Component ratio in a layered structure formed by the controlling wave process in a metastable austenite

Кащенко, М. П.; Chaschina, V. G.; Вихарев, Сергей Викторович

doi:10.1007/s11182-010-9330-4

Russ Phys J

2009

DOI: 10.1007/s11182-010-9330-4

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Component ratio in a layered structure formed by the controlling wave process in a metastable austenite

М. П. Кащенко

V. G. Chaschina

Сергей Викторович Вихарев

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Cited by 3 publications

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“…Thus, the existence of an analytical dependence of δ on ae -2 and t clarifies the reasons for the scatter of the values of δ upon varying the alloy composition (typical of the literature data range of values 1% ≤ δ ≤ 6%). Naturally, under constrained conditions of the stressed state of concurrent phases the observed δ should be lower than that calculated using (8). A deviation of the wave normals from the axes of symmetry would also affect the value of δ.…”

mentioning

confidence: 84%

“…Relation (8) shows that for the prescribed ae -2 ≈ 1.4372 the volumetric effect depends on t only slightly. In particular, when t varies from 1 to 1.1 (t = 1.1 is considered to be anomalously large), δ varies from 3.824 to 3.614%.…”

mentioning

confidence: 97%

“…The deformation along the direction orthogonal to the transformed plane is induced by electronic correlations that set a new symmetry of the electron density distribution [6]. These conclusions provide for a possibility of a new [7,8] description of a γ-α MP due to a fast rearrangement of the {111} γ planes. Note that in [7,8] there is an inaccuracy: in the calculations of HP the velocity along <112> γ is substituted for the velocity along <111> γ .…”

mentioning

confidence: 99%

“…The issue of orientation dependences (ODs) is extensively discussed in [5,8]. The ODs include the planes translated into each other during the fasted transformation.…”

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confidence: 99%

“…The angle φ(ae 2 ) of rotation of the reference point of axes <110> γ and <001> γ around <1 1 0> γ in the course of rearrangement of the lattice, that lost its stability, inside of the "plane" channel in the metastable surrounding austenite is prescribed by a similar [5,8] …”

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confidence: 99%

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A γ−α-martensitic transformation during the fastest rearrangement of the {110}γ planes

Chaschina

2009

Russ Phys J

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During marensitic transformations (MP) it is reasonable to identify crystals pointing out their morphological features related to each other due to the action of a single governing process. In a dynamic approach for the first time used to describe γ-α MPs in iron alloys [1, 2], a description of habitus planes (HP) seems most convenient and illustrative.Martensite is developed as plates with a low thickness-to-linear dimensions ratio and as lens-like crystallites, in whose central part (midrib) of the plate formed in the first stage of the MP is well defined. The plate thickness varies within 10 -7 −10 -6 m. The HP (phase boundary or midrib plane boundaries) possesses several (depending on composition) stable orientations. In the Fe-С and Fе-Ni systems, there exist habitus planes close to {557} γ (up to 0.6 wt. % С, up to 29% Ni),In a dynamic interpretation [1, 2], the habitus is "swept" by a moving line of intersection of overlapping fronts of wave beams travelling in the orthogonal direction and carrying plane deformation of the tension (ε 1 > 0)compression (ε 2 < 0) type, which possesses invariant planes (strain value ε 3 ≈ 0). It is critical that at low strain values (threshold strain values ε 1th , │ε 2th │ less than the elastic limit e ε ~ (10 ─4 -10 ─3 ) << 1) their ratio is close to that of the squared wave beam velocitieswhere the velocities v 2 and v 1 can be calculated using the Christoffel equation [3]. Investigation of bcc-hcp (α-ε)transformations [4,5] demonstrated that the ratio of strains, prescribed in the threshold mode, is retained during the development of finite deformations in the lattice that lost its stability. It is important that during an α−ε-transformation, plane deformation ensures the fastest transformation of the {110} α planes in {0001} ε , which is followed by plane shuffling. The symmetry of atomic arrangement gives rise to a relationship between tensile and compressive strains, which in combination with (1) provides finite values of the two transformation deformations. The deformation along the direction orthogonal to the transformed plane is induced by electronic correlations that set a new symmetry of the electron density distribution [6]. These conclusions provide for a possibility of a new [7,8] description of a γ-α MP due to a fast rearrangement of the {111} γ planes. Note that in [7,8] there is an inaccuracy: in the calculations of HP the velocity along <112> γ is substituted for the velocity along <111> γ . As a result, instead of the habitus close to {5 13 18} γ , they obtained {3 7 10} γ separated from {5 13 18} γ by 1.4º. Formation of crystals with the habitus {557} γ with the fastest rearrangement of the {1 1 0} γ planes. According to [1,2], the habitus {557} γ refers to the pairs of quasi-longitudinal waves with the wave vectors in the vicinity of the orthogonal axes of symmetry <110> γ , <001> γ . The wave velocity ratio is expressed via the elastic moduli C 11 , C 12 , C 44 of the γ-phase

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confidence: 84%

mentioning

confidence: 97%

mentioning

confidence: 99%

“…The issue of orientation dependences (ODs) is extensively discussed in [5,8]. The ODs include the planes translated into each other during the fasted transformation.…”

mentioning

confidence: 99%

mentioning

confidence: 99%

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A γ−α-martensitic transformation during the fastest rearrangement of the {110}γ planes

Chaschina

2009

Russ Phys J

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Dynamic model of supersonic martensitic crystal growth

Кащенко¹,

Чащина²

2011

Phys.-Usp.

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Dynamic model of supersonic martensitic crystal growth

Кащенко¹,

Чащина²

2011

Usp. Fiz. Nauk

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Component ratio in a layered structure formed by the controlling wave process in a metastable austenite

Cited by 3 publications

References 2 publications

A γ−α-martensitic transformation during the fastest rearrangement of the {110}γ planes

A γ−α-martensitic transformation during the fastest rearrangement of the {110}γ planes

Dynamic model of supersonic martensitic crystal growth

Dynamic model of supersonic martensitic crystal growth

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