SAP2000

The SAP name has been synonymous with state-of-the-art analytical methods since its introduction over 30 years ago. SAP2000 follows in the same tradition featuring a very sophisticated, intuitive and versatile user interface powered by an unmatched analysis engine and design tools for engineers working on transportation, industrial, public works, sports, and other facilities. From its 3D object based graphical modeling environment to the wide variety of analysis and design options completely integrated across one powerful user interface, SAP2000 has proven to be the most integrated, productive and practical general purpose structural program on the market today. This intuitive interface allows you to create structural models rapidly and intuitively without long learning curve delays. Now you can harness the power of SAP2000 for all of your analysis and design tasks, including small day-to-day problems. Complex Models can be generated and meshed with powerful built in templates. Integrated design code features can automatically generate wind, wave, bridge, and seismic loads with comprehensive automatic steel and concrete design code checks per US, Canadian and international design standards.


References in zbMATH (referenced in 27 articles )

Showing results 1 to 20 of 27.
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  1. de M. Wahrhaftig, Alexandre; Magalhães, Kaique M. M.; Silva, Marcelo A.; da Fonseca Brasil, Reyolando M. L. R.; Banerjee, J. Ranjan: Buckling and free vibration analysis of non-prismatic columns using optimized shape functions and Rayleigh method (2022)
  2. Md Motiur Rahman, Tahmina Tasnim Nahar, Dookie Kim: FeView: Finite element model (FEM) visualization and post-processing tool for OpenSees (2021) not zbMATH
  3. Manolis, George D.; Dadoulis, George I.; Pardalopoulos, Stylianos I.; Dragos, Kosmas: Analytical modeling of flexible structures for health monitoring under environmentally induced loads (2020)
  4. Wang, Lilin; Zhao, Xin; Dong, Yaomin: A practical fractional numerical optimization method for designing economically and environmentally friendly super-tall buildings (2020)
  5. Lagaros, Nikos D.; Vasileiou, Nikos; Kazakis, Georgios: A C# code for solving 3D topology optimization problems using SAP2000 (2019)
  6. de Araujo, F. C.; Pereira, R. A. T.: Boundary-integral-based process for calculating stiffness matrices of space frame elements with axially varying cross section (2017)
  7. Papadrakakis, Manolis (ed.); Plevris, Vagelis (ed.); Lagaros, Nikos D. (ed.): Computational methods in earthquake engineering. Volume 3 (2017)
  8. Martín Rodríguez, Patricia; Parnás, Vivian B. Elena; Castañeda Hevia, Angel Emilio: Effects of antennas on structural behavior of telecommunication towers (2016)
  9. Naga, Taha H. A.; Rashed, Youssef F.: Improved hybrid boundary solution for shell elements (2016)
  10. Chen, Shi-Shuenn; Shi, Jun-Yang: Simplified soil-structure interaction analysis for high-tech industrial buildings subjected to forced vibrations (2015)
  11. Šumarac, Dragoslav; Perović, Zoran: Cyclic plasticity of trusses (2015) ioport
  12. Caddemi, S.; Caliò, I.: Exact reconstruction of multiple concentrated damages on beams (2014)
  13. Spiliopoulos, Konstantinos V.; Dais, Nikos G.: A powerful force-based approach for the limit analysis of three-dimensional frames (2013)
  14. Malekinejad, Mohsen; Rahgozar, Reza: A simple analytic method for computing the natural frequencies and mode shapes of tall buildings (2012)
  15. Oskouei, Asghar Vatani; Fard, Sahand Sarioletlagh; Aksogan, Orhan: Using genetic algorithm for the optimization of seismic behavior of steel planar frames with semi-rigid connections (2012) ioport
  16. Alhamaydeh, Mohammad; Hussain, Saif: Optimized frequency-based foundation design for wind turbine towers utilizing soil-structure interaction (2011)
  17. Casciati, S.; Al-Saleh, R.: Dynamic behavior of a masonry civic belfry under operational conditions (2010)
  18. Chiang, Wei-Ling; Chiou, Dung-Jiang; Chen, Cheng-Wu; Tang, Jhy-Pyng; Hsu, Wen-Ko; Liu, Te-Yu: Detecting the sensitivity of structural damage based on the Hilbert-Huang transform approach (2010)
  19. Liu, Guohuan; Guo, Wei; Li, Hongnan: An effective and practical method for solving an unnegligible problem inherent in the current calculation model for multi-support seismic analysis of structures (2010)
  20. Wang, Qian; Fang, Hongbing; Zou, Xiao-Kang: Application of micro-GA for optimal cost base isolation design of bridges subject to transient earthquake loads (2010) ioport

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