The model need not be entirely sealed, nor perfectly joined. Hydrostatics and stability are computed using the surface mesh, or can be computed for a mesh object. Three-view lines plans and offset tables can be automatically generated from your model. With the OrcaMove command, control points can easily be placed at exact locations, and sections and hydrostatics update in real-time as you modify the hull surface. Easily define station, buttock, and waterline locations in your hull, and watch them change in real-time as you modify the hull surface. With the Orca3D plug-in, you can conceptualize, model, and analyze your design in a single environment, without the tedious and error-prone task of transferring your design from one program to another, or the need to learn a new user-interface.īegin with your own surface model, or instantly create a hull using one of the Hull Assistants. Building on Rhino's powerful 3D modeling capabilities, Orca3D provides marine-specific tools for hull design and fairing, hydrostatics and intact stability, resistance and power prediction, and weight/cost tracking. Development is active and on-going, and support and incremental updates are free.
Orca3D is a totally new program written using the latest development tools, and comes with first rate technical support. Orca3D Developed and supported by a team of naval architects, Orca3D represents the latest thinking in marine plug-ins for Rhino.
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