Evaluation of transient liquid phase bonding between nickel-based superalloys

@article{Wu2001EvaluationOT,
  title={Evaluation of transient liquid phase bonding between nickel-based superalloys},
  author={Xiaowei Wu and R. S. Chandel and H. Li},
  journal={Journal of Materials Science},
  year={2001},
  volume={36},
  pages={1539-1546}
}
Induction brazing of Inconel 718 to Inconel X-750 using Ni-7Cr-3Fe-3.2B-4.5Si (wt.-%) foil as brazing filler metal was investigated in this paper. Brazing was conducted at the temperature range 1373–1473 K for 0–300 s in a flow argon environment. Both interfacial microstructures and mechanical properties of brazed joints were investigated to evaluate joint quality. The optical and scanning electron microscopic results indicate that good wetting existed between the brazing alloy and both Inconel… 
Microstructure Evolution During Transient Liquid Phase Bonding of Alloy 617
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Microstructural study of transient liquid phase bonded cast INCONEL 738LC superalloy
The microstructure of the transient liquid phase (TLP) bonded joint of a cast INCONEL 738LC superalloy, made with a commercial Ni-Cr-B filler alloy, Nicrobraz 150, was examined by analytical scanning
Microstructural evolution during the transient liquid-phase bonding of dissimilar nickel-based superalloys of IN738LC and NIMONIC 75
The joining of dissimilar nickel-based superalloys, i.e., IN738LC to Nimonic 75, using transient liquid-phase bonding with a Ni-15Cr-3.5B interlayer (MBF-80) was carried out at temperatures of 1080
Transient liquid phase bonding of dissimilar nickel base superalloys — wettability, microstructure and mechanical properties
Abstract The present paper investigates the wettability–microstructure–mechanical property relationships in wide gap transient liquid phase (TLP) bonds between the single crystal nickel base
MICROSTRUCTURAL EVOLUTION DURING THE TRANSIENT LIQUID-PHASE BONDING OF DISSIMILAR NICKEL-BASED SUPERALLOYS OF IN 738 LC AND NIMONIC 75 RAZVOJ MIKROSTRUKTURE MED
The joining of dissimilar nickel-based superalloys, i.e., IN738LC to Nimonic 75, using transient liquid-phase bonding with a Ni-15Cr-3.5B interlayer (MBF-80) was carried out at temperatures of 1080
Transient liquid phase bonding of Inconel 617 superalloy: effect of filler metal type and bonding time
Transient liquid phase (TLP) bonding has enormous potential to repair cracks in the gas turbine hot section parts that are made of Ni-based alloys. The experiments were carried out by BNi-1 and BNi-2
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AbstractTo decrease the completion time during transient liquid phase (TLP) bonding, an Fe basedfiller metal (1M 7), comprising MA 956 base metal containing 7%Si and l%B (wt-%), was developed to join
Transient liquid-phase bonding of ferritic oxide dispersion strengthened superalloy MA957 using a conventional nickel braze and a novel iron-base foil
It has been shown that an iron foil based on the Fe-B-Si system is a suitable material for use as a high-temperature interlayer for transient liquid-phase (TLP) bonding of ferritic oxide dispersion
A study of the transient liquid phase bonding process applied to a Ag/Cu/Ag sandwich joint
Transient liquid phase (TLP) bonding is a process currently used for joining heat resistant alloys, for example nickel- and cobalt-based superalloys. It involves the formation of a liquid layer
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The influence of base metal grain size on isothermal solidification during transient liquid-phase brazing with Ni-11 wt% P filler metal has been investigated. Single-crystal, coarse-grained and
Modelling of transient liquid phase bonding
AbstractModelling of transient liquid phase (TLP) bonding is reviewed. The outputs produced during analytical and numerical modelling are discussed in detail and compared with actual experimental
Binary alloy phase diagrams
TLDR
Binary Alloy Phase Diagrams, Second Edition, Plus Updates, on CD-ROM offers you the same high-quality, reliable data you'll find in the 3-volume print set published by ASM in 1990.