Effect of Mn on precipitation behaviour of NiAl phase in Fe–NiAl steels

Sub-zero treatment of Vanadis 6 steel resulted in a considerable reduction of retained austenite amount, refinement of martensite, enhancement of population density of carbides, and modification of precipitation behaviour. Tempering of sub-zero-treated steel led to a decrease in population density of carbides, to a further reduction of retained austenite, and to precipitation of M3C carbides, while M7C3 carbides precipitated only in the case of conventionally quenched steel. Complementary effects of these microstructural variations resulted in more noble behaviour of sub-zero-treated steel compared to the conventionally room-quenched one, and to clear inhibition of the corrosion rate at the same time.

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Influence of Different Annealing Atmospheres on the Mechanical Properties of Freestanding MCrAlY Bond Coats Investigated by Micro-Tensile Creep Tests

Metals ◽

10.3390/met9060692 ◽

2019 ◽

Vol 9 (6) ◽

pp. 692 ◽

Cited By ~ 2

Author(s):

Sven Giese ◽

Steffen Neumeier ◽

Jan Bergholz ◽

Dmitry Naumenko ◽

Willem J. Quadakkers ◽

...

Keyword(s):

Mechanical Properties ◽

Creep Strength ◽

Bond Coat ◽

Oxide Dispersion Strengthened ◽

Tensile Creep ◽

Creep Tests ◽

Bond Coats ◽

Nial Phase ◽

Lower Strain ◽

Plasma Sprayed

The mechanical properties of low-pressure plasma sprayed (LPPS) MCrAlY (M = Ni, Co) bond coats, Amdry 386, Amdry 9954 and oxide dispersion strengthened (ODS) Amdry 9954 (named Amdry 9954 + ODS) were investigated after annealing in three atmospheres: Ar–O2, Ar–H2O, and Ar–H2–H2O. Freestanding bond coats were investigated to avoid any influence from the substrate. Miniaturized cylindrical tensile specimens were produced by a special grinding process and then tested in a thermomechanical analyzer (TMA) within a temperature range of 900–950 °C. Grain size and phase fraction of all bond coats were investigated by EBSD before testing and no difference in microstructure was revealed due to annealing in various atmospheres. The influence of annealing in different atmospheres on the creep strength was not very pronounced for the Co-based bond coats Amdry 9954 and Amdry 9954 + ODS in the tested conditions. The ODS bond coats revealed significantly higher creep strength but a lower strain to failure than the ODS-free Amdry 9954. The Ni-based bond coat Amdry 386 showed higher creep strength than Amdry 9954 due to the higher fraction of the β-NiAl phase. Additionally, its creep properties at 900 °C were much more affected by annealing in different atmospheres. The bond coat Amdry 386 annealed in an Ar–H2O atmosphere showed a significantly lower creep rate than the bond coat annealed in Ar–O2 and Ar–H2–H2O atmospheres.

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Optimisation of Nickel Aluminising by CVD

Defect and Diffusion Forum ◽

10.4028/www.scientific.net/ddf.323-325.367 ◽

2012 ◽

Vol 323-325 ◽

pp. 367-372 ◽

Cited By ~ 1

Author(s):

Patrick J. Masset ◽

Agnieszka Bogusz ◽

Jan Sieniawski ◽

Bartek Wierzba ◽

Katarzyna Tkacz-Śmiech

Keyword(s):

Substrate Surface ◽

Chemical Vapour ◽

Aluminium Chloride ◽

Aluminium Content ◽

Surface Boundary ◽

Essential Information ◽

Nial Phase ◽

Partial Pressures ◽

State Diffusion ◽

Surface Boundary Condition

Results Concerning Nickel Aluminisation with Application of Chemical Vapour Deposition Method Are Presented. Two-Step Processing under Investigation Consists of Al Chloride Formation in the Primary Vessel and Al Deposition in the Secondary One. the Initial Gas Stream Is Composed of Hcl Dissolved in H2at Various Ratios. it Was Shown that the Choice of the [HCl]/[H2] Ratio and the Determination of the Optimum Temperature to Produce Most Preferential β-Nial Phase May Be Done with the Use of Thermodynamic Calculations. the Results Obtained with Application of Factsage Program Confirm Essential Influence of both Initial [HCl]/[H2] Ratio (in the Range between 0,05 and 100) and the Temperature in the Second Vessel (1123 K – 1323 K) on Aluminium Chloride Partial Pressures and Hence Aluminium Content in its Gaseous Donors and at the Substrate Surface (boundary Condition for Interdiffusion in Ni-Al System). it Was Confirmed that β-Nial Growth Is Favoured at Low [HCl]/[H2] Ratios and High Temperatures for which Alcl and AlCl2Partial Pressures Increase with Respect to that of AlCl3. the Thermodynamic Predictions Remain in Agreement with CVD Experiments. the Presented Thermodynamic Data May Be Used as a Source of Essential Information for Designing Further Experiments in this Field as Well as for Modelling of Solid-State Diffusion in Ni-Al System.

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Effect of cooling rate on the transformation characteristics and precipitation behaviour of carbides in AISI M42 high-speed steel

Ironmaking & Steelmaking ◽

10.1080/03019233.2018.1461593 ◽

2018 ◽

Vol 46 (7) ◽

pp. 698-704 ◽

Cited By ~ 5

Author(s):

Yiwa Luo ◽

Hanjie Guo ◽

Jing Guo

Keyword(s):

Cooling Rate ◽

High Speed ◽

High Speed Steel ◽

Precipitation Behaviour

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Cementite Precipitation of a H21 Tool Steel after Hot Compression and Double Temper

Advanced Materials Research ◽

10.4028/www.scientific.net/amr.1043.154 ◽

2014 ◽

Vol 1043 ◽

pp. 154-158

Author(s):

Meilinda Nurbanasari ◽

Panos Tsakiropoulos ◽

Eric J. Palmiere

Keyword(s):

High Temperature ◽

Applied Stress ◽

Tool Steel ◽

Hot Deformation ◽

Lower Bainite ◽

Precipitation Behavior ◽

Transformation Mechanism ◽

Tempered Martensite ◽

Bainite Transformation ◽

Precipitation Behaviour

The cementite precipitation behavior in the martensite and banite of the H21 tool steel under high temperature axisymmetric compression test and double temper was investigated. The main purpose on this work is to develop a better understanding regarding the transformation mechanism of bainite and martensite in a H21 tool steel. The selected deformation temperatures were 1100 oC and 1000 oC and the double temper process was carried out at 650 oC for 1 hour respectively. The results showed that the cementite was sensitive to the stress. The applied stress has affected the Fe3C precipitation behaviour by decreasing the number of variants carbides in tempered martensite and decreasing the number of a single variant carbides in tempered lower bainite. The results were in agreement with a displacive mechanism of martensite and bainite transformation. It was also found that hot deformation temperatures selected in this work have the same contribution in decreasing number of variant carbides in tempered martensite and decreasing number of single variant carbides occurred in tempered lower bainite.

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Effect of Re content on precipitation behaviour of secondary phases in a single-crystal Ni-based superalloy during high-temperature thermal exposure

Materials at High Temperatures ◽

10.1080/09603409.2017.1367155 ◽

2017 ◽

Vol 35 (4) ◽

pp. 355-362 ◽

Cited By ~ 2

Author(s):

Liu Lirong ◽

Chen Maokai ◽

Tian Sugui ◽

Zhang Zhongyuan ◽

Jin Tao

Keyword(s):

High Temperature ◽

Single Crystal ◽

Thermal Exposure ◽

Secondary Phases ◽

Precipitation Behaviour

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Changes in the structure of a thermal protective aluminum-nickel coating under the influence of a single thermal laser pulse

Physics and Chemistry of Materials Treatment ◽

10.30791/0015-3214-2021-4-25-30 ◽

2021 ◽

Vol 4 ◽

pp. 25-30

Author(s):

O. B. Berdnik ◽

◽

P. Yu. Kikin ◽

V. N. Perevezentsev ◽

E.N. Razov ◽

...

Keyword(s):

Solid Solution ◽

Heat Flux ◽

Phase Composition ◽

Nickel Coating ◽

Microstructural Analysis ◽

Radiation Energy ◽

Heat Fluxes ◽

Initial State ◽

Nial Phase ◽

Ni3al Phase

The regularities of changes in the structure and phase composition of the thermal protective aluminide-nickel coating (Ni — 45 %; Al — 14 %; Co — 22 %; Cr — 18.9 %; Fe — 0.15 %; Nb — 0.14 %; Y — 0.09 %; Ca — 0.06 %; Mn — 0.01 %; C — 0.15 %; Si — 0.15 %; S — 0.006 %) after exposure to short-term pulsed heat fluxes of various power, created by the radiation of a pulse-periodic laser LRS-150A with a radiation wavelength λ = 1.06 µm and a pulse duration τ = 12·10–3 s. The radiation energy was E = 5, 10, and 15 J. Microstructural analysis and the elemental composition of the resulting coating were carried out as well as analysis of the phase composition. X-ray microanalysis of the coating was also carried out. In the initial state and after irradiation of the coating with a heat flux of power P = 7·103 W/cm2, light microregions are observed in the micrographs of the surface. These regions do not have clearly defined external boundaries and consist of the NiAl phase and a small amount of the Ni3Al phase with the presence of inclusions of particles containing a solid solution of Ni – Co – Cr. After irradiation of the coating with heat fluxes of higher power (P = 1.7·104 W/cm2 and P = 2.2·104 W/cm2), large convex formations appeared on its surface, consisting mainly of Ni3Al and NiAl phases. On micrographs of the surface, they appear as white areas with well-defined outer boundaries. The content of the Ni3Al phase in them in comparison with the initial state increased, and the content of the NiAl phase decreased, while the particles of inclusions of Ni, Co, and Cr disappeared. It can be assumed that an increase in the Ni3Al content is associated with the dissolution of particles of a solid solution of Ni – Co and Cr in the melt and the subsequent diffusion of nickel into the NiAl phase. When exposed to a heat flux of power P = 2.2·104 W/cm2, microcracks appear on the areas of the coating surface covered with aluminum oxide.

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Solid state reactions between Ni3Al and SiC

Journal of Materials Research ◽

10.1557/jmr.1990.1985 ◽

1990 ◽

Vol 5 (9) ◽

pp. 1985-1994 ◽

Cited By ~ 41

Author(s):

T. C. Chou ◽

T. G. Nieh

Keyword(s):

Growth Rate ◽

Solid State ◽

Solid State Reactions ◽

Growth Rate Constant ◽

Cross Sectional ◽

Rate Limiting Step ◽

Nial Phase ◽

Reaction Zones ◽

Carbon Precipitation ◽

Terminal Component

Solid state reactions between SiC and Ni3Al were studied at 1000°C for different times. Multi-reaction-layers were generated in the interdiffusion zone. Cross-sectional views of the reaction zones show the presence of three distinguishable layers. The Ni3Al terminal component is followed by NiAl, Ni5.4Al1Si2, Ni(5.4−x)Al1Si2 + C layers, and the SiC terminal component. The Ni5.4Al1Si2 layer shows carbon precipitation free, while modulated carbon bands were formed in the Ni(5.4−x)Al1Si2 + C layer. The NiAl layer shows dramatic contrast difference with respect to the Ni3Al and Ni5.4Al1Si2 layers, and is bounded by the Ni3Al/NiAl and Ni5.4Al1Si2/NiAl phase boundaries. The kinetics of the NiAl formation is limited by diffusion, and the growth rate constant is measured to be 2 ⊠ 10−10 cm2/s. The thickness of the reaction zone on the SiC side is always thinner than that on the Ni3Al side and no parabolic growth rate is obeyed, suggesting that the decomposition of the SiC may be a rate limiting step for the SiC/Ni3Al reactions. The carbon precipitates were found to exist in either a disordered or partially ordered (graphitic) state, depending upon their locations from the SiC interface. The formation of NiAl phase is discussed based on an Al-rejection model, as a result of a prior formation of Ni–Al–Si ternary phase. A thermodynamic driving force for the SiC/Ni3Al reactions is suggested.

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Effect of stress on precipitation behaviour of 7xxx alloy during age forming process

Materials Science and Technology ◽

10.1179/1743284715y.0000000100 ◽

2015 ◽

Vol 32 (1) ◽

pp. 77-87 ◽

Cited By ~ 3

Author(s):

J. F. Chen ◽

L. C. Zou ◽

Y. L. Chen ◽

Q. Li

Keyword(s):

Forming Process ◽

Precipitation Behaviour ◽

7Xxx Alloy

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