ColumnNames
#
- class ansys.additive.core.parametric_study.constants.ColumnNames#
Provides column names for the parametric study data frame.
Values are stored internally as a
Pandas DataFrame
. Column name definitions follow.
Overview#
Optional iteration number, useful for tracking the sequence of |
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Priority value used to determine execution order. |
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Type of simulation. |
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Unique identifier for the simulation. |
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Status of the simulation. |
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Name of material used during simulation. |
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Heater temperature (C). |
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Powder deposition layer thickness (m). |
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Laser beam diameter (m). |
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Laser power (W). |
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Laser scan speed (m/s). |
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Ratio of laser power to scan speed (J/m). |
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Hatch scan angle for first layer (degrees). |
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Hatch rotation angle for subsequent layers (degrees). |
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Hatch spacing (m). |
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Stripe width (m). |
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Laser power divided by build rate (J/m^3). |
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Length of single bead to simulate (m). |
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Layer thickness * scan speed * hatch spacing (m^3/s). |
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Median melt pool width measured at the top of the powder layer (m). |
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Median melt pool depth measured from the top of the powder layer (m). |
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Median melt pool length measured at the top of the powder layer (m). |
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Ratio of MELT_POOL_LENGTH to MELT_POOL_WIDTH. |
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Median melt pool width measured at the top of the base plate (m). |
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Median melt pool depth measured from the top of the base plate (m). |
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Ratio of MELT_POOL_REFERENCE_DEPTH to MELT_POOL_REFERENCE_WIDTH. |
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X dimension size of porosity sample to simulate (m). |
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Y dimension size of Porosity sample to simulate (m). |
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Z dimension size of Porosity sample to simulate (m). |
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Relative density of simulated porosity sample. |
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Minimum X dimension position of microstructure sample (m). |
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Minimum Y dimension position of microstructure sample (m). |
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Minimum Z dimension position of microstructure sample (m). |
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X dimension size of microstructure sample to simulate (m). |
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Y dimension size of microstructure sample to simulate (m). |
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Z dimension size of microstructure sample to simulate (m). |
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Sensor dimension used in microstructure simulations (m). |
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User-provided cooling rate used in microstructure simulations (K/s). |
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User-provided thermal gradient used in microstructure simulations (K/m). |
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User-provided melt pool width used in microstructure simulation (m). |
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User-provided melt pool depth used in microstructure simulation (m). |
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User-provided random seed used in microstructure simulation. |
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Average microstructure grain size in the XY plane (microns). |
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Average microstructure grain size in the XZ plane (microns). |
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Average microstructure grain size in the YZ plane (microns). |
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Error message if simulation failed. |
Import detail#
from ansys.additive.core.parametric_study.constants import ColumnNames
Attribute detail#
- ColumnNames.ITERATION = 'Iteration'#
Optional iteration number, useful for tracking the sequence of simulation groups.
- ColumnNames.PRIORITY = 'Priority'#
Priority value used to determine execution order.
- ColumnNames.TYPE = 'Type'#
Type of simulation.
- ColumnNames.ID = 'ID'#
Unique identifier for the simulation.
- ColumnNames.STATUS = 'Status'#
Status of the simulation.
- ColumnNames.MATERIAL = 'Material'#
Name of material used during simulation.
- ColumnNames.HEATER_TEMPERATURE = 'Heater Temp (C)'#
Heater temperature (C).
- ColumnNames.LAYER_THICKNESS = 'Layer Thickness (m)'#
Powder deposition layer thickness (m).
- ColumnNames.BEAM_DIAMETER = 'Beam Diameter (m)'#
Laser beam diameter (m).
- ColumnNames.LASER_POWER = 'Laser Power (W)'#
Laser power (W).
- ColumnNames.SCAN_SPEED = 'Scan Speed (m/s)'#
Laser scan speed (m/s).
- ColumnNames.PV_RATIO = 'Laser Power/Scan Speed (J/m)'#
Ratio of laser power to scan speed (J/m).
- ColumnNames.START_ANGLE = 'Start Angle (degrees)'#
Hatch scan angle for first layer (degrees).
- ColumnNames.ROTATION_ANGLE = 'Rotation Angle (degrees)'#
Hatch rotation angle for subsequent layers (degrees).
- ColumnNames.HATCH_SPACING = 'Hatch Spacing (m)'#
Hatch spacing (m).
- ColumnNames.STRIPE_WIDTH = 'Stripe Width (m)'#
Stripe width (m).
- ColumnNames.ENERGY_DENSITY = 'Energy Density (J/m^3)'#
Laser power divided by build rate (J/m^3).
- ColumnNames.SINGLE_BEAD_LENGTH = 'Single Bead Length (m)'#
Length of single bead to simulate (m).
- ColumnNames.BUILD_RATE = 'Build Rate (m^3/s)'#
Layer thickness * scan speed * hatch spacing (m^3/s).
- ColumnNames.MELT_POOL_WIDTH = 'Melt Pool Width (m)'#
Median melt pool width measured at the top of the powder layer (m).
- ColumnNames.MELT_POOL_DEPTH = 'Melt Pool Depth (m)'#
Median melt pool depth measured from the top of the powder layer (m).
- ColumnNames.MELT_POOL_LENGTH = 'Melt Pool Length (m)'#
Median melt pool length measured at the top of the powder layer (m).
- ColumnNames.MELT_POOL_LENGTH_OVER_WIDTH = 'Melt Pool Length/Width'#
Ratio of MELT_POOL_LENGTH to MELT_POOL_WIDTH.
- ColumnNames.MELT_POOL_REFERENCE_WIDTH = 'Melt Pool Ref Width (m)'#
Median melt pool width measured at the top of the base plate (m).
- ColumnNames.MELT_POOL_REFERENCE_DEPTH = 'Melt Pool Ref Depth (m)'#
Median melt pool depth measured from the top of the base plate (m).
- ColumnNames.MELT_POOL_REFERENCE_DEPTH_OVER_WIDTH = 'Melt Pool Ref Depth/Width'#
Ratio of MELT_POOL_REFERENCE_DEPTH to MELT_POOL_REFERENCE_WIDTH.
- ColumnNames.POROSITY_SIZE_X = 'Porosity Size X (m)'#
X dimension size of porosity sample to simulate (m).
- ColumnNames.POROSITY_SIZE_Y = 'Porosity Size Y (m)'#
Y dimension size of Porosity sample to simulate (m).
- ColumnNames.POROSITY_SIZE_Z = 'Porosity Size Z (m)'#
Z dimension size of Porosity sample to simulate (m).
- ColumnNames.RELATIVE_DENSITY = 'Relative Density'#
Relative density of simulated porosity sample.
- ColumnNames.MICRO_MIN_X = 'Micro Min X (m)'#
Minimum X dimension position of microstructure sample (m).
- ColumnNames.MICRO_MIN_Y = 'Micro Min Y (m)'#
Minimum Y dimension position of microstructure sample (m).
- ColumnNames.MICRO_MIN_Z = 'Micro Min Z (m)'#
Minimum Z dimension position of microstructure sample (m).
- ColumnNames.MICRO_SIZE_X = 'Micro Size X (m)'#
X dimension size of microstructure sample to simulate (m).
- ColumnNames.MICRO_SIZE_Y = 'Micro Size Y (m)'#
Y dimension size of microstructure sample to simulate (m).
- ColumnNames.MICRO_SIZE_Z = 'Micro Size Z (m)'#
Z dimension size of microstructure sample to simulate (m).
- ColumnNames.MICRO_SENSOR_DIM = 'Micro Sensor Dim (m)'#
Sensor dimension used in microstructure simulations (m).
- ColumnNames.COOLING_RATE = 'Cooling Rate (K/s)'#
User-provided cooling rate used in microstructure simulations (K/s).
- ColumnNames.THERMAL_GRADIENT = 'Thermal Gradient (K/m)'#
User-provided thermal gradient used in microstructure simulations (K/m).
- ColumnNames.MICRO_MELT_POOL_WIDTH = 'Micro Melt Pool Width (m)'#
User-provided melt pool width used in microstructure simulation (m).
- ColumnNames.MICRO_MELT_POOL_DEPTH = 'Micro Melt Pool Depth (m)'#
User-provided melt pool depth used in microstructure simulation (m).
- ColumnNames.RANDOM_SEED = 'Random Seed'#
User-provided random seed used in microstructure simulation.
- ColumnNames.XY_AVERAGE_GRAIN_SIZE = 'XY Average Grain Size (microns)'#
Average microstructure grain size in the XY plane (microns).
- ColumnNames.XZ_AVERAGE_GRAIN_SIZE = 'XZ Average Grain Size (microns)'#
Average microstructure grain size in the XZ plane (microns).
- ColumnNames.YZ_AVERAGE_GRAIN_SIZE = 'YZ Average Grain Size (microns)'#
Average microstructure grain size in the YZ plane (microns).
- ColumnNames.ERROR_MESSAGE = 'Error Message'#
Error message if simulation failed.