@article {IOPORT.03932545,
    author       = {Padovan, Joe and Moscarello, Ralph},
    title        = {Locally bound constrained Newton-Raphson solution algorithms.},
    year         = {1986},
    journal      = {Computers and Structures},
    volume       = {23},
    issn         = {0045-7949},
    pages        = {181-197},
    publisher    = {Elsevier Science Ltd (Pergamon), New York, NY},
    doi          = {10.1016/0045-7949(86)90211-7},
    abstract     = {This paper develops strategies which enable the automatic adjustment of the constraint surfaces recently used to extend the range and numerical stability/efficiency of nonlinear finite-element equation solvers. In addition to handling kinematic and material induced nonlinearity, both pre- and postbuckling behavior can be treated. The scheme developed employs localized bounds on various hierarchical partitions of the field variables. These are used to resize, shape, and orient the global constraint surface, thereby enabling essentially automatic load/deflection incrementation. Due to the generality of the approach taken, it can be implemented in conjunction with constraints of arbitrary functional type. To benchmark the method, several numerical experiments are presented. These include problems involving kinematic and material nonlinearity, as well as, pre- and postbuckling characteristics.},
    identifier   = {03932545},
}