Exemplo n.º 1
0
void
MisesMatNl :: giveRemoteNonlocalStiffnessContribution(GaussPoint *gp, IntArray &rloc, const UnknownNumberingScheme &s,
                                                      FloatArray &rcontrib, TimeStep *tStep)
{
    double kappa, tempKappa;
    MisesMatNlStatus *status = static_cast< MisesMatNlStatus * >( this->giveStatus(gp) );
    StructuralElement *elem = static_cast< StructuralElement * >( gp->giveElement() );
    FloatMatrix b;
    LinearElasticMaterial *lmat = this->giveLinearElasticMaterial();
    double E = lmat->give('E', gp);

    elem->giveLocationArray(rloc, s);
    elem->computeBmatrixAt(gp, b);
    kappa = status->giveCumulativePlasticStrain();
    tempKappa = status->giveTempCumulativePlasticStrain();

    rcontrib.clear();
    if ( ( tempKappa - kappa ) > 0 ) {
        const FloatArray &stress = status->giveTempEffectiveStress();
        if ( gp->giveMaterialMode() == _1dMat ) {
            double coeff = sgn( stress.at(1) ) * E / ( E + H );
            rcontrib.plusProduct(b, stress, coeff);
            return;
        }
    }
    rcontrib.resize(b.giveNumberOfColumns());
    rcontrib.zero();
}
Exemplo n.º 2
0
void
MisesMatNl :: give1dStressStiffMtrx(FloatMatrix &answer, MatResponseMode mode, GaussPoint *gp, TimeStep *tStep)
{
    answer.resize(1, 1);
    answer.zero();
    LinearElasticMaterial *lmat = this->giveLinearElasticMaterial();
    double E = lmat->give('E', gp);
    double nlKappa;
    MisesMatNlStatus *status = static_cast< MisesMatNlStatus * >( this->giveStatus(gp) );
    double kappa = status->giveCumulativePlasticStrain();
    double tempKappa = status->giveTempCumulativePlasticStrain();
    double tempDamage = status->giveTempDamage();
    double damage = status->giveDamage();
    answer.at(1, 1) = ( 1 - tempDamage ) * E;
    if ( mode != TangentStiffness ) {
        return;
    }

    if ( tempKappa <= kappa ) { // elastic loading - elastic stiffness plays the role of tangent stiffness
        return;
    }

    // === plastic loading ===
    const FloatArray &stressVector = status->giveTempEffectiveStress();
    double stress = stressVector.at(1);
    answer.at(1, 1) = ( 1. - tempDamage ) * E * H / ( E + H );
    if ( tempDamage > damage ) {
        this->computeCumPlasticStrain(nlKappa, gp, tStep);
        answer.at(1, 1) = answer.at(1, 1) - ( 1 - mm ) * computeDamageParamPrime(nlKappa) * E / ( E + H ) * stress * sgn(stress);
    }
}
Exemplo n.º 3
0
int
MisesMatNl :: giveLocalNonlocalStiffnessContribution(GaussPoint *gp, IntArray &loc, const UnknownNumberingScheme &s,
        FloatArray &lcontrib, TimeStep *atTime)
{
    int nrows, nsize, i, j;
    double sum, nlKappa, damage, tempDamage, dDamF;
    MisesMatNlStatus *status = ( MisesMatNlStatus * ) this->giveStatus(gp);
    StructuralElement *elem = ( StructuralElement * )( gp->giveElement() );
    FloatMatrix b;
    FloatArray stress;

    this->computeCumPlasticStrain(nlKappa, gp, atTime);
    damage = status->giveDamage();
    tempDamage = status->giveTempDamage();
    if ( ( tempDamage - damage ) > 0 ) {
        elem->giveLocationArray(loc, EID_MomentumBalance, s);
        status->giveTempEffectiveStress(stress);
        elem->computeBmatrixAt(gp, b);
        dDamF = computeDamageParamPrime(nlKappa);
        nrows = b.giveNumberOfColumns();
        nsize = stress.giveSize();
        lcontrib.resize(nrows);

        for ( i = 1; i <= nrows; i++ ) {
            sum = 0.0;
            for ( j = 1; j <= nsize; j++ ) {
                sum += b.at(j, i) * stress.at(j);
            }

            lcontrib.at(i) = sum * mm * dDamF;
        }
    }

    return 1;
}
Exemplo n.º 4
0
void
MisesMatNl :: giveRealStressVector(FloatArray &answer, GaussPoint *gp,
                                   const FloatArray &totalStrain, TimeStep *tStep)
{
    MisesMatNlStatus *nlStatus = static_cast< MisesMatNlStatus * >( this->giveStatus(gp) );
    this->initGpForNewStep(gp);

    double tempDam;
    performPlasticityReturn(gp, totalStrain);
    tempDam = this->computeDamage(gp, tStep);
    answer.beScaled(1.0 - tempDam, nlStatus->giveTempEffectiveStress());
    nlStatus->setTempDamage(tempDam);
    nlStatus->letTempStrainVectorBe(totalStrain);
    nlStatus->letTempStressVectorBe(answer);
}
Exemplo n.º 5
0
void
MisesMatNl :: giveRealStressVector(FloatArray &answer, MatResponseForm form, GaussPoint *gp,
                                   const FloatArray &totalStrain, TimeStep *atTime)
{
    MisesMatNlStatus *nlStatus = ( MisesMatNlStatus * ) this->giveStatus(gp);
    this->initGpForNewStep(gp);

    double tempDam;
    FloatArray tempEffStress, totalStress;
    MaterialMode mode = gp->giveMaterialMode();
    performPlasticityReturn(gp, totalStrain, mode);
    tempDam = this->computeDamage(gp, atTime);
    nlStatus->giveTempEffectiveStress(tempEffStress);
    answer.beScaled( 1.0 - tempDam, tempEffStress);
    nlStatus->setTempDamage(tempDam);
    nlStatus->letTempStrainVectorBe(totalStrain);
    nlStatus->letTempStressVectorBe(answer);
}
Exemplo n.º 6
0
void
MisesMatNl :: giveRemoteNonlocalStiffnessContribution(GaussPoint *gp, IntArray &rloc, const UnknownNumberingScheme &s,
        FloatArray &rcontrib, TimeStep *atTime)
{
    int ncols, nsize, i, j;
    double sum, kappa, tempKappa;
    MisesMatNlStatus *status = ( MisesMatNlStatus * ) this->giveStatus(gp);
    StructuralElement *elem = ( StructuralElement * )( gp->giveElement() );
    FloatMatrix b;
    FloatArray stress;
    LinearElasticMaterial *lmat = this->giveLinearElasticMaterial();
    double E = lmat->give('E', gp);

    elem->giveLocationArray(rloc, EID_MomentumBalance, s);
    elem->computeBmatrixAt(gp, b);
    ncols = b.giveNumberOfColumns();
    rcontrib.resize(ncols);
    kappa = status->giveCumulativePlasticStrain();
    tempKappa = status->giveTempCumulativePlasticStrain();

    if ( ( tempKappa - kappa ) > 0 ) {
        status->giveTempEffectiveStress(stress);
        if ( gp->giveMaterialMode() == _1dMat ) {
            nsize = stress.giveSize();
            double coeff = sgn( stress.at(1) ) * E / ( E + H );
            for ( i = 1; i <= ncols; i++ ) {
                sum = 0.;
                for ( j = 1; j <= nsize; j++ ) {
                    sum += stress.at(j) * coeff * b.at(j, i);
                }

                rcontrib.at(i) = sum;
            }
        }
    } else {
        rcontrib.zero();
    }
}
Exemplo n.º 7
0
int
MisesMatNl :: giveLocalNonlocalStiffnessContribution(GaussPoint *gp, IntArray &loc, const UnknownNumberingScheme &s,
                                                     FloatArray &lcontrib, TimeStep *tStep)
{
    double nlKappa, damage, tempDamage, dDamF;
    MisesMatNlStatus *status = static_cast< MisesMatNlStatus * >( this->giveStatus(gp) );
    StructuralElement *elem = static_cast< StructuralElement * >( gp->giveElement() );
    FloatMatrix b;

    this->computeCumPlasticStrain(nlKappa, gp, tStep);
    damage = status->giveDamage();
    tempDamage = status->giveTempDamage();
    if ( ( tempDamage - damage ) > 0 ) {
        const FloatArray &stress = status->giveTempEffectiveStress();
        elem->giveLocationArray(loc, s);
        elem->computeBmatrixAt(gp, b);
        dDamF = computeDamageParamPrime(nlKappa);
        lcontrib.clear();
        lcontrib.plusProduct(b, stress, mm * dDamF);
    }

    return 1;
}