All source files are provided in the supplementary material (GitHub repository github.com/YourGroup/2DPhaseFieldCrack ). 4.1. Benchmark 1 – Single‑Edge Notched Tension (SENT) Geometry : rectangular plate (L=1.0) m, (H=0.5) m, notch length (a_0=0.2) m. Material : (E=30) GPa, (\nu=0.2), (G_c=2.7) kJ/m(^2). Parameters : (\ell = 2.5,h_\min) (where (h_\min) is the smallest element size after refinement).
The manuscript follows the conventional structure (Title, Abstract, Keywords, etc.) and includes all the essential elements (governing equations, numerical algorithm, validation, results, discussion, and references). Feel free to copy the LaTeX source into your favourite editor (Overleaf, TeXShop, etc.) and adapt the figures, tables, or code snippets to your own data. Authors : First Author ¹, Second Author ², Third Author ³ ¹ Department of Mechanical Engineering, University A, City, Country. ² Institute of Applied Mathematics, University B, City, Country. ³ Materials Science Division, Research Center C, City, Country. Working Model 2d Crack-
The arc‑length parameter is updated each load step, ensuring a smooth equilibrium path through post‑peak regimes. | Component | Tool / Library | |-----------|----------------| | FEM core | deal.II (v9.5) | | Linear solver | PETSc (GMRES + ILU) | | Non‑linear solver | Newton‑Raphson with line‑search | | Mesh adaptivity | p4est (parallel refinement) | | Post‑processing | ParaView (VTK output) | All source files are provided in the supplementary
: Phase‑field fracture, 2‑D crack propagation, brittle fracture, finite‑element method, variational formulation, adaptive mesh refinement. 1. Introduction Fracture in brittle materials is traditionally modelled by linear‑elastic fracture mechanics (LEFM) , which relies on singular stress fields and explicit tracking of crack fronts. While LEFM provides elegant analytical solutions for simple geometries, it becomes cumbersome for complex crack nucleation, branching, or interaction. Over the past two decades, phase‑field models of fracture have emerged as a powerful alternative because they regularise the sharp crack interface by a diffuse scalar field, thereby avoiding explicit geometry handling and naturally satisfying the Griffith criterion. Material : (E=30) GPa, (\nu=0
[ \psi^+(\boldsymbol\varepsilon) ;\rightarrow; H(\mathbfx) . \tag4 ] 3.1. Finite‑Element Discretisation Both fields are approximated using quadratic Lagrange shape functions on an unstructured triangular mesh: