Development of a High Chromium Ni-Base Filler Metal Resistant to Ductility Dip Cracking and Solidification Cracking

Hope, Adam T., Hope

30 August 2016

No description available.

Materials Science

Engineering

Weldability

Solidification Cracking

Ductility Dip Cracking

Alloy Design

Wetting

Eutectics

Nickel-based

Desenvolvimento de teste in-situ de deformação a alta temperatura no MEV e sua aplicação no estudo do fenomeno de fratura por queda de ductilidade em ligas de niquel / Development of SEM in-situ high temperature-deformation test and its application to the study to the study of ductility dip cracking phenomemon on Ni-base alloys

Torres Lopez, Edwar Andres

25 February 2008

Orientadores: Antonio Jose Ramirez, Rubens Caram Junior / Dissertação (mestrado) - Universidade Estadual de Campinas, Faculdade de Engenharia Mecanica / Made available in DSpace on 2018-08-11T13:06:54Z (GMT). No. of bitstreams: 1 TorresLopez_EdwarAndres_M.pdf: 39783627 bytes, checksum: 03310e12f2969671a1edcad6da907e3b (MD5) Previous issue date: 2008 / Resumo: Foi desenvolvido um experimento para estudo in-situ dos processos de deformação a alta temperatura no interior do microscópio eletrônico de varredura, permitindo assim o estudo do fenômeno de trincamento a alta temperatura, denominado fratura por queda de ductilidade. Este experimento teve como finalidade o estudo específico das ligas de níquel AWS A5.14 ERNiCrFe-7 e ERNiCr-3AWS empregadas como metal de aporte para a soldagem de ligas de Ni. Instrumentação cientifica dedicada foi desenvolvida e modificada de modo a superar os desafios impostos pelas condições experimentais adversas associadas as elevadas temperaturas necessárias, à compatibilização do experimento com o nível de vácuo necessário na câmera do microscópio e finalmente, à estabilidade mecânica necessária para o acompanhamento do processo de deformação em escala micrométrica juntamente com os processos de aquecimento e de aplicação de forças elevadas. Utilizando esta instrumentação foram definidas as condições e procedimentos adequados para o acompanhamento do processo de deformação das ligas de Ni AWS A5.14 ERNiCrFe-7 e ERNiCr-3 em temperaturas entre 700 e 1000 °C, de forma a estudar as condições de inicio da fratura por queda de ductilidade nestes materiais. Porém, a instrumentação desenvolvida permite não apenas estudar o fenômeno de fratura por queda de ductilidade e avaliar o desempenho de ligas experimentais, mas também o estudo tanto qualitativo como quantitativo de diversos outros fenômenos de fratura e transformação de fase / Abstract: An in-situ high temperature deformation experiment was developed and adapted be performed within the vacuum chamber of a scanning electron microscope in order to study the high temperature cracking phenomenon known as ductility-dip cracking. This experiment was specifically applied to the study of Ni-base alloys AWS A5.14 ERNiCrFe-7 e ERNiCr-3, which are commonly used as filler metal to weld Ni- and Fe- based alloys. Dedicated scientific instrumentation was developed and modified to overcome the challenges imposed by the severe experimental conditions as elevated temperatures and forces, the compatibleness with the microscope vacuum chamber, and the required mechanical stability to track deformation processes at the micro scale. Using this instrumentation were defined and optimized the conditions to study the deformation of Ni-base alloys AWS A5.14 ERNiCrFe-7 e ERNiCr-3 alloys between 700 and 1000 °C and therefore, helps to elucidate the causes of ductility-dip cracking phenomenon . However, the developed instrumentation is a powerful tool to perform several other qualitative and quantitative studies of deformation, cracking phenomena and phase transformations in different materials / Mestrado / Materiais e Processos de Fabricação / Mestre em Engenharia Mecânica

Microscopia eletrônica de varredura

Metais - Deformação

Ligas de niquel

Metais - Fratura

In-situ test

Scanning electron microscopy - SEM

Ni-base alloys

Ductility-dip cracking-DDC

Investigation of Weldability in High-Cr Ni-base Filler Metals

Luskin, Timothy Clark

24 July 2013

No description available.

Materials Science

Metallurgy

weld overlay

nickel

dissimilar metal weld

inconel

weld cracking

solidification cracking

ductility dip cracking

cast pin tear test

weldability testing

Optimization and Application of the Strain-To-Fracture Test for Studying Ductility-Dip Cracking in Ni-base Alloys

Kreuter, Verner C., V

20 October 2015

No description available.

Metallurgy

Ductility Dip Cracking

Nickel Base Alloys

Inconel 690

Inconel 600

Inconel 625

Nuclear Power Plants

FM 52M

Strain to Fracture Test

STF Optimization

Intermediate temperature grain boundary embrittlement in nickel-base weld metals

Nissley, Nathan E.

22 September 2006

No description available.

Ductility-dip cracking

DDC

Nickel

Welding

Ductility

Recrystallization

Particle stimulated nucleation

Carbide precipitation

Grain boundaries

Migrated grain boundaries

Intermediate temperature embrittlement

Strain-to-fracture

STF

Gleeble

Fille

An investigation of the elevated temperature cracking susceptibility of alloy C-22 weld-metal

Gallagher, Morgan Leo

07 January 2008

No description available.

Alloy C-22

Corrosion Resistant Alloys

Yucca Mountain Project

Weldability

Solidification Cracking

Ductility Dip Cracking

Varestraint Test

Strain to Fracture Test

Hot Ductility Test

Development of a chromium-free consumable for joining stainless steel

Sowards, Jeffrey William

26 June 2009

No description available.

Engineering

Metallurgy

stainless steel

monel

Ni-Cu

dissimilar welding

shielded metal arc welding

SMAW

weldability

solidification cracking

ductility dip cracking

liquation cracking

welding fume

hexavalent chromium

Quantification of the Susceptibility to Ductility-Dip Cracking in FCC Alloys

Luther, Samuel James

29 September 2022

No description available.

Metallurgy

Materials Science

Engineering

Nickel-based alloys

weldability

ductility-dip cracking

FCC alloys

austenitic alloys

ICME

thermal faceting

FEA modeling

imposed mechanical energy

metallurgy

elevated temperature embrittlement

Investigation of Ductility Dip at 1000˚C in Alloy 617

Sjöström, Julia, Åkesson, Helena

January 2017

Alloy 617 displays a ductility dip during straining at exactly 1000˚C, leading to brittle fracture. A sudden decrease in ductility appearing during Gleeble hot ductility tests of Ni-based superalloys is a well-known phenomenon, while its cause is unknown. Many mechanisms have been established as possible contributors to the issue, and in later years not one, but the simultaneous presence of several of these mechanisms were confirmed as the cause. The ductility dip leads to solid state cracking and a specific solid state cracking phenomenon known as ductility dip cracking is specifically common in Ni-based superalloys. Ductility dip cracking is identified by intergranular cracks and the occurrence of specific precipitates, among other things. This work investigates the possibility that the decreased ductility is due to ductility dip cracking. Furthermore, other possible explanations are investigated. Visual examination was conducted through LOM, SEM and chemical analysis using EDS technique. Combined with thermodynamic calculations, the existence of Cr-rich M23C6 carbides, Ti(N,C) and Mo-rich particles, most likely M3B2, were confirmed. Further, it is established that the ductility dip is related to the lack of dynamic recrystallization at 1000˚C. It is not confirmed that the ductility dip in alloy 617 is due to ductility dip cracking. / Nickelbaslegeringen 617 uppvisar en minskning i duktilitet under Gleeble-dragprovning vid exakt 1000˚C vilket leder till sprött brott. En plötslig sänkning av duktiliteten vid varmdragning av Ni-baserade superlegeringar är ett välkänt fenomen, dock är orsaken inte fastställd. Många mekanismer har bekräftats som bidrag till problemet och under de senaste åren har den simultana närvaron av fler av dessa mekanismer bekräftats som orsaken. Sänkningen i duktilitet leder till sprickbildning i fast fas och en specifik typ av sprickbildning känd som ”ductility dip cracking” är speciellt förekommande i Ni-bas legeringar. Denna identifieras bland annat genom intergranulära sprickor och närvaron av specifika utskiljningar. Detta arbete undersöker möjligheten att duktilitetssänkningen beror på  ”ductility dip cracking”. Dessutom undersöks fler tänkbara förklaringar. Visuell granskning genomfördes via LOM och SEM och analys av sammansättningar via EDS-analys. I kombination med termodynamiska simuleringar blev förekomsten av Cr-rika M23C6 karbider, Ti(N,C) och Mo-rika partiklar, troligtvis M3B2, bekräftad. Fortsatt är det bekräftat att duktilitetssänkningen är relaterat till avsaknaden av rekristallisation vid 1000˚C. Det är inte bekräftat i detta arbete att duktilitetssänkningen i legering 617 beror av ”ductility dip cracking”.

Ductility dip cracking

Ni-based alloy

tortuous grain boundaries

intergranular precipitates

grain boundary migration

superalloy

M23C6

Ti(N

C)

solid state cracking

dynamic recrystallization

Metallurgy and Metallic Materials

Metallurgi och metalliska material