15-09-2021

We first released the tutorial for Unigraphics 18 and later updated for NX2 followed by the updates for NX3, NX5 and NX7. This write-up further updates to NX9.0. Our previous efforts to prepare the NX self-guiding tutorial were funded by the National Science. Page 7 of 8 - usar postbuilder - posted in UG Nx Manufacturing: Buenas, el error que me da es por tema de caracteres, ya que sacando un ciclo 200 del heidenhain salen. Axis roughing in nx cam cad road cad road shared siemens nx cam postbuilder manual siemens nx 8 user manual siemens plm nx 9 0 0 macos siemens nx is a leading cad cam cae system based nx 9 0 for engineering design by ming c leu albin thomas 1 3 2 computer aided manufacturing cam, siemens unigraphics nx 8 user manual torrent file.

This is an example of what you’ll see after you start the 5-axis Bulkhead Machining tutorial. A new browser window is opened and displays step-by-step instructions for completing the tutorial. The part file is also automatically loaded into NX.

If you’re interested in expanding your knowledge of NX CAM capabilities, then you should definitely try the self-study learning tools available directly inside the NX software.

Try all eleven in-software Manufacturing Tutorials to gain a deeper understanding of NX CAM’s tool path programming capabilities for fixed-axis milling, turning, multi-function machining, 5-axis machining, high-speed machining, postprocessing and other supporting capabilities.

To access the tutorials, click on the Manufacturing Tutorials option beneath the Help button. You can start a tutorial by clicking on it in the embedded Internet Explorer window. Each tutorial provides a hands-on experience that guides you through completing a CNC programming activity.


Click Manufacturing Tutorials beneath the Help option to display the self-study manufacturing tutorials.


After the manufacturing tutorials are displayed in the Internet Explorer window inside NX, you can start a tutorial by clicking on it.

Each tutorial gives step-by-step instructions for completing a small project with NX CAM. Illustrations show exactly what to do at each step and help you stay on track. All you need to do to complete the tutorial is follow each step of the instructions that opened in the browser window.

Postbuilder

This table summarizes the eleven in-software manufacturing tutorials that are included in NX CAM:


Getting Started – This tutorial steps you through basic interactions with NX CAM. You learn how to use the Operation Navigator and how to perform common screen interactions. Estimated time: 20 minutes
Die Machining – This tutorial steps you through the process of machining a die. Estimated time: 45 minutes
Plate Machining – This tutorial steps you through the process of machining a prismatic model. You first create operations individually. Then you create the program using feature-based machining. Estimated time: 60 minutes
Turning – This tutorial steps you through the process of creating a turning program for a single spindle lathe. Estimated time: 60 minutes
Mill Turn Machining – This tutorial steps you through the process of creating a multiple spindle mill-turn program. You create turning, milling and drilling operations and manage the in-process workpiece. Estimated time: 60 minutes
5-Axis Bulkhead Machining – This tutorial steps you through the process of creating a multi-axis program for an aerospace part. You also mount the part to a 5-axis machine tool and simulate the machine tool movements for the program. Estimated time: 60 minutes
Mold Rework – This tutorial steps you through the process of remachining a damaged area by creating a repair program. Estimated time: 30 minutes
High-Speed Machining – This tutorial steps you through the process of machining a wheel mold using high-speed machining techniques. Estimated time: 60 minutes
Prismatic Part Machining – This tutorial steps you through the process of machining a prismatic part using floor-wall machining techniques and hole milling. Estimated time: 60 minutes
Turbomachinery Milling – This tutorial steps you through the process of machining an impeller using 5-axis multi blade milling techniques. Estimate time: 60 minutes
Output – This tutorial steps you through how to output, customize and print shop documentation. Then you learn how to create and edit postprocessors with Post Builder and download postprocessors. Estimated time: 45 minutes

If you need more information about a specific function, you can always use NX Help to find how to use that specific feature or function in the software.


Access NX Help by clicking the Help icon. Once you click on NX Help, you’ll see a table of contents for the NX Help Library, which has links to each application or software area.


This is an example of what you’ll see after you click on NX Help. You’ll find detailed technical information about NX CAM under the CAM (Manufacturing) section.

Have you tried the tutorials?


Do you want to try NX CAM software free for 30 days? Register now and start learning more about NX CAM today.


About the Author


Aaron Frankel does marketing at Siemens PLM Software and focuses on part manufacturing solutions. He has been in the PLM industry for over 15 years and enjoys helping companies apply innovative technology solutions to design and manufacturing challenges. Aaron resides in Southern California with his family.

mom Variable

Class

Description

Possible Values

Data Type

Default

mom_cycle_cam

Cycle

Value of the cam parameter in canned cycles.Can be used to output the cam code in a canned cycle.

Any number greater than or equal to zero.

Integer

0

mom_cycle_clearance_plane

Cycle

Same as mom_cycle_rapid_to

Numeric Vaule

mom_cycle_clearance_pos

Cycle

Same as mom_cycle_rapid_to_pos

Numeric Array(3)

mom_cycle_counter_sink_dia

Cycle

Represents the diameter of the countersunk hole.Only used during countersinking canned cycles to calculate the mom_cycle_rapid_to.

Numeric Value

mom_cycle_delay

Cycle

The value in seconds of the dwell parameter on cycles that have a DWELL minor word programmed.

Any number greater than or equal to zero.

Numeric Value

0.0.

mom_cycle_delay_mode

Cycle

Mode of dwell in a canned cycle.

REVS or SECONDS.

String

mom_cycle_delay_revs

Cycle

The value in revolutions of the dwell parameter on cycles that have a DWELL minor word programmed.

Any number greater than zero.

Numeric Value

0.0.

mom_cycle_feed_rate

Cycle

The current cycle Feedrate mode in IPM or MMPM mode.

Any number greater than or equal to zero.

Numeric Value

mom_cycle_feed_rate_mode

Cycle

The current output mode of the canned cycle.

IPM, IPR, MMPM, MMPR

String

mom_cycle_feed_rate_per_rev

Cycle

The current cycle Feedrate mode in IPR or MMPR mode.

Any number greater than or equal to zero.

Numeric Value

mom_cycle_feed_to

Cycle

The feed to depth value of the canned cycle.This value is measured from the top of hole along the cycle spindle axis to the bottom of the hole.

Numeric Value

mom_cycle_feed_to_pos

Cycle

This is the bottom of the hole position.It is a 3D point.When the cycle spindle axis is (0,0,1), mom_cycle_feed_to_pos(2) represents the bottom of hole.

Numeric Array(3)

mom_cycle_hole_dia

Cycle

Represents the entrance diameter of the canned cycle.Only used during countersinking canned cycles to calculate the mom_cycle_rapid_to..

Numeric Value

mom_cycle_option

Cycle

Parameter that can be assigned to any canned cycle.Currently not used by Postbuilder.

Any string 66 characters or less.

String

mom_cycle_orient

Cycle

Value that is used by the no drag cycle only.Represents the orientation angle for repositioning the boring tool prior to retraction.

Numeric Value

mom_cycle_rapid_to

Cycle

The rapid clearance value of the canned cycle.This value is measured from the top of hole along the cycle spindle axis to the rapid clearance point above the hole.

Numeric Value

mom_cycle_rapid_to_pos

Cycle

This is the rapid clearance position of the canned cycle.It is a 3D point.When the cycle spindle axis is (0,0,1), mom_cycle_rapid_to_pos(2) represents the rapid clearance position.

Numeric Array(3)

mom_cycle_retract_mode

Cycle

Determines how the retraction will take place on the machine with a Fanuc controller.If the option is set up in the post to output G98/G99, then AUTO will output a G98 and MANUAL will output a G99.

AUTO or MANUAL.

String

MANUAL.

mom_cycle_retract_to

Cycle

The retract point of the canned cycle.This value is measured from the top of hole along the cycle spindle axis to the retract point above the hole.

Numeric Value

mom_cycle_retract_to_pos

Cycle

This is the retraction clearance position of the canned cycle.It is a 3D point.When the cycle spindle axis is (0,0,1), mom_cycle_retract_to_pos(2) represents the final clearance position.

Numeric Array(3)

mom_cycle_spindle_axis

Cycle

Value used by the post to determine how work plane changes will take place.

XY plane is 2, ZX plane is 1, YZ plane is 0.

Integer

2

mom_cycle_step1

Cycle

Value that can be used for deep and break chip canned cycles.This is first of three possible step values.It is up to users discretion on how to use this parameter.

Numeric Value

0

mom_cycle_step2

Cycle

Value that can be used for deep and break chip canned cycles.This is second of three possible step values.It is up to users discretion on how to use this parameter.

Numeric Value

0

mom_cycle_step3

Cycle

Value that can be used for deep and break chip canned cycles.This is third of three possible step values.It is up to users discretion on how to use this parameter.

Numeric Value

0

mom_cycle_text

Cycle

This is appended text that can be added to any cycle.You will have to parse this text if you want to do anything with it.

Any string 66 characters or less.

String

mom_cycle_text_defined

Cycle

Flag defining if CYCLE text has been entered

0 (no text), 1 (text defined)

Integer

mom_cycle_tool_angle

Cycle

Represents the tool angle of the drilling tool of the canned cycle.Only used during countersinking canned cycles to calculate the mom_cycle_rapid_to.

0-360

Numeric Value

mom_sys_cycle_bore_back_code

Cycle

Defines the G code for cycle bore back.

Any number greater than or equal to zero.

Numeric Value

87

mom_sys_cycle_bore_code

Cycle

Defines the G code for cycle bore.

Any number greater than or equal to zero.

Numeric Value

85

mom_sys_cycle_bore_drag_code

Cycle

Defines the G code for cycle bore drag.

Any number greater than or equal to zero.

Numeric Value

86

mom_sys_cycle_bore_dwell_code

Cycle

Defines the G code for cycle bore dwell.

Any number greater than or equal to zero.

Numeric Value

89

mom_sys_cycle_bore_manual_code

Cycle

Defines the G code for cycle bore manual.

Any number greater than or equal to zero.

Numeric Value

88

mom_sys_cycle_bore_manual_dwell_code

Cycle

Defines the G code for cycle bore manual dwell.

Any number greater than or equal to zero.

Numeric Value

89

mom_sys_cycle_bore_no_drag_code

Cycle

Defines the G code for cycle bore nodrag.

Any number greater than or equal to zero.

Numeric Value

76

mom_sys_cycle_drill_breakchip_code

Cycle

Defines the G code for cycle drill break chip.

Any number greater than or equal to zero.

Numeric Value

73

mom_sys_cycle_drill_code

Cycle

Defines the G code for cycle drill.

Any number greater than or equal to zero.

Numeric Value

81

mom_sys_cycle_drill_deep_code

Cycle

Defines the G code for cycle drill deep.

Any number greater than or equal to zero.

Numeric Value

83

mom_sys_cycle_drill_dwell_code

Cycle

Defines the G code for cycle drill dwell.

Any number greater than or equal to zero.

Numeric Value

82

mom_sys_cycle_feed_mode

Cycle

Defines the Feedrate output mode that will be used for canned cycles.It can be either IPM/MMPM or IPR/MMPR.This value is set in the Feedrate dialogs in Postbuilder.

IPM, MMPM, IPR or MMPR

String

IPM/MMPM

mom_sys_cycle_off

Cycle

Defines the G code for cycle off.

Any number greater than or equal to zero.

Numeric Value

80

mom_sys_sim_cycle_bore

Cycle

Defines whether the cycle has been customized.

Standard is 0, Customized is 1.

Numeric Value

0

mom_sys_sim_cycle_bore_back

Cycle

Defines whether the cycle has been customized.

Standard is 0, Customized is 1.

Numeric Value

0

mom_sys_sim_cycle_bore_drag

Cycle

Defines whether the cycle has been customized.

Standard is 0, Customized is 1.

Numeric Value

0

mom_sys_sim_cycle_bore_dwell

Cycle

Defines whether the cycle has been customized.

Standard is 0, Customized is 1.

Numeric Value

0

mom_sys_sim_cycle_bore_manual

Cycle

Defines whether the cycle has been customized.

Standard is 0, Customized is 1.

Numeric Value

0

mom_sys_sim_cycle_bore_manual_dwell

Cycle

Defines whether the cycle has been customized.

Standard is 0, Customized is 1.

Numeric Value

0

mom_sys_sim_cycle_bore_nodrag

Cycle

Defines whether the cycle has been customized.

Standard is 0, Customized is 1.

Numeric Value

0

mom_sys_sim_cycle_drill

Cycle

Defines whether the cycle has been customized.

Standard is 0, Customized is 1.

Numeric Value

0

mom_sys_sim_cycle_drill_break_chip

Cycle

Defines whether the cycle has been customized.

Standard is 0, Customized is 1.

Numeric Value

0

mom_sys_sim_cycle_drill_deep

Cycle

Defines whether the cycle has been customized.

Standard is 0, Customized is 1.

Numeric Value

0

mom_sys_sim_cycle_drill_dwell

Cycle

Defines whether the cycle has been customized.

Standard is 0, Customized is 1.

Numeric Value

0

mom_sys_sim_cycle_tap

Cycle

Defines whether the cycle has been customized.

Standard is 0, Customized is 1.

Numeric Value

0

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