This is of interest for the future design of engineering materials and structures that require composites with enhanced toughness, and could deepen our understanding of the structure-property relationship of Bouligand-type structures in bionic design. 9: von Mises stress plot for both load cases. The results clearly show that the arrangement of helix fibrils and interlaminar properties play a major role in the resulting fracture behaviors of Bouligand architectures. solidThinking Inspire 2018 is a structural optimization program designed to provide a complete workflow from geometry creation and or manipulation, through FE analysis to topology optimization and geometry shape fitting of the resultant configuration. To achieve qualitative insights into the fracture behaviors of DBS and SBS, we applied these two configurations, which were identified from corresponding biological materials, to analyze load-displacement responses during single edge notched (SEN) tensile testing the toughening mechanism is also discussed further. HyperMesh and HyperWorks Desktop Customization (Online. HyperMesh/HyperView Introduction and Exploring the HyperMesh/Dyna3D Interface. In this work, we describe a computational modeling approach to investigating fracture behaviors and toughening mechanisms in Bouligand structures. Altair SimLab Meshing, Modeling and Automation.
Solidthinking inspire strain analysis software#
A much more primitive and rarer type of this formation, the double-twisted Bouligand-type structures (DBS), has been discovered in ancient fish scales, and this architecture could provide added rigidity and significantly contribute to toughness when facing fracture risk. The Inspire (Shape + Analysis) software contains all of the features of solidThinking Inspire (Shape), with the added benefit of FEA analysis on the optimized structures. Consisting of a helicoidal arrangement of aligned fibrils, layered single-twisted Bouligand-type structures (SBS) display exceptional fracture and damage resistance. Such materials include typical Bouligand structures that can be widely observed in marine creatures that have hard shells. Please contact us using the button at the bottom of the page for more information.Through natural selection processes, refined biological materials could be created that adapt to various environments and exhibit specific functions. The Inspire (Shape + Analysis) software contains all of the features of solidThinking Inspire (Shape), with the added benefit of FEA analysis on the optimized structures.
Solidthinking inspire strain analysis license#
** It should be noted that the listed price is for a network license for solidThinking Inspire (Shape + Analysis). What if you could start your design process with the ideal part and then use the freedom of additive manufacturing to make that part a reality? With Inspire, this is possible! Inspire enables design engineers to create and investigate structurally efficient concepts quickly and easily. Additive manufacturing gives designers the freedom needed to manufacture these parts with minimal limitations. That means you can design to take advantage of Additive Manufacturing processes. The software is easy to learn and works with existing CAD tools to help design structural parts right the first time, reducing costs, development time, material consumption, and product weight. Inspire enhances this process by generating a new material layout within a package space using the loads as an input. Traditional structural simulations allow engineers to check if a design will support the required loads. Inspire enables design engineers, product designers, and architects to create and investigate structurally efficient concepts quickly and easily.