The software developers offer a fully functional free trial of QUICKSURFACE. This allows you to evaluate the tool on your specific hardware, test the user interface, and complete short-term proof-of-concept projects without financial commitment. Subscription and Tiered Pricing
: Students and educators can frequently access deeply discounted versions.
QSC is an approximate method. It does not rigorously satisfy the equilibrium equations inside the volume during the fracture process. Consequently, it is not suitable for safety-critical engineering certifications where precise stress intensity factors are required. Furthermore, the current implementation handles branching heuristically; complex multi-branching events may lack the physical fidelity of Phase-Field methods. quicksurface crack
: Rebuilding damaged tools, molds, or missing parts from physical scan data. Hybrid Modeling
If you can see light through the mesh in your 3D viewer, you cannot create a solid CAD model. Fix the crack first. The software developers offer a fully functional free
Using cracked software in a commercial environment carries significant legal and professional liabilities:
For users of the powerful reverse engineering software QuickSurface (formerly Geomagic for SolidWorks), the term "crack" refers to more than just a hole in a mesh. It describes a specific type of topological error where adjacent triangles in a mesh fail to share common edges, creating a slit or gap that prevents the software from generating a smooth, watertight NURBS surface. QSC is an approximate method
The realistic and efficient generation of fracture patterns remains a significant challenge in computational mechanics, computer graphics, and geological modeling. Traditional methods, such as the Finite Element Method (FEM) or Boundary Element Method (BEM), while accurate, often suffer from prohibitive computational costs when simulating complex 3D crack propagation in real-time. This paper introduces "QuickSurface Crack" (QSC), a novel hybrid algorithm designed to bridge the gap between physical accuracy and computational efficiency. By decoupling the stress analysis from the geometric representation of the fracture, QSC utilizes a dynamic surface tessellation approach coupled with a rapid stress-lookup heuristic. We demonstrate that QSC reduces computation time by up to 85% compared to standard FEM-based fracture simulations while maintaining visual and structural fidelity suitable for engineering prototypes and interactive media. The method is particularly adept at handling heterogeneous materials where crack paths are influenced by internal inclusions and voids.
The Discrete Element Method (DEM) models materials as assemblies of particles bonded together. While excellent for fragmentation, DEM is computationally heavy due to the vast number of contacts. Peridynamics, a non-local theory, offers a robust framework for discontinuities but faces similar computational hurdles regarding neighborhood searches.
QUICKSURFACE is professional software used by engineers and designers to convert 3D scan data (meshes) into usable CAD models. It provides tools for:
Preventing the "quick" formation of surface cracks is almost always cheaper and easier than repairing them. In construction, the strategies focus on mitigating rapid moisture loss.