def test_material2(): # load the material library output_lib = MaterialLibrary() output_lib.from_hdf5(filename, '/materials') # create the material for the test Nitrogen = Material({70140000: 0.99636, 70150000: 0.00364}) for material in output_lib.iteritems(): if material[1].metadata['original_name'] == 'Nitrogen': assert_almost_equal(material[1].comp, Nitrogen.comp, places=4)
def test_material2(): # load the material library output_lib = MaterialLibrary() output_lib.from_hdf5(filename,'/materials') # create the material for the test Nitrogen = Material({70140000: 0.99636, 70150000: 0.00364}) for material in output_lib.iteritems(): if material[1].metadata['original_name'] == 'Nitrogen': assert_almost_equal(material[1].comp, Nitrogen.comp, places=4)
def test_material1(): # load the material library output_lib = MaterialLibrary() output_lib.from_hdf5(filename,'/materials') # create the material for the test Lead = Material({822040000: 0.013999999999999999, 822060000: 0.24100000000000002, 822070000: 0.22100000000000003, 822080000: 0.524}) for material in output_lib.iteritems(): if material[1].metadata['original_name'] == 'Lead': assert_almost_equal(material[1].comp, Lead.comp, places=4)
def test_material4(): # load the material library output_lib = MaterialLibrary() output_lib.from_hdf5(filename,'/materials') # create the material for the test Steel = Material({60120000: 0.10992222222222224, 60130000: 0.0011888888888888893, 140280000: 0.10247000000000002, 140290000: 0.005205555555555556, 140300000: 0.0034355555555555563, 150310000: 0.11111111111111112, 160320000: 0.10554444444444445, 160330000: 0.0008333333333333334, 160340000: 0.004722222222222223, 160360000: 1.1111111111111113e-05, 220460000: 0.009166666666666668, 220470000: 0.008266666666666669, 220480000: 0.08191111111111112, 220490000: 0.006011111111111112, 220500000: 0.005755555555555556, 240500000: 0.004827777777777778, 240520000: 0.09309888888888891, 240530000: 0.010556666666666667, 240540000: 0.002627777777777779, 250550000: 0.11111111111111112, 260540000: 0.006494444444444446, 260560000: 0.10194888888888891, 260570000: 0.0023544444444444455, 260580000: 0.0003133333333333333, 280580000: 0.07564111111111112, 280600000: 0.029136666666666672, 280610000: 0.0012665555555555557, 280620000: 0.004038444444444445, 280640000: 0.0010283333333333336}) for material in output_lib.iteritems(): if material[1].metadata['original_name'] == 'Steel, Stainless 321': assert_almost_equal(material[1].comp, Steel.comp, places=4)
def test_material3(): # load the material library output_lib = MaterialLibrary() output_lib.from_hdf5(filename,'/materials') # create the material for the test Mercury = Material({801960000: 0.0015, 801980000: 0.09970000000000001, 801990000: 0.16870000000000002, 802000000: 0.231, 802010000: 0.1318, 802020000: 0.2986, 802040000: 0.0687}) for material in output_lib.iteritems(): if material[1].metadata['original_name'] == 'Mercury': assert_almost_equal(material[1].comp, Mercury.comp, places=4)
def test_material1(): # load the material library output_lib = MaterialLibrary() output_lib.from_hdf5(filename, '/materials') # create the material for the test Lead = Material({ 822040000: 0.013999999999999999, 822060000: 0.24100000000000002, 822070000: 0.22100000000000003, 822080000: 0.524 }) for material in output_lib.iteritems(): if material[1].metadata['original_name'] == 'Lead': assert_almost_equal(material[1].comp, Lead.comp, places=4)
def test_material3(): # load the material library output_lib = MaterialLibrary() output_lib.from_hdf5(filename, '/materials') # create the material for the test Mercury = Material({ 801960000: 0.0015, 801980000: 0.09970000000000001, 801990000: 0.16870000000000002, 802000000: 0.231, 802010000: 0.1318, 802020000: 0.2986, 802040000: 0.0687 }) for material in output_lib.iteritems(): if material[1].metadata['original_name'] == 'Mercury': assert_almost_equal(material[1].comp, Mercury.comp, places=4)
def test_material4(): # load the material library output_lib = MaterialLibrary() output_lib.from_hdf5(filename, '/materials') # create the material for the test Steel = Material({ 60120000: 0.10992222222222224, 60130000: 0.0011888888888888893, 140280000: 0.10247000000000002, 140290000: 0.005205555555555556, 140300000: 0.0034355555555555563, 150310000: 0.11111111111111112, 160320000: 0.10554444444444445, 160330000: 0.0008333333333333334, 160340000: 0.004722222222222223, 160360000: 1.1111111111111113e-05, 220460000: 0.009166666666666668, 220470000: 0.008266666666666669, 220480000: 0.08191111111111112, 220490000: 0.006011111111111112, 220500000: 0.005755555555555556, 240500000: 0.004827777777777778, 240520000: 0.09309888888888891, 240530000: 0.010556666666666667, 240540000: 0.002627777777777779, 250550000: 0.11111111111111112, 260540000: 0.006494444444444446, 260560000: 0.10194888888888891, 260570000: 0.0023544444444444455, 260580000: 0.0003133333333333333, 280580000: 0.07564111111111112, 280600000: 0.029136666666666672, 280610000: 0.0012665555555555557, 280620000: 0.004038444444444445, 280640000: 0.0010283333333333336 }) for material in output_lib.iteritems(): if material[1].metadata['original_name'] == 'Steel, Stainless 321': assert_almost_equal(material[1].comp, Steel.comp, places=4)