Abstract
AbstractPre-martensitic phenomena, also called martensite precursor effects, have been known for decades while yet remain outstanding issues. This paper addresses pre-martensitic phenomena from new theoretical and experimental perspectives. A statistical mechanics-based Grüneisen-type phonon theory is developed. On the basis of deformation-dependent incompletely softened low-energy phonons, the theory predicts a lattice instability and pre-martensitic transition into elastic-phonon domains via ‘phonon spinodal decomposition.’ The phase transition lifts phonon degeneracy in cubic crystal and has a nature of phonon pseudo-Jahn–Teller lattice instability. The theory and notion of phonon domains consistently explain the ubiquitous pre-martensitic anomalies as natural consequences of incomplete phonon softening. The phonon domains are characterised by broken dynamic symmetry of lattice vibrations and deform through internal phonon relaxation in response to stress (a particular case of Le Chatelier’s principle), leading to previously unexplored new domain phenomenon. Experimental evidence of phonon domains is obtained by in situ three-dimensional phonon diffuse scattering and Bragg reflection using high-energy synchrotron X-ray single-crystal diffraction, which observes exotic domain phenomenon fundamentally different from usual ferroelastic domain switching phenomenon. In light of the theory and experimental evidence of phonon domains and their roles in pre-martensitic phenomena, currently existing alternative opinions on martensitic precursor phenomena are revisited.
Highlights
Pre-martensitic phenomena, called martensite precursor effects, are long standing critical issues of martensitic phase transformation that have not been fully understood
The high-symmetry parent phase usually undergoes incomplete phonon softening in a wide temperature range 10–100 K above the martensite start temperature,4–6 which is accompanied by various anomalies that are unexpected in cubic phase
Martensitic precursor phenomena have been known for decades, while the puzzling anomalies are unexpected for cubic austenite phases above martensite start temperatures
Summary
Pre-martensitic phenomena, called martensite precursor effects, are long standing critical issues of martensitic phase transformation that have not been fully understood. Theoretical predictions of phonon domains and their behaviours in austenite and pre-martensite phases are critically tested by specially designed experiments of in situ 3D phonon diffuse scattering and Bragg reflection using high-energy synchrotron X-ray single-crystal diffraction,18,38,39 which provide experimental evidence of phonon domains.
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