Introduction to Matrix Phase
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Matrix Phase sentence examples within transmission electron microscopy
High-resolution scanning transmission electron microscopy show the formations of second phases including body-centered cubic, Laves, and χ phases within the face-centered cubic matrix phase.
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Detailed transmission electron microscopy investigations show a two-phase microstructure consisting of the Sm5Fe17-based hard magnetic matrix phase with grain size below 200 nm and finer, below 100 nm, Fe2Ti grains.
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Matrix Phase sentence examples within 30 wt %
The PBSA/PBS matrix phase was fixed at 70/30 wt%, whereas the PLA contents were varied from 10 to 30 wt%.
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Results showed that the Inconel 718 coatings with different contents of MoSi2 were composed of the same matrix phase of γ-Ni(Cr, Fe) and Nb-rich Laves phase for 0 wt% MoSi2, Ni3Si/MoNiSi and Fe2Mo for 10 wt% MoSi2 as well as MoNiSi and MoFeSi for 30 wt% MoSi2, respectively.
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Matrix Phase sentence examples within body centered cubic
9 alloy shows a typical dendritic microstructure consisting of a body-centered cubic-structured matrix phase and a B2-structured nanoprecipitate phase.
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The microstructures of the undoped and doped RHEAs consisted of a single body-centered cubic matrix phase with homogeneously distributed Al2O3 inclusions.
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Matrix Phase sentence examples within Cubic Matrix Phase
High-resolution scanning transmission electron microscopy show the formations of second phases including body-centered cubic, Laves, and χ phases within the face-centered cubic matrix phase.
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A multi-dimensional Al-Co-Cr-Fe-Ni-Ti alloy space with a Ni3(Al, Ti)-type ordered (γ’) phase in a disordered face‐centered cubic matrix phase (γ) without detrimental intermetallic phases at 800 °C was obtained by integrating calculated-phase diagrams and a computational framework.
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Matrix Phase sentence examples within Α Matrix Phase
The dependence of grain size on annealing twin density of prior α matrix phase over a range from 1.
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The microstructure in the bottom, middle, and top regions consist of copper-rich α matrix phase, κII (globular Fe3Al) and κIII (lamellar NiAl) phases in the interdendritic regions, and nano-scale Fe-rich clusters constituting κIV precipitates dispersed homogeneously in the α-matrix.
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Matrix Phase sentence examples within Fcc Matrix Phase
With the increase of volume fraction, the lamella thickness of FCC matrix phase decreases, leading to continuous strengthening of yield properties and flow stress of stage I because of suppressed dislocation nucleation and confined dislocation motion in FCC matrix phase by the phase boundary.
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The CuNiTiNbCr films exhibited a dual-phase structure composed of FCC matrix phase and Cu-rich BCC precipitated phase.
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Matrix Phase sentence examples within Rich Matrix Phase
In situ formation of Al-W-Cu ternary phase at the grain boundaries of the Al-rich matrix phase was observed on sintering.
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In this work, the effect of nitrogen ion implantation of HIPed Stellite 6 on the improvement of CE resistance and both cobalt-rich matrix phase transformation due to nitrogen implantation and CE were stated.
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Matrix Phase sentence examples within Β Matrix Phase
The microstructure of solution-aged Ti–10V–2Fe–3Al reveals a bimodal α and β microstructure with uniformly dispersed α precipitates in the β matrix phase.
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However, when the composition of these inoculants exceeds the solubility limit in the β matrix phase, precipitates occur which probably decrease the Be and/or Al content in the matrix, thus causing a change in the phase transformation temperatures.
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Matrix Phase sentence examples within Mg Matrix Phase
Noticeably, the original Mg3RE second phase is also experienced refinement and then re-dissolved into the α-Mg matrix phase, forming a supersaturated solid solution nanostructured α-Mg phase in the gradient refined layer.
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Matrix Phase sentence examples within Ni Matrix Phase
The microstructure of vacuum hot-pressed TiNiNb alloy is uniform, mainly composed of Ti-Ni matrix phase, β-Nb phase, (Ti,Nb)2Ni hard phase and a small amount of TiC impurity phase.
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The galvanic corrosion occurred between the Cr-rich carbides and the γ-Ni matrix phase, the coatings reinforced with chromium carbide particles showed preferential selective corrosion of the γ-Ni matrix phase.
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Matrix Phase sentence examples within Bcc Matrix Phase
Heat-treated samples at 600 °C and 900 °C (873 K and 1173 K) showed an increase in yield strength and ultimate strength with a significant increase in plasticity due to the increase in volume fraction of B2 phase and softening of the BCC matrix phase.
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Matrix Phase sentence examples within Aluminium Matrix Phase
The developed composite's morphological study reveals a uniform distribution of B4C particles in the aluminium matrix phase.
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Aluminium alloys are extensively used due to their excellent mechanical and thermal properties, However the performance of these materials are enhanced with the addition of ceramic reinforcement phase into the aluminium matrix phase, forming a newer material having improved mechanical and tribological properties.
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Matrix Phase sentence examples within Metal Matrix Phase
Different material properties (metal matrix phase, particle reinforced phase) and the properties of the particle–matrix interface were comprehensively considered in the proposed FE model.
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Hardness measurement and uniaxial loading techniques were used to characterize the mechanical properties of the as-cast hybrid composites, whereas OM, XRD and SEM analysis was done to study the distribution of reinforcement within the base (AA 6061) metal matrix phase.
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Matrix Phase sentence examples within Polymer Matrix Phase
The structural properties of carbon fibre reinforced epoxy composite T-joints containing a small weight fraction (1%) of carbon nanotubes (CNTs), carbon nanofibers (CNFs) or graphene nanoplatelets (GNPs) within the polymer matrix phase is studied.
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Moreover, the rate-dependent viscoelastic and viscoplastic response of the polymer matrix phase is modelled through a phenomenological model consisting of four Kelvin-Voigt branches and a viscoplastic branch under the thermodynamics framework.
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Matrix Phase sentence examples within Single Matrix Phase
The results indicate that a single matrix phase changes into a dual-phase structure and the tensile fracture behaviors convert from brittle to plastic pattern with increasing Cu content in CoCrNiCux alloys.
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Matrix Phase sentence examples within Magnetic Matrix Phase
Detailed transmission electron microscopy investigations show a two-phase microstructure consisting of the Sm5Fe17-based hard magnetic matrix phase with grain size below 200 nm and finer, below 100 nm, Fe2Ti grains.
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Detailed transmission electron microscopy investigations show a two-phase microstructure consisting of the Sm5Fe17-based hard magnetic matrix phase with grain size below 200 nm and finer, below 100 nm, Fe2Ti grains.
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Matrix Phase sentence examples within Γ Matrix Phase
Electron back-scattered diffraction analysis identified that fine W grains were uniformly distributed in the γ matrix phase without any observable texture.
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The W grains without observable texture were homogeneously distributed in the γ matrix phase based on electron back-scattered diffraction analysis.
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Matrix Phase sentence examples within Al Matrix Phase
Quantitative examinations after HT processes (solution treatment and aging) have shown that intermetallic phases (Al2Cu and Al2CuMg) were dissolved in the α-Al matrix phase and distributed along the grain boundary.
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Matrix Phase sentence examples within matrix phase transformation
In this work, the effect of nitrogen ion implantation of HIPed Stellite 6 on the improvement of CE resistance and both cobalt-rich matrix phase transformation due to nitrogen implantation and CE were stated.
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The lack of M7C3 on Fe-9Cr ODS is possibly linked to the matrix phase transformation, not occurring in the Fe-14Cr ODS.
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Matrix Phase sentence examples within matrix phase change
The results indicate that a single matrix phase changes into a dual-phase structure and the tensile fracture behaviors convert from brittle to plastic pattern with increasing Cu content in CoCrNiCux alloys.
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In this paper, stearic acid/inorganic porous matrix phase change composites were developed to store waste heat for hot water systems.
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Matrix Phase sentence examples within matrix phase α
Specifically, downward TMF coupled with unidirectional solidification can refine and uniform the microstructure, decrease the formation of precipitation, promote the growth consistency of matrix phase α-Al growing along the crystal orientation, reduce the secondary dendrites and overlaps between dendrites, eliminate the shrinkage defects, and increase the ultimate tensile strength, yield strength, elongation and hardness from 198.
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Our results indicate that only downward travelling magnetic fields coupled with sequential solidification can obtain the refined and uniform microstructure, and promote the growth of matrix phase α-Al along the direction of temperature gradient.
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Matrix Phase sentence examples within matrix phase boundary
The processes, which govern the nature of the microcomposite zone formation, heterogenization regarding the structure of steel matrix and inclusion–matrix phase boundaries, as well as the decrease in the sizes of inclusions and their content in the surface layer, are discussed.
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Meanwhile, fine Cr3S4 precipitates form at grain boundaries and carbide-matrix phase boundaries beneath the surface.
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The sample of the heat treated but unirradiated alloy includes the β (DO3) structure as matrix phase at room temperature.
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Nevertheless, many traits that would be desirable are not true for sectorial matrices and matrix phases, and in this note we present a number of counterexamples for such traits.
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The calculated residual stress of the matrix phase (using appropriate analytical models) was found to be tensile in nature but decreasing with increase in TiC addition.
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We suggested an alternative, PLAMA (PolyLActide functionalized with diMethAcrylate), for the use as the matrix phase for the novel concept of the in situ curable bioresorbable load-bearing composite plate to reduce the limitations of conventional polyesters.
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The interrelated microstructural characteristics of the different crystalline hydride and matrix phases with the necessary orientation relationships (ORs) have been represented, such that a detailed physical understanding of fracture nucleation and propagation can be predicted for the simultaneous thermomechanical failure modes of hydride populations and the matrix.
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Composite materials comprise two (or more) constituents at the nanometre scale, in which typically, one constituent is organic and functions as the matrix phase and the other constituent is inorganic and behaves as the reinforcing phase.
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Widely used boride, carbide and nitride based ceramics are considered as the matrix phase for these ceramic composites.
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By fully utilizing the energy dissipation from phase-boundary slip, an optimized dual-phase metamaterial is designed with the maximum slip area, where every truss unit in the matrix phase is completely surrounded by reinforcement phase lattices; this material exhibits a specific energy absorption capability that is ~2.
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However, both experiments and numerical simulations demonstrate the existence of a perturbed area at the boundary between the inclusion and the matrix phase.
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5}$TiZr, shows an interesting microstructure with cuboidal precipitates of a disordered phase (${\beta}$, bcc) coherently embedded in an ordered phase (${\beta}'$, B2) matrix, unlike the conventional Ni-based superalloys where the ordered phase (${\gamma}'$, L12) is the precipitate phase and the disordered phase (${\gamma}$, fcc) is the matrix phase.
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To verify essential details of this model and identify an explanation for phase selectivity observed in weakly charged proteins, we have examined primary structures of major proteins preferring either the matrix phase or the urine phase for their contents of aspartate, glutamate, lysine and arginine; amino acids that would represent fixed charges at normal urine pH of 6–7.
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While, the substitution of Nb in the 123-matrix phase was increased with doping amount.
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The B4C and Gr reinforcement particulate existence improves the strengthening kinetics in the matrix phase at 150 °C.
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The filler substitutes replace the vacant space between fiber/matrix phase and add to the properties.
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This framework simultaneously optimizes both the material distribution in the matrix phase and the orientations of the underlying fiber reinforcements, by parameterizing matrix and fiber phases individually using two sets of design variables.
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Composites are having two phases that are reinforcing phase like fiber, particle, or flakes & matrix phase like polymers, metals, and ceramics.
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CNT as reinforcing phase and polymer as matrix phase are considered for the nanocomposites (NCs) based viscoelastic skewed shell structure.
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This work addresses the influence of the matrix phase by investigating two limiting choices based on symmetry (tetragonal/rhombohedral) and polar (relaxor/ferroelectric) nature.
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The common mechanisms responsible for differences in the elastic-plastic response are attributed to the effective and hydrostatic stress alteration in the matrix phase.
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The mechanism for improving the mechanical properties and decreasing the wear resistance of DCM samples containing CrB2 additive consists in grain refining of the matrix phases of iron and copper from 5–40 to 2–10 μm and in binding carbon released during graphitization of diamond grains into nanosized carbides Fe3C, Cr7C3, and Cr3C2.
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