• Title of article

    Closed-form analytical solution procedure for element design in D regions

  • Author/Authors

    Amini Najafian, H Department of civil and enviromental engineering - Imperial College London ,UK , Vollum, R. L Department of civil and enviromental engineering - Imperial College London ,UK

  • Pages
    15
  • From page
    1
  • To page
    15
  • Abstract
    This paper presents a novel procedure for solving the equations system of the rotating crack model used for reinforced concrete. It is implemented in the programme NonOPt where it is used to optimise the reinforcement design of D regions. The procedure is based on solving explicit closed-form relations without the need to incrementally increase the applied loads. The solution procedure is based on a secant modulus approach and is developed initially on the basis that the stress-strain response of the steel and concrete is linearly elastic. Subsequently the effect of material nonlinearities is included and the solution procedure is adapted accordingly. A reinforcement design procedure for membrane elements is described along with some case studies. The design procedure minimises the amount of reinforcement required to satisfy predefined design constraints. Material nonlinearities are taken into account, stress and strain compatibilities are satisfied and the design considers both the ultimate and serviceability limit states through the application of appropriate design constraints.
  • Keywords
    reinforced concrete , D regions , reinforcement design , nonlinear analysis , closed-form relations , membrane element
  • Journal title
    Astroparticle Physics
  • Serial Year
    2017
  • Record number

    2469176