OptiStruct

OptiStruct is an industry proven, modern structural analysis solver for linear and nonlinear problems under static and dynamic loadings. It is the market-leading solution for structural design and optimization. Based on finite-element and multi-body dynamics technology, and through advanced analysis and optimization algorithms, OptiStruct helps designers and engineers rapidly develop innovative, lightweight and structurally efficient designs. Continuing to build on its 20 year legacy of providing innovative optimization technology first-to-market, OptiStruct offers novel solutions for the design and optimization of 3D printed lattice structures and advanced materials such as laminate composites, in keeping up with the latest manufacturing trends like additive manufacturing, while driving design trends. OptiStruct is used by thousands of companies worldwide to analyze and optimize structures for their strength, durability and NVH (noise, vibration and harshness) characteristics


References in zbMATH (referenced in 9 articles )

Showing results 1 to 9 of 9.
Sorted by year (citations)

  1. Amstutz, Samuel; Novotny, Antonio A.; De Souza Neto, Eduardo Alberto: Topological derivative-based topology optimization of structures subject to Drucker-Prager stress constraints (2012)
  2. Bilik, C.; Pahr, D.H.; Rammerstorfer, F.G.: A bead laying algorithm for enhancing the stability and dynamic behavior of thin-walled structures (2012)
  3. Forcier, Louis-Charles; Joncas, Simon: Development of a structural optimization strategy for the design of next generation large thermoplastic wind turbine blades (2012)
  4. Kim, Woochul; Song, Yong Han; Kim, Jae Eun: Topology optimization of actuator arms in hard disk drives for reducing bending resonance-induced off-tracks (2012) ioport
  5. Park, Gyung-Jin: Technical overview of the equivalent static loads method for non-linear static response structural optimization (2011) ioport
  6. Jang, Gang-Won; Yoon, Min-Su; Park, Jae Ha: Lightweight flatbed trailer design by using topology and thickness optimization (2010) ioport
  7. Le, Chau; Norato, Julian; Bruns, Tyler; Ha, Christopher; Tortorelli, Daniel: Stress-based topology optimization for continua (2010) ioport
  8. Silva, Mariana; Tortorelli, Daniel A.; Norato, Julian A.; Ha, Christopher; Bae, Ha-Rok: Component and system reliability-based topology optimization using a single-loop method (2010)
  9. Cimolin, Flavio; Vadori, Roberto; Canuto, Claudio: Springback compensation in deep drawing applications (2008)