Designed for professional naval architecture teams, Maxsurf provides capabilities for designing monohull, multihull, powered, sail, commercial, and naval vessels made from steel, aluminum, wood, and composite materials. Its integrated modules have consistent, easy-to-learn interfaces to provide immediate graphical feedback during modeling and analysis. A single parametric 3D model eliminates the need for manual file preparation and facilitates data exchange among team members and design activities. Moreover, the programming interface opens the door to customization and automation.

Maxsurf can model vessel hulls with multiple, trimmed NURBS surfaces that are modified directly by their control points. Combined with interactive surface curvature analysis and fairing capabilities, this approach aids designers in creating accurate and fair hull surfaces. When a NURBS surface model is not required, such as for a stability or performance assessment, mesh models can provide a quicker alternative for modeling existing vessels. Maxsurf can model primary structural parts that must conform to the 3D hull shape: hull plates, frames, bulkheads, decks, and longitudinal structures. Interactive graphical capabilities facilitate the layout and fairing of longitudinal stiffeners constrained to the hull surfaces. Groups of similar frames and decks may be designed parametrically, expediting their design. You define hull plates directly from NURBS surface contours to accurately calculate the expanded 2D plates.

With integrated compartment modeling and load case definition, you can rapidly analyze and verify code compliance of the vessel’s static stability. Maxsurf’s broad range of analyses include upright hydrostatics, GZ curve, floodable length, and probabilistic damage. The analyses cover intact, damaged, or partially flooded conditions. Additionally, spilling and draining from tanks, as well as conditional flooding and water on deck, may be applied. Maxsurf includes a comprehensive library of customizable stability criteria calculations and heeling arms, including many examples for specific codes. Results are presented in user-customizable tables and graphs that can be storedin a SQLite database and exported to a Microsoft Word or plain text document.

Maxsurf’s performance analysis capabilities can quickly assess vessel response to waves, passenger comfort, calm-water resistance, and sailing performance. You can predict ship motions for specified wave spectra and headings using strip theory and radiation-distraction panel method. Maxsurf can compute response operators and spectra, as well as added resistance and crew performance metrics such as motion sickness incidence (MSI) and motion induced interruptions (MII). Maxsurf’s results have been validated against a variety of data from various independent sources, including model tests, full-scale trials, and alternative numerical methods.

The general-purpose beam and plate element-based structural analysis system allows the structural response to be modeled and analyzed quickly and early in the design process. The system includes marine-specific load cases and provides static and dynamic analyses of the structure’s behavior under loads.

Maxsurf offers an extensive range of capabilities for conducting optimization studies, customized calculations, and generating detailed reports through its versatile programming interface. This interface allows users to harness the power of scripting from various programming languages, including VBA (Visual Basic for Applications) for Microsoft Excel and Word macros, VBScript, and Python.

With the programming interface, users can automate repetitive tasks, customize calculations, and perform complex analyses to optimize vessel design and performance. This includes conducting parametric studies to explore different design alternatives, evaluating performance metrics, and identifying optimal solutions based on user-defined criteria.

By leveraging scripting capabilities in VBA, users can seamlessly integrate Maxsurf with Microsoft Excel and Word, enabling data exchange, automated report generation, and interactive analysis workflows. This integration streamlines the transfer of data between Maxsurf and other software applications, enhancing productivity and facilitating collaborative design processes.

Similarly, the programming interface supports scripting in VBScript and Python, offering flexibility and compatibility with a wide range of development environments and scripting tools. This allows users to develop custom scripts and utilities to extend Maxsurf’s functionality, automate complex analyses, and integrate with external data sources or third-party software solutions.

Moreover, the programming interface enables users to generate customized reports that showcase analysis results, design optimizations, and key performance indicators. By leveraging scripting capabilities, users can tailor report layouts, content, and formatting to meet specific project requirements and stakeholder needs, enhancing communication and decision-making processes.