[論文レビュー] A variational formulation of Griffith phase-field fracture with material strength
本論文は、材料強度を伴う Griffith phase-field fracture を変分問題として再構成し、変位と phase-field の組が2つの別個の汎関数を最小化することを示す。これは古典的な phase-field fracture における交互最小化になぞらえられる。
In this expository Note, it is shown that the Griffith phase-field theory of fracture accounting for material strength originally introduced by Kumar, Francfort, and Lopez-Pamies (J Mech Phys Solids 112, 523--551, 2018) in the form of PDEs can be recast as a variational theory. In particular, the solution pair $( extbf{u},v)$ defined by the PDEs for the displacement field $ extbf{u}$ and the phase field $v$ is shown to correspond to the fields that minimize separately two different functionals, much like the solution pair $( extbf{u},v)$ defined by the original phase-field theory of fracture without material strength implemented in terms of alternating minimization. The merits of formulating a complete theory of fracture nucleation and propagation via such a variational approach -- in terms of the minimization of two different functionals -- are discussed.
研究の動機と目的
- elasticity, strength, and critical energy release rate を考慮した complete macroscopic fracture theory を動機づける。
- 2つの別個のエネルギー汎関数から結合された偏微分方程式系が導出できることを示す。
- phase-field fracture における交互最小化と整合する変分原理を確立する。
- mono-tonic, quasistatic loading の下での破壊核形成と伝播への含意を議論する。
- Griffith ベースの既存の破壊理論とstrength-inclusive破壊理論との関連性を強調する。
提案手法
- Define a deformation energy functional E_d^ε(u;v) whose Euler-Lagrange equations recover the momentum balance equations.
- Define a fracture energy functional E_f^ε(v;u) whose Euler-Lagrange equations reproduce the phase-field evolution with strength considerations.
- Show that for fixed v, u minimizes E_d^ε over admissible displacements; for fixed u, v minimizes E_f^ε over admissible phase fields.
- Describe the driving force c_e(X,t) and coefficient δ^ε that incorporate the Drucker-Prager strength surface into E_f^ε.
- Explain the regularization via ε and the irreversibility constraint v ∈ [0,1], v ≤ v_{k-1}.
- Explain the alternating minimization interpretation and its relation to original phase-field fracture theory.
実験結果
リサーチクエスチョン
- RQ1 Can fracture nucleation and propagation in brittle solids be captured by a variational two-functional framework that includes elasticity, strength, and fracture energy?
- RQ2 How does incorporating the Drucker-Prager strength surface affect the phase-field evolution and fracture onset in the variational setting?
- RQ3 Is the phase-field fracture with material strength equivalent, at ε → 0, to a Griffith-type variational formulation accounting for strength?
- RQ4 What are the mathematical and physical implications of viewing the standard phase-field approach as a special case without strength?
主な発見
- The PDE system for displacement and phase-field can be interpreted as the Euler-Lagrange equations of two separate functionals.
- The deformation energy functional determines body deformation under elastostatic equilibrium.
- The fracture functional governs nucleation and growth of cracks by balancing elastic energy, strength, and fracture energy.
- The framework unifies strength-inclusive fracture with classical Griffith theory through a variational lens.
- For uniform loading, fracture nucleation aligns with violations of the strength surface, and large-crack propagation follows Griffith-like criteria when strength is overcome.
- The approach remains compatible with alternating minimization and clarifies the role of each energy term in fracture dynamics.
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