コード例 #1
0
ファイル: rcsde.C プロジェクト: erisve/oofem
double
RCSDEMaterial :: giveNormalCrackingStress(GaussPoint *gp, double crackStrain, int i)
//
// returns receivers Normal Stress in crack i  for given cracking strain
//
{
    double Gf, Ft, Le, answer, ef;
    RCM2MaterialStatus *status = static_cast< RCM2MaterialStatus * >( this->giveStatus(gp) );

    Le = status->giveCharLength(i);
    Ft = this->computeStrength(gp, Le);
    Gf = this->give(pscm_Gf, gp);
    ef = Gf / ( Le * Ft );

    if ( this->checkSizeLimit(gp, Le) ) {
        if ( crackStrain >= status->giveTempMaxCrackStrain(i) ) {
            // further softening
            answer = Ft * exp(-crackStrain / ef);
        } else {
            // crack closing
            // or unloading or reloading regime
            answer = Ft * crackStrain / status->giveTempMaxCrackStrain(i) *
            exp(-status->giveTempMaxCrackStrain(i) / ef);
        }
    } else {
        answer = 0.;
    }

    return answer;
}
コード例 #2
0
ファイル: concrete3.C プロジェクト: erisve/oofem
double
Concrete3 :: giveNormalCrackingStress(GaussPoint *gp, double crackStrain, int i)
//
// returns receivers Normal Stress in crack i  for given cracking strain
//
{
    double Cf, Ft, Gf, Le, answer, ef, minEffStrainForFullyOpenCrack;
    RCM2MaterialStatus *status = static_cast< RCM2MaterialStatus * >( this->giveStatus(gp) );
    minEffStrainForFullyOpenCrack = this->giveMinCrackStrainsForFullyOpenCrack(gp, i);

    Cf = this->giveCrackingModulus(TangentStiffness, gp, crackStrain, i); // < 0
    Le = status->giveCharLength(i);
    Ft = this->computeStrength(gp, Le);
    Gf = this->give(pscm_Gf, gp);

    if ( this->checkSizeLimit(gp, Le) ) {
        if ( softeningMode == linearSoftening ) {
            if ( ( crackStrain >= minEffStrainForFullyOpenCrack ) ||
                ( status->giveTempMaxCrackStrain(i) >= minEffStrainForFullyOpenCrack ) ) {
                // fully open crack - no stiffness
                answer = 0.;
            } else if ( crackStrain >= status->giveTempMaxCrackStrain(i) ) {
                // further softening
                answer = Ft + Cf * crackStrain;
            } else if ( crackStrain <= 0. ) {
                // crack closing
                // no stress due to cracking
                answer = 0.;
            } else {
                // unloading or reloading regime
                answer = crackStrain * Ft *
                         ( minEffStrainForFullyOpenCrack - status->giveTempMaxCrackStrain(i) ) /
                         ( status->giveTempMaxCrackStrain(i) * minEffStrainForFullyOpenCrack );
            }
        } else { // Exponential softening
            ef = Gf / ( Le * Ft );
            if ( crackStrain >= status->giveTempMaxCrackStrain(i) ) {
                // further softening
                answer = Ft * exp(-crackStrain / ef);
            } else {
                // crack closing
                // or unloading or reloading regime
                answer = Ft * crackStrain / status->giveTempMaxCrackStrain(i) *
                exp(-status->giveTempMaxCrackStrain(i) / ef);
            }
        }
    } else {
        answer = 0.;
    }

    return answer;
}
コード例 #3
0
ファイル: rcsde.C プロジェクト: erisve/oofem
double
RCSDEMaterial :: giveCrackingModulus(MatResponseMode rMode, GaussPoint *gp,
                                     double crackStrain, int i)
//
// returns current cracking modulus according to crackStrain for i-th
// crackplane
// now linear softening is implemented
// see also CreateStatus () function.
// softening modulus represents a relation between the normal crack strain
// rate and the normal stress rate.
//
{
    // double Ee, Gf;
    double Gf, Cf, Ft, Le, ef;
    RCM2MaterialStatus *status = static_cast< RCM2MaterialStatus * >( this->giveStatus(gp) );

    //
    // now we have to set proper reduced strength and softening modulus Et
    // in order to obtain energetically correct solution using the concept
    // of fracture energy Gf, which is a material constant.
    //
    //Ee = this->give(pscm_Ee);
    Gf = this->give(pscm_Gf, gp);
    Le = status->giveCharLength(i);
    Ft = this->computeStrength(gp, Le);
    //minEffStrainForFullyOpenCrack = this->giveMinCrackStrainsForFullyOpenCrack(gp,i);
    ef = Gf / ( Le * Ft );

    if ( rMode == TangentStiffness ) {
        if ( this->checkSizeLimit(gp, Le) ) {
            if ( crackStrain >= status->giveTempMaxCrackStrain(i) ) {
                // further softening
                Cf = -Ft / ef *exp(-crackStrain / ef);
            } else {
                // unloading or reloading regime
                Cf = Ft / status->giveTempMaxCrackStrain(i) * exp(-status->giveTempMaxCrackStrain(i) / ef);
            }
        } else {
            Cf = 0.;
        }
    } else {
        if ( this->checkSizeLimit(gp, Le) ) {
            Cf = Ft / status->giveTempMaxCrackStrain(i) * exp(-status->giveTempMaxCrackStrain(i) / ef);
        } else {
            Cf = 0.;
        }
    }

    return Cf;
}
コード例 #4
0
double
RCSDMaterial :: giveMinCrackStrainsForFullyOpenCrack(GaussPoint *gp, int i)
//
// computes MinCrackStrainsForFullyOpenCrack for given gp and i-th crack
//
{
    RCM2MaterialStatus *status = static_cast< RCM2MaterialStatus * >( this->giveStatus(gp) );
    double Le, Gf, Ft;

    Le = status->giveCharLength(i);
    Gf = this->give(pscm_Gf, gp);
    Ft = this->computeStrength(gp, Le);

    return 2.0 * Gf / ( Le * Ft );
}
コード例 #5
0
ファイル: concrete3.C プロジェクト: erisve/oofem
double
Concrete3 :: giveMinCrackStrainsForFullyOpenCrack(GaussPoint *gp, int i)
//
// computes MinCrackStrainsForFullyOpenCrack for given gp and i-th crack
//
{
    if ( softeningMode == linearSoftening ) {
        RCM2MaterialStatus *status = static_cast< RCM2MaterialStatus * >( this->giveStatus(gp) );
        double Le, Gf, Ft;

        Le = status->giveCharLength(i);
        Gf = this->give(pscm_Gf, gp);
        Ft = this->computeStrength(gp, Le);

        return 2.0 * Gf / ( Le * Ft );
    } else {
        //return Gf/(Le*Ft); // Exponential softening
        return 1.e6; // Exponential softening
    }
}