Exemplo n.º 1
0
import abdbeam as ab

sc = ab.Section()
# Create a materials dictionary:
mts = dict()
mts[1] = ab.Laminate()
ply_mat = ab.PlyMaterial(0.166666, 148000, 9650, 4550, 0.3)
mts[1].ply_materials[1] = ply_mat
mts[1].plies = [[0, 1]] * 6 + [[45, 1]] * 6
# Create a points dictionary based on Y and Z point coordinates:
pts = dict()
pts[1] = ab.Point(0, -35)
pts[2] = ab.Point(-50, -35)
pts[3] = ab.Point(-50, 35)
pts[4] = ab.Point(0, 35)
pts[5] = ab.Point(50, 35)
pts[6] = ab.Point(50, -35)
# Create a segments dictionary referencing point and material ids:
sgs = dict()
sgs[1] = ab.Segment(1, 2, 1)
sgs[2] = ab.Segment(2, 3, 1)
sgs[3] = ab.Segment(3, 4, 1)
sgs[4] = ab.Segment(4, 1, 1)
sgs[5] = ab.Segment(4, 5, 1)
sgs[6] = ab.Segment(5, 6, 1)
sgs[7] = ab.Segment(6, 1, 1)
# Point the dictionaries to the section
sc.materials = mts
sc.points = pts
sc.segments = sgs
# Calculate and output section properties
Exemplo n.º 2
0
import abdbeam as ab

sc = ab.Section()
# Create a materials dictionary:
mts = dict()
mts[1] = ab.Laminate()
mts[1].ply_materials[1] = ab.PlyMaterial(0.0001, 148e9, 9.65e9, 4.55e9, 0.3)
mts[1].ply_materials[2] = ab.PlyMaterial(0.0002, 16.39e9, 16.39e9, 38.19e9,
                                         0.801)
mts[1].plies = [[0, 1]] * 10 + [[45, 1]] * 10
mts[1].symmetry = 'T'
# Create a points dictionary based on Y and Z point coordinates:
pts = dict()
pts[1] = ab.Point(-0.025, -0.035)
pts[2] = ab.Point(0.025, -0.035)
pts[3] = ab.Point(0.025, 0.035)
pts[4] = ab.Point(-0.025, 0.035)
# Create a segments dictionary referencing point and material ids:
sgs = dict()
sgs[1] = ab.Segment(1, 2, 1)
sgs[2] = ab.Segment(2, 3, 1)
sgs[3] = ab.Segment(3, 4, 1)
sgs[4] = ab.Segment(4, 1, 1)
# Point the dictionaries to the section
sc.materials = mts
sc.points = pts
sc.segments = sgs
# Calculate and output section properties
sc.calculate_properties()
sc.summary()
ab.plot_section(sc, segment_coord=True, figsize=(6.4 * 0.8, 4.8 * 0.8))
Exemplo n.º 3
0
import abdbeam as ab

sc = ab.Section()
# Create a dictionary to store ply materials shared by laminates
ply_mts = dict()
ply_mts[1] = ab.PlyMaterial(0.0075, 2.147e7, 1.4e6, 6.6e5, 0.3)
ply_mts[2] = ab.PlyMaterial(0.0075, 1.149e7, 1.149e7, 6.6e5, 0.04)
# Create the materials dictionary for the laminates and shear connector:
mts = dict()
mts[1] = ab.Laminate()
mts[1].ply_materials[2] = ply_mts[2]
mts[1].plies = [[45, 2], [-45, 2]] + [[0, 2]] * 3
mts[1].symmetry = 'S'
mts[2] = ab.Laminate()
mts[2].ply_materials[2] = ply_mts[2]
mts[2].plies = [[45, 2], [-45, 2]] * 2 + [[0, 2]]
mts[2].symmetry = 'S'
mts[3] = ab.Laminate()
mts[3].ply_materials[1] = ply_mts[1]
mts[3].ply_materials[2] = ply_mts[2]
mts[3].plies = [[45, 2], [-45, 2]] + [[0, 1]] * 3 + [[0, 2]] + [[0, 1]] * 2
mts[3].symmetry = 'SM'
mts[4] = ab.ShearConnector(0.075, 2605615)
# Create a points dictionary based on Y and Z point coordinates:
pts = dict()
pts[1] = ab.Point(-2, 0)
pts[2] = ab.Point(-1, 0)
pts[3] = ab.Point(1, 0)
pts[4] = ab.Point(2, 0)
pts[5] = ab.Point(-2, 0.075)
pts[6] = ab.Point(-1, 0.075)
Exemplo n.º 4
0
import abdbeam as ab

sc = ab.Section()
# Create a dictionary to store ply materials shared by laminates
ply_mts = dict()
ply_mts[1] = ab.PlyMaterial(0.0075, 1.149e7, 1.149e7, 6.6e5, 0.04)
# Create the materials dictionary for the laminates and shear connector:
mts = dict()
mts[1] = ab.Laminate()
mts[1].ply_materials[1] = ply_mts[1]
mts[1].plies = [[45, 1], [-45, 1]] * 2 + [[0, 1]] * 3
mts[1].symmetry = 'S'
mts[2] = ab.ShearConnector(0.25, 6381760)
# Create a points dictionary based on Y and Z point coordinates:
pts = dict()
pts[1] = ab.Point(1, -4)
pts[2] = ab.Point(2, -4)
pts[3] = ab.Point(12, -4)
pts[4] = ab.Point(14, -4)
pts[5] = ab.Point(15, -4)
pts[11] = ab.Point(1, 1.21)
pts[12] = ab.Point(2, 1.21)
pts[13] = ab.Point(12, 1.21)
pts[14] = ab.Point(14, 1.21)
pts[15] = ab.Point(15, 1.21)
pts[21] = ab.Point(1, -3.895)
pts[22] = ab.Point(2, -3.895)
pts[23] = ab.Point(3, -3.895)
pts[24] = ab.Point(3, 1.105)
pts[25] = ab.Point(2, 1.105)
pts[26] = ab.Point(1, 1.105)