public void ShearWallCalculatesPMMDiagram()
        {
            double f_c_prime                         = 6;
            double f_c_prime_psi                     = f_c_prime * 1000;
            RebarMaterialFactory factory             = new RebarMaterialFactory();
            string         RebarSpecificationId      = "A615Grade60";
            IRebarMaterial LongitudinalRebarMaterial = factory.GetMaterial(RebarSpecificationId);
            double         h_total                   = 20 * 12;
            double         t_w                       = 12;
            double         N_curtains                = 2;
            double         s                         = 12;
            double         c_edge                    = 0;

            BoundaryZone BoundaryZoneTop    = new BoundaryZone(3, 3, "No8", 6, 3, 3);
            BoundaryZone BoundaryZoneBottom = new BoundaryZone(3, 3, "No8", 6, 3, 3);
            string       WallRebarSizeId    = "No4";


            FlexuralCompressionFiberPosition p    = FlexuralCompressionFiberPosition.Top;
            ConcreteMaterial             Concrete = new ConcreteMaterial(f_c_prime_psi, ConcreteTypeByWeight.Normalweight, null);
            ConfinementReinforcementType ConfinementReinforcementType = KodestructAci.ConfinementReinforcementType.Ties;

            CrossSectionRectangularShape shape = new CrossSectionRectangularShape(Concrete, null, t_w, h_total);

            List <KodestructAci.RebarPoint> LongitudinalBars = GetLongitudinalBars(shape.SliceableShape as ISectionRectangular, h_total, t_w, WallRebarSizeId, N_curtains, s, c_edge,
                                                                                   BoundaryZoneTop, BoundaryZoneBottom, LongitudinalRebarMaterial);

            KodestructAci.IConcreteFlexuralMember fs = new KodestructAci14.ConcreteSectionFlexure(shape, LongitudinalBars, null, ConfinementReinforcementType);

            IConcreteSectionWithLongitudinalRebar Section = fs as IConcreteSectionWithLongitudinalRebar;
            ConcreteSectionCompression            column  = new ConcreteSectionCompression(Section, ConfinementReinforcementType, null);
            //Convert axial force to pounds
            List <PMPair> Pairs         = column.GetPMPairs(p);
            var           PairsAdjusted = Pairs.Select(pair => new PMPair(pair.P / 1000.0, pair.M / 1000.0 / 12.0));

            string Filename = Path.Combine(Path.GetTempPath(), "PMInteractionShearWall.csv");

            using (CsvFileWriter writer = new CsvFileWriter(Filename))
            {
                foreach (var pair in PairsAdjusted)
                {
                    CsvRow row = new CsvRow();
                    row.Add(pair.M.ToString());
                    row.Add(pair.P.ToString());
                    writer.WriteRow(row);
                }
            }
        }
Example #2
0
        public void ColumnReturnsNegativeNominalInteractionDiagram()
        {
            ConcreteSectionCompression col = GetConcreteExampleColumn();
            List <PMPair> Pairs            = col.GetPMPairs(FlexuralCompressionFiberPosition.Bottom, 50, false);
            var           PairsAdjusted    = Pairs.Select(pair => new PMPair(pair.P / 1000.0, pair.M / 1000.0 / 12.0));

            string Filename = Path.Combine(Path.GetTempPath(), "PMInteractionMacGregorNegative.csv");

            using (CsvFileWriter writer = new CsvFileWriter(Filename))
            {
                foreach (var pair in PairsAdjusted)
                {
                    CsvRow row = new CsvRow();
                    row.Add(pair.M.ToString());
                    row.Add(pair.P.ToString());
                    writer.WriteRow(row);
                }
            }
        }
        public void ShearWallCalculatesPMMDiagramMaxIteration()
        {
            double         f_c_prime                 = 6;
            double         f_c_prime_psi             = f_c_prime * 1000;
            IRebarMaterial LongitudinalRebarMaterial = new RebarMaterialGeneral(60000);
            double         l_w = 20 * 12;
            double         h   = 12;


            FlexuralCompressionFiberPosition p    = FlexuralCompressionFiberPosition.Top;
            ConcreteMaterial             Concrete = new ConcreteMaterial(f_c_prime_psi, ConcreteTypeByWeight.Normalweight, null);
            ConfinementReinforcementType ConfinementReinforcementType = KodestructAci.ConfinementReinforcementType.Ties;

            CrossSectionRectangularShape shape = new CrossSectionRectangularShape(Concrete, null, h, l_w);

            List <RebarPoint> LongitudinalBars = GetLongitudinalBarsFromCoordinates(LongitudinalRebarMaterial);

            KodestructAci.IConcreteFlexuralMember fs = new KodestructAci14.ConcreteSectionFlexure(shape, LongitudinalBars, null, ConfinementReinforcementType);

            IConcreteSectionWithLongitudinalRebar Section = fs as IConcreteSectionWithLongitudinalRebar;
            ConcreteSectionCompression            column  = new ConcreteSectionCompression(Section, ConfinementReinforcementType, null);
            //Convert axial force to pounds
            List <PMPair> Pairs         = column.GetPMPairs(p, 50, true);
            var           PairsAdjusted = Pairs.Select(pair => new PMPair(pair.P / 1000.0, pair.M / 1000.0 / 12.0));

            string Filename = Path.Combine(Path.GetTempPath(), "PMInteractionShearWallMaxIteration.csv");

            using (CsvFileWriter writer = new CsvFileWriter(Filename))
            {
                foreach (var pair in PairsAdjusted)
                {
                    CsvRow row = new CsvRow();
                    row.Add(pair.M.ToString());
                    row.Add(pair.P.ToString());
                    writer.WriteRow(row);
                }
            }
        }