Freckle Defect Formation near the Casting Interfaces of Directionally Solidified Superalloys

Hong, Jun; Ma, Dexin; Wang, Jun; Wang, Fu; Sun, Baode; Dong, Anping; Li, Fēi; Bührig–Polaczek, Andreas

doi:10.3390/ma9110929

Cited by 25 publications

(14 citation statements)

References 22 publications

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“…It is known that many types of defects in single-crystalline (SX) turbine blades are created during directional crystallization by the Bridgman technique, while the crystallization front passes through areas with abrupt changes in a geometry of the cast [1,2,3,4,5,6,7,8]. The layers of the blade root located near the plane of connection with a selector (selector-root (S–R) connection), where branching of the primary dendrite arms and lateral growth occur, are especially important for defects creation [9,10,11,12,13,14]. In these layers, the low-angle boundaries (LABs), related to the local crystal misorientation, are created [15].…”

Section: Introductionmentioning

confidence: 99%

Defect Creation in the Root of Single-Crystalline Turbine Blades Made of Ni-Based Superalloy

et al. 2019

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An analysis of the defects in the vicinity of the selector–root connection plane occurring during the creation of single-crystalline turbine blades made of CMSX-6 Ni-based superalloy was performed. X-ray diffraction topography, scanning electron microscopy, and positron annihilation lifetime spectroscopy were used. Comparing the area of undisturbed axial growth of dendrites to the area of lateral growth concluded that the low-angle boundaries-like (LAB-like) defects were created in the root as a result of unsteady-state lateral growth of some secondary dendrite arms in layers of the root located directly at the selector–root connection plane. Additional macroscopic low-angle boundaries (LABs) with higher misorientation angles were created as a result of concave curvatures of liquidus isotherm in platform-like regions near selector–root connections. Two kinds of vacancy-type defects, mono-vacancies and vacancy clusters, were determined in relation to the LABs and LAB-like defects. Only mono-vacancies appeared in the areas of undisturbed axial growth. Reasons for the creation of macroscopic LABs and LAB-like defects, and their relationships with vacancy-type defects were discussed.

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Section: Introductionmentioning

confidence: 99%

Defect Creation in the Root of Single-Crystalline Turbine Blades Made of Ni-Based Superalloy

et al. 2019

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“…Furthermore, it was found that the casting size was influential in the formation of freckle defects. Giamei et al [6] and Hong et al [17] showed that the freckle chains in the larger diameter single-crystal bars were more than those in the smaller diameter bars during the same solidification process. In addition, casting geometry can also influence freckle formation.…”

Section: Introductionmentioning

confidence: 99%

Influence of Geometric Structure and Feeding Behavior of Casting on Freckle Formation during Directional Solidification of a Ni‐Based Single‐Crystal Superalloy

Han

Jiang

Xiao

et al. 2021

Crystal Research and Technology

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Determining the effect of casting geometric structure on freckle formation is important in designing the directional solidification parameter of single-crystal superalloy castings. In this research, single-crystal castings of a third-generation nickel (Ni)-based superalloy with different thicknesses and structures are prepared by conventional Bridgman high-rate-solidification technique at withdrawal rates of 1, 3, and 6 mm min -1 . The experimental results show that the freckles in castings with expansion structures are severer than those with contraction structures at a withdrawal rate of 1 mm min -1 , and vice versa at withdrawal rates of 3 and 6 mm min -1 . It is found that the larger casting thickness tends to promote the freckle formation at the same withdrawal rate. Furthermore, a lower tendency is displayed at the withdrawal rate of 3 mm min -1 in freckle formation, whereas an increased tendency is displayed at the withdrawal rate of 6 mm min -1 . The different withdrawal rates, thicknesses, and structures of casting cause differences in cooling rate, shrinkage flow, and mushy zone morphology, which are believed to be responsible for the tendency of freckle formation.

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“…The process of making subsequent layers in a casting mould using the lost-wax process requires the use of appropriate binding agents to ensure the production of ceramic moulds with adequate parameters, i.e., high heat resistance, mechanical strength, gas permeability, dimensional stability, and required surface smoothness of the first layer [ 1 , 2 , 3 , 4 , 5 , 6 , 7 , 8 ]. The basic materials for the production of sand and ceramic casting moulds are binders, ceramic powders, and auxiliary materials, i.e., agents that limit foaming during mixing, wetting agents, pH stabilizers, and modifiers of rheological properties of the ceramic slurry [ 9 , 10 , 11 , 12 , 13 , 14 ].…”

Section: Introductionmentioning

confidence: 99%

Polymer Binders of Ceramic Nanoparticles for Precision Casting of Nickel-Based Superalloys

Wiśniewski

2021

Nanomaterials

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This study presents the general characteristics of binders used in precision casting of Nickel-based superalloys. Three groups of binders were described: resins, organic compounds, and materials containing nanoparticles in alcohol or aqueous systems. This study also includes literature reports on materials commonly used and those recently replaced by water-soluble binders, i.e., ethyl silicate (ES) and hydrolysed ethyl silicate (HES). The appearance of new and interesting solutions containing nano-alumina is described, as well as other solutions at the initial stage of scientific research, such as those containing biopolymers, biodegradable polycaprolactone (PCL), or modified starch. Special attention is paid to four binders containing nano-SiO2 intended for the first layers (Ludox AM, Ludox SK) and structural layers (EHT, Remasol) of shell moulds. Their morphology, viscosity, density, reactions, and electrokinetic potential were investigated. The binders were characterized by a high solid-phase content (>28%), viscosity, and density close to that of water (1–2 mPa·s) and good electrokinetic stability. The nanoparticles contained in the binders were approximately spherically shaped with an average particle size of 16–25 nm.

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Freckle Defect Formation near the Casting Interfaces of Directionally Solidified Superalloys

Cited by 25 publications

References 22 publications

Defect Creation in the Root of Single-Crystalline Turbine Blades Made of Ni-Based Superalloy

Defect Creation in the Root of Single-Crystalline Turbine Blades Made of Ni-Based Superalloy

Influence of Geometric Structure and Feeding Behavior of Casting on Freckle Formation during Directional Solidification of a Ni‐Based Single‐Crystal Superalloy

Polymer Binders of Ceramic Nanoparticles for Precision Casting of Nickel-Based Superalloys

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