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#

ITERATION

Optional iteration number, useful for tracking the sequence of

PRIORITY

Priority value used to determine execution order.

TYPE

Type of simulation.

ID

Unique identifier for the simulation.

STATUS

Status of the simulation.

MATERIAL

Name of material used during simulation.

HEATER_TEMPERATURE

Heater temperature (C).

LAYER_THICKNESS

Powder deposition layer thickness (m).

BEAM_DIAMETER

Laser beam diameter (m).

LASER_POWER

Laser power (W).

SCAN_SPEED

Laser scan speed (m/s).

PV_RATIO

Ratio of laser power to scan speed (J/m).

START_ANGLE

Hatch scan angle for first layer (degrees).

ROTATION_ANGLE

Hatch rotation angle for subsequent layers (degrees).

HATCH_SPACING

Hatch spacing (m).

STRIPE_WIDTH

Stripe width (m).

ENERGY_DENSITY

Laser power divided by build rate (J/m^3).

SINGLE_BEAD_LENGTH

Length of single bead to simulate (m).

BUILD_RATE

Layer thickness * scan speed * hatch spacing (m^3/s).

MELT_POOL_WIDTH

Median melt pool width measured at the top of the powder layer (m).

MELT_POOL_DEPTH

Median melt pool depth measured from the top of the powder layer (m).

MELT_POOL_LENGTH

Median melt pool length measured at the top of the powder layer (m).

MELT_POOL_LENGTH_OVER_WIDTH

Ratio of MELT_POOL_LENGTH to MELT_POOL_WIDTH.

MELT_POOL_REFERENCE_WIDTH

Median melt pool width measured at the top of the base plate (m).

MELT_POOL_REFERENCE_DEPTH

Median melt pool depth measured from the top of the base plate (m).

MELT_POOL_REFERENCE_DEPTH_OVER_WIDTH

Ratio of MELT_POOL_REFERENCE_DEPTH to MELT_POOL_REFERENCE_WIDTH.

POROSITY_SIZE_X

X dimension size of porosity sample to simulate (m).

POROSITY_SIZE_Y

Y dimension size of Porosity sample to simulate (m).

POROSITY_SIZE_Z

Z dimension size of Porosity sample to simulate (m).

RELATIVE_DENSITY

Relative density of simulated porosity sample.

MICRO_MIN_X

Minimum X dimension position of microstructure sample (m).

MICRO_MIN_Y

Minimum Y dimension position of microstructure sample (m).

MICRO_MIN_Z

Minimum Z dimension position of microstructure sample (m).

MICRO_SIZE_X

X dimension size of microstructure sample to simulate (m).

MICRO_SIZE_Y

Y dimension size of microstructure sample to simulate (m).

MICRO_SIZE_Z

Z dimension size of microstructure sample to simulate (m).

MICRO_SENSOR_DIM

Sensor dimension used in microstructure simulations (m).

COOLING_RATE

User-provided cooling rate used in microstructure simulations (K/s).

THERMAL_GRADIENT

User-provided thermal gradient used in microstructure simulations (K/m).

MICRO_MELT_POOL_WIDTH

User-provided melt pool width used in microstructure simulation (m).

MICRO_MELT_POOL_DEPTH

User-provided melt pool depth used in microstructure simulation (m).

RANDOM_SEED

User-provided random seed used in microstructure simulation.

XY_AVERAGE_GRAIN_SIZE

Average microstructure grain size in the XY plane (microns).

XZ_AVERAGE_GRAIN_SIZE

Average microstructure grain size in the XZ plane (microns).

YZ_AVERAGE_GRAIN_SIZE

Average microstructure grain size in the YZ plane (microns).

ERROR_MESSAGE

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.