ross.BearingElement

class ross.BearingElement(n, kxx, cxx, kyy=None, kxy=0, kyx=0, cyy=None, cxy=0, cyx=0, frequency=None, tag=None, n_link=None, scale_factor=1, color='#355d7a', **kwargs)

A bearing element.

This class will create a bearing element. Parameters can be a constant value or speed dependent. For speed dependent parameters, each argument should be passed as an array and the correspondent speed values should also be passed as an array. Values for each parameter will be_interpolated for the speed.

Parameters
nint

Node which the bearing will be located in

kxxfloat, array, pint.Quantity

Direct stiffness in the x direction (N/m).

cxxfloat, array, pint.Quantity

Direct damping in the x direction (N*s/m).

kyyfloat, array, pint.Quantity, optional

Direct stiffness in the y direction (N/m). (defaults to kxx)

cyyfloat, array, pint.Quantity, optional

Direct damping in the y direction (N*s/m). (defaults to cxx)

kxyfloat, array, pint.Quantity, optional

Cross coupled stiffness in the x direction (N/m). (defaults to 0)

cxyfloat, array, pint.Quantity, optional

Cross coupled damping in the x direction (N*s/m). (defaults to 0)

kyxfloat, array, pint.Quantity, optional

Cross coupled stiffness in the y direction (N/m). (defaults to 0)

cyxfloat, array, pint.Quantity, optional

Cross coupled damping in the y direction (N*s/m). (defaults to 0)

frequencyarray, pint.Quantity, optional

Array with the frequencies (rad/s).

tagstr, optional

A tag to name the element Default is None.

n_linkint, optional

Node to which the bearing will connect. If None the bearing is connected to ground. Default is None.

scale_factorfloat, optional

The scale factor is used to scale the bearing drawing. Default is 1.

colorstr, optional

A color to be used when the element is represented. Default is ‘#355d7a’ (Cardinal).

Examples

>>> # A bearing element located in the first rotor node, with these
>>> # following stiffness and damping coefficients and speed range from
>>> # 0 to 200 rad/s
>>> import ross as rs
>>> kxx = 1e6
>>> kyy = 0.8e6
>>> cxx = 2e2
>>> cyy = 1.5e2
>>> frequency = np.linspace(0, 200, 11)
>>> bearing0 = rs.BearingElement(n=0, kxx=kxx, kyy=kyy, cxx=cxx, cyy=cyy, frequency=frequency)
>>> bearing0.K(frequency) 
array([[[1000000., 1000000., ...
>>> bearing0.C(frequency) 
array([[[200., 200., ...

Methods

C(frequency)

Damping matrix for an instance of a bearing element.

This method returns the damping matrix for an instance of a bearing element.

Parameters
frequencyfloat

The excitation frequency (rad/s).

Returns
Cnp.ndarray

A 2x2 matrix of floats containing the cxx, cxy, cyx, and cyy values (N*s/m).

Examples

>>> bearing = bearing_example()
>>> bearing.C(0)
array([[200.,   0.],
       [  0., 150.]])
G()

Gyroscopic matrix for an instance of a bearing element.

This method returns the mass matrix for an instance of a bearing element.

Returns
Gnp.ndarray

A 2x2 matrix of floats.

Examples

>>> bearing = bearing_example()
>>> bearing.G()
array([[0., 0.],
       [0., 0.]])
K(frequency)

Stiffness matrix for an instance of a bearing element.

This method returns the stiffness matrix for an instance of a bearing element.

Parameters
frequencyfloat

The excitation frequency (rad/s).

Returns
Knp.ndarray

A 2x2 matrix of floats containing the kxx, kxy, kyx, and kyy values.

Examples

>>> bearing = bearing_example()
>>> bearing.K(0)
array([[1000000.,       0.],
       [      0.,  800000.]])
M()

Mass matrix for an instance of a bearing element.

This method returns the mass matrix for an instance of a bearing element.

Returns
Mnp.ndarray

Mass matrix (kg).

Examples

>>> bearing = bearing_example()
>>> bearing.M()
array([[0., 0.],
       [0., 0.]])
__init__(n, kxx, cxx, kyy=None, kxy=0, kyx=0, cyy=None, cxy=0, cyx=0, frequency=None, tag=None, n_link=None, scale_factor=1, color='#355d7a', **kwargs)
dof_local_index()

Get the local index for a element specific degree of freedom.

Returns
local_index: namedtupple

A named tuple containing the local index.

Examples

>>> # Example using BearingElement
>>> from ross.bearing_seal_element import bearing_example
>>> bearing = bearing_example()
>>> bearing.dof_local_index()
LocalIndex(x_0=0, y_0=1)
dof_mapping()

Degrees of freedom mapping.

Returns a dictionary with a mapping between degree of freedom and its index.

Returns
dof_mappingdict

A dictionary containing the degrees of freedom and their indexes.

Examples

The numbering of the degrees of freedom for each node.

Being the following their ordering for a node:

x_0 - horizontal translation y_0 - vertical translation

>>> bearing = bearing_example()
>>> bearing.dof_mapping()
{'x_0': 0, 'y_0': 1}
classmethod from_table(n, file, sheet_name=0, tag=None, n_link=None, scale_factor=1, color='#355d7a')

Instantiate a bearing using inputs from an Excel table.

A header with the names of the columns is required. These names should match the names expected by the routine (usually the names of the parameters, but also similar ones). The program will read every row bellow the header until they end or it reaches a NaN.

Parameters
nint

The node in which the bearing will be located in the rotor.

filestr

Path to the file containing the bearing parameters.

sheet_nameint or str, optional

Position of the sheet in the file (starting from 0) or its name. If none is passed, it is assumed to be the first sheet in the file.

tagstr, optional

A tag to name the element. Default is None.

n_linkint, optional

Node to which the bearing will connect. If None the bearing is connected to ground. Default is None.

scale_factorfloat, optional

The scale factor is used to scale the bearing drawing. Default is 1.

colorstr, optional

A color to be used when the element is represented. Default is ‘#355d7a’ (Cardinal).

Returns
bearingrs.BearingElement

A bearing object.

Examples

>>> import os
>>> file_path = os.path.dirname(os.path.realpath(__file__)) + '/tests/data/bearing_seal_si.xls'
>>> BearingElement.from_table(0, file_path, n_link=1) 
BearingElement(n=0, n_link=1,
 kxx=[1.379...
classmethod load(file)
plot(coefficients=None, frequency_units='rad/s', stiffness_units='N/m', damping_units='N*s/m', fig=None, **kwargs)

Plot coefficient vs frequency.

Parameters
coefficientslist, str

List or str with the coefficients to plot.

frequency_unitsstr

Frequency units. Default is rad/s.

y_unitsstr
**kwargsoptional

Additional key word arguments can be passed to change the plot layout only (e.g. width=1000, height=800, …). *See Plotly Python Figure Reference for more information.

Returns
figPlotly graph_objects.Figure()

The figure object with the plot.

classmethod read_toml_data(data)

Read and parse data stored in a .toml file.

The data passed to this method needs to be according to the format saved in the .toml file by the .save() method.

Parameters
datadict

Dictionary obtained from toml.load().

Returns
The element object.

Examples

>>> # Example using BearingElement
>>> from tempfile import tempdir
>>> from pathlib import Path
>>> from ross.bearing_seal_element import bearing_example
>>> from ross.bearing_seal_element import BearingElement
>>> # create path for a temporary file
>>> file = Path(tempdir) / 'bearing1.toml'
>>> bearing1 = bearing_example()
>>> bearing1.save(file)
>>> bearing1_loaded = BearingElement.load(file)
>>> bearing1 == bearing1_loaded
True
save(file)

Save the element in a .toml file.

This function will save the element to a .toml file. The file will have all the argument’s names and values that are needed to reinstantiate the element.

Parameters
filestr, pathlib.Path

The name of the file the element will be saved in.

Examples

>>> # Example using DiskElement
>>> from tempfile import tempdir
>>> from pathlib import Path
>>> from ross.disk_element import disk_example
>>> # create path for a temporary file
>>> file = Path(tempdir) / 'disk.toml'
>>> disk = disk_example()
>>> disk.save(file)
summary()

Present a summary for the element.

A pandas series with the element properties as variables.

Returns
A pandas series.

Examples

>>> # Example using DiskElement
>>> from ross.disk_element import disk_example
>>> disk = disk_example()
>>> disk.summary() 
n                             0
n_l                           0
n_r                           0...
classmethod table_to_toml(n, file)

Convert bearing parameters to toml.

Convert a table with parameters of a bearing element to a dictionary ready to save to a toml file that can be later loaded by ross.

Parameters
nint

The node in which the bearing will be located in the rotor.

filestr

Path to the file containing the bearing parameters.

Returns
datadict

A dict that is ready to save to toml and readable by ross.

Examples

>>> import os
>>> file_path = os.path.dirname(os.path.realpath(__file__)) + '/tests/data/bearing_seal_si.xls'
>>> BearingElement.table_to_toml(0, file_path) 
{'n': 0, 'kxx': array([...