowingmodel. The results of yield strength calculations are in excellent agreement with experimental data,with less than 1% difference. The interfacial energy of Ti(C,N) in the face‐centered cubic matrix of. These results can bethe current alloy has been assessed for the first time, with a value of 0.8 mJm−2used by future researchers and industry to predict the strength of Alloy 825 and similar alloys, es‐pecially after hot‐forging.

sted, utgiver, år, opplag, sider
Basel, Switzerland.: MDPI AG , 2021. Vol. 11, nr 5, s. 771-20
Emneord [en]
Alloy 825; strain level; strength properties; annealing; strengthening mechanisms
HSV kategori
Identifikatorer
URN: urn:nbn:se:kth:diva-295470DOI: 10.3390/met11050771ISI: 000662504700001Scopus ID: 2-s2.0-85105421222OAI: oai:DiVA.org:kth-295470DiVA, id: diva2:1556274
Merknad

QC 20220503

Tilgjengelig fra: 2021-05-21 Laget: 2021-05-21 Sist oppdatert: 2022-06-25bibliografisk kontrollert
Inngår i avhandling
1. Thermomechanical Processing of Nickel-Base Alloy 825
Åpne denne publikasjonen i ny fane eller vindu >>Thermomechanical Processing of Nickel-Base Alloy 825
2021 (engelsk)Doktoravhandling, med artikler (Annet vitenskapelig)
Abstract [en]

Alloy 825 material was studied using a Gleeble-3800 thermosimulatorby performing single-hot compression experiments.Optical microscopy and electron backscatter diffraction wereutilized to characterize the microstructure. Dynamicrecrystallization is not considerable in the as-cast alloy anddislocation recovery is deemed to be dominant. Based on thisfinding, the effect of adding trace amounts of alloying additionson the mechanical properties of cast alloy 825 was studied, withemphasis on whether or not dynamic recrystallization occurred.The results show that dynamic recrystallization was moreprevalent under all test conditions in samples containing a traceamount of magnesium, but not for the conventional alloy.However, alloying with trace magnesium did not lead to animprovement of the mechanical properties. Instead, processingmaps for hot forging of conventional Alloy 825 were required toidentify optimal working parameters and to achieve dynamicrecrystallization. The hot deformation behavior of cast Alloy 825was characterized by using dynamic materials modelling of hotcompression data. The results show that the maximum powerdissipation efficiency is over 35%. The highest efficiency isachieved in the temperature range of 1100 ℃ - 1250 ℃ and instrain rates in the range of 0.01 ≤ strain rate / s ≤ 0.1. The optimumprocessing parameters for good strain hardening are obtained inthe temperature range between 950 ℃ and 1100 ℃ with strainrates of 0.3 ≤ strain rate/ s ≤ 10.0. In addition, the influence of thedeformation level on the recrystallization and microstructuralchanges in Alloy 825 during hot forging operations attemperatures between 950 °C and 1200 °C was studied. Themaximum yield strength and ultimate tensile strength wereobtained after forging to achieve a true strain of 0.9 were 413 MPa and 622 MPa , respectively, with a ductility of 40%.However, Alloy 825 is often supplied as annealed bars.Therefore, the effect of the forging strain magnitude andsubsequent annealing on the microstructure, strengtheningmechanisms and room temperature mechanical properties wereinvestigated to assess the suitability of current industrialpractice. The results showed that the majority of strengtheningwas attributed to grain refinement, the dislocation densities thatarise due to the large forging strain, and due to solid solutionstrengthening. The results of calculations are in excellentagreement with experimental data, with less than 1% difference.These results can be used by future researchers and industry topredict the strength of Alloy 825 and similar alloys, especially inmaterial after a completed hot forging operation.

Abstract [sv]

denna avhandling studerades effekten av deformationsgrad pådynamisk rekristallisation av gjuten Alloy 825 genomexperiment i Gleeble-3800 termomekanisk simulator. Måletmed arbetet är att använda ljusmikroskop och EBSD för attstudera dynamisk rekristallisation i A 825 och dess effekt påmikrostrukturen. Dynamisk rekristallisation är inte betydande,men istället har en substruktur formats med lågvinkligakorngränser.Baserat på dessa resultat, studerades effekten av småmagnesiumtillsatser på de mekaniska egenskaperna av gjutenstruktur med fokus på huruvida dynamisk rekristallisation skereller inte. Resultaten visar att dynamisk rekristallisation varvanligare under alla testförhållanden i prover innehållandemagnesium, men inte i något fall av konventionell A 825.Legering med magnesium ledde emellertid inte till enförbättring av de mekaniska egenskaperna. Av denna anledningdrog man slutsatsen att en varmbearbetningskarta för smittkonventionell (magnesiumfri) A 825 krävdes för att identifieraoptimala processparametrar och uppnå dynamiskrekristallisation.Deformationen av gjuten A 825 undersöktes med hjälp av endynamisk materialmodell och data från kompressionsprover.Resultaten visar att den maximala effektöverföringen är över 35%. Den högsta verkningsgraden är vid ett temperaturintervall av1100 ℃ - 1250 ℃ och en töjningshastighet på 0.01 ≤  töjningshastighet / s ≤0.1 . De optimala varmbearbetningsparametrarna för goddeformationshärdning erhålls i temperaturområdet mellan 950℃ och 1100 °C med en töjningshastighet av 0.3 ≤  töjningshastighet/ s ≤ 10.0.Vidare undersöktes effekten av reduktionsgrad pårekristallisation och mikrostrukturutveckling vid smide inomtemperaturområde 950° C och 1200° C. Den maximala sträckochbrottgränsen erhölls efter smide till sann töjning av 0,9. Sträckgränsen var 413 MPa och brottgränsen 622 MPa, med enbrottförlängning på 40 %. Emellertid levereras materialet ofta isläckglödgat tillstånd. Därför undersöktes effekten av smidemed olika reduktionsgrad följt av mjukglödgning därhärdningsmekanismer och mekaniska egenskaper vidrumstemperatur undersöktes. Detta genomfördes för attbedöma lämpligheten av nuvarande industriell praxis.Resultaten visade att majoriteten av hårdnade tillskrevs småkorn, dislokationstäthet som uppstod på grund av den storasmides-deformationen och härdning genom fast lösning.Resultaten av beräkningarna överensstämmer medexperimentella data med mindre än 1 % skillnad. Resultaten kani framtiden användas av andra forskare och i industrin föroptimering av mekaniska egenskaperna för A 825 och liknadelegeringar.

sted, utgiver, år, opplag, sider
Stockholm, Sweden: Kungliga Tekniska högskolan, 2021. , p. 269: Kungliga Tekniska högskolan, 2021. s. 269
Serie
TRITA-ITM-AVL ; 2021:32
Emneord
Alloy 825; Cast and wrought structures; Hot compression test; Microstructural evaluation, Modelling, Yield strength, Strengthening mechanisms
HSV kategori
Forskningsprogram
Teknisk materialvetenskap
Identifikatorer
urn:nbn:se:kth:diva-295594 (URN)978-91-7873-827-4 (ISBN)
Disputas
2021-06-14, https://kth-se.zoom.us/j/68764816247, Sockholm, 10:00 (engelsk)
Opponent
Veileder
Tilgjengelig fra: 2021-05-25 Laget: 2021-05-24 Sist oppdatert: 2022-06-25bibliografisk kontrollert

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