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This page provides step-by-step instructions on using the Cycle Time Estimator to create estimates for a batch of four example part files.

The example takes you through the entire process, which includes the following:

  1. Opening the Cycle Time Estimator

  2. Selecting Fusion part files

  3. Setting the ‘Options’ for the machining environment

  4. Checking the progress of the Cycle Time Estimator’s computations

  5. Saving the ‘Cycle Time Estimation’ report

  6. Examining the computed toolpaths in Fusion

  7. Examining the cycle time estimates

  8. Exporting the cycle time estimates ‘Summary’ report

Though the example used here makes use of just 4 specific Fusion part files, you can use the Cycle Time Estimator with up to 10 Fusion part files of your choice.

Key points

While using the Cycle Time Estimator, there are a couple of key points to keep in mind:

  • One part per file - each Fusion part file contains the configuration for one part.

  • Part files do not need defined setups - this applies to all part files that are selected in the Cycle Time Estimator.

    • However, if setups are defined within any of the files then the Cycle Time Estimator will use them.


Video
For an illustration of the following step-by-step instructions, see the YouTube video: Using the Cycle Time Estimator.

Step-by-step instructions

1. Opening the Cycle Time Estimator

image-20240524-163539.png

2. Selecting Fusion part files

  • Click Click here to select files

    • A Fusion ‘Select parts for which you want to estimate cycle times’ dialog appears.

  • Select a file from one of your Fusion project folders.

    • The file is displayed in the ‘selecting files’ list.

When selecting files:

If all of the files you intend to select are in the same folder then you can use CTRL + click to select all files at once. If the files are different folders then you will have to repeat steps 2-3 for each folder.

image-20240523-134332.png

3. Setting the ‘Options’ for the machining environment

  • Tool library - select a tool library from the drop-down list.

  • Stock material - select a material from the drop-down list.

  • Machine - select a machine from the drop-down list.

  • Edit machine properties - see How to Edit machine properties.

  • Machining mode - select one of the following:

    • 3-Axis - note that if the part file does not contain a setup then the approach direction is +Z.

    • 3+2 Axis - the Cycle Time Estimator uses the Machining direction ‘Aligned to X, Y, Z axes’, where the tool orientation for the toolpath strategy covers all axes (+X, -X, +Y, -Y, +Z, and -Z).

  • Click Run.

For more information, see the main Upload tab page

image-20240524-164135.png

4. Checking the progress of the Cycle Time Estimator’s computations

After clicking Run, the following events take place:

  • Fusion tabs - a Fusion tab is created for each part you selected in the Cycle Time Estimator (see Fusion tab, below).

  • Toolpath strategy computation - the Cycle Time Estimator populates each of the Fusion tabs with a computed toolpath strategy.

    • A Progress dialog is displayed to keep you informed of the progress of the computation.

Fusion tabs

image-20240528-121118.png

The screenshot above shows four Fusion tabs that correspond to the Fusion part files selected in Cycle Time Estimator’s Upload tab (Step 2, above).

Note that the version number in the Fusion tabs (for example, ‘chamfered cube v4’) is not the same as the version number of the associated part file.
Rather, it reflects the number of times the Cycle Time Estimator has been run for the selected parts.

Toolpath strategy computation

While the Cycle Time Estimator is computing a toolpath strategy for each of the parts, it displays the progress dialog (see the image to the right) for your information.

The Progress dialog features two buttons

  • Cancel - cancels the Run just actioned and returns control to Fusion.

    • No toolpath strategies or cycle time estimations are computed by the Cycle Time Estimator in this instance.

  • Hide - hides the progress dialog.

    • The Cycle Estimator will continue to compute and populate the toolpath strategies for each Fusion part.

The screenshot to the right shows the progress for each of the parts selected in the Upload tab. Note that the Cycle Time Estimator can compute toolpath strategies for up to 10 parts at the same time.

image-20240524-090736.png

5. Saving the ‘Cycle Time Estimation’ report

When the Cycle Time Estimator has finished its cycle time estimation and toolpath strategy computations, it displays the Time Estimation Report dialog (see the image to the right).

The dialog contains two buttons:

  • Yes - opens a Windows save dialog that enables you to choose the location to save the ‘Cycle Time Estimation’ report.

    • Specify the location of the estimation report

    • Click ‘Save’ - the Cycle Time Estimation report is saved to the specified location.

  • No - closes the dialog without saving the report.

image-20240524-091934.png

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Example ‘Cycle Time Estimation’ report

The ‘Cycle Time Estimation’ report contains much more detail than the ‘Summary’ report that is available from the Cycle Time Estimator’s Export tab (see below).

 Click here to show/hide an example 'Cycle Time Estimation' report

chamfered cube v4 (AMT Team/Cycle Times)

00:01:29

Part Bounding Box (mm)

50

50

60

Part Volume (cm^3)

147

Stock Size (mm)

52

52

61

Faces Machined

9

of

10

Setup2

00:01:29

Facing

00:00:15

12701 - face mill

00:00:02

12701 - face mill

00:00:12

Roughing

00:00:10

22114 - bull nose end mill

00:00:10

Wall

00:00:15

22159 - bull nose end mill

00:00:15

Deburring

00:00:04

12401 - chamfer mill

00:00:04

Ring with Holes v8 v4 (AMT Team/Cycle Times)

00:33:49

Part Bounding Box (mm)

304.8

304.8

19.05

Part Volume (cm^3)

716.115

Stock Size (mm)

306.8

306.8

20.05

Faces Machined

21

of

22

Setup1

00:33:49

Facing

00:02:48

12701 - face mill

00:00:27

12701 - face mill

00:02:20

Roughing

00:15:51

22114 - bull nose end mill

00:15:51

Wall

00:00:20

22114 - bull nose end mill

00:00:20

Holemaking

00:02:34

22111 - bull nose end mill

00:01:43

22602 - drill

00:00:36

Freeform

00:10:34

22305 - ball end mill

00:10:34

Deburring

00:00:43

12401 - chamfer mill

00:00:43

Cap Top v4 (AMT Team/Cycle Times)

00:32:32

Part Bounding Box (mm)

125

76

17.915

Part Volume (cm^3)

53.406

Stock Size (mm)

130

88.8

88.8

Faces Machined

400

of

405

Setup1

00:17:07

Facing

00:00:34

12701 - face mill

00:00:06

12701 - face mill

00:00:29

Roughing

00:06:32

22114 - bull nose end mill

00:00:16

22108 - bull nose end mill

00:02:22

22154 - bull nose end mill

00:00:37

22102 - bull nose end mill

00:02:32

Flat

00:00:16

22104 - bull nose end mill

00:00:16

Wall

00:01:10

22104 - bull nose end mill

00:00:06

22104 - bull nose end mill

00:00:04

22104 - bull nose end mill

00:00:03

22104 - bull nose end mill

00:00:06

22104 - bull nose end mill

00:00:03

22104 - bull nose end mill

00:00:03

22114 - bull nose end mill

00:00:09

22152 - bull nose end mill

00:00:01

22152 - bull nose end mill

00:00:05

Holemaking

00:05:57

22540 - drill

00:02:25

22557 - drill

00:00:02

22627 - drill

00:00:16

22627 - drill

00:00:03

22625 - drill

00:00:03

22529 - drill

00:00:03

22703 - spot drill

00:01:49

Freeform

00:01:06

22304 - ball end mill

00:00:15

22303 - ball end mill

00:00:36

Chamfering

00:00:10

12401 - chamfer mill

00:00:01

12401 - chamfer mill

00:00:09

Deburring

00:00:08

12401 - chamfer mill

00:00:08

Setup2

00:15:25

Roughing

00:04:39

22114 - bull nose end mill

00:02:11

22108 - bull nose end mill

00:00:53

22154 - bull nose end mill

00:00:42

22102 - bull nose end mill

00:00:08

Flat

00:05:22

22105 - bull nose end mill

00:00:50

22152 - bull nose end mill

00:00:42

22151 - bull nose end mill

00:03:20

Wall

00:01:51

22105 - bull nose end mill

00:00:11

22105 - bull nose end mill

00:00:01

22152 - bull nose end mill

00:00:15

22152 - bull nose end mill

00:00:16

22152 - bull nose end mill

00:00:16

22152 - bull nose end mill

00:00:16

22152 - bull nose end mill

00:00:06

22152 - bull nose end mill

00:00:06

22152 - bull nose end mill

00:00:09

22152 - bull nose end mill

00:00:01

Holemaking

00:00:30

22540 - drill

00:00:12

32555 - drill

00:00:03

Chamfering

00:00:01

12402 - chamfer mill

00:00:01

Deburring

00:01:46

12401 - chamfer mill

00:01:46

MXS-3200-B v4 (AMT Team/Cycle Times)

00:42:09

Part Bounding Box (mm)

103.7

195.1

8

Part Volume (cm^3)

64.383

Stock Size (mm)

105.7

197.1

10

Faces Machined

419

of

868

Setup1

00:13:29

Facing

00:00:55

12701 - face mill

00:00:09

12701 - face mill

00:00:46

Roughing

00:05:09

22114 - bull nose end mill

00:00:16

22108 - bull nose end mill

00:02:39

22154 - bull nose end mill

00:00:55

22102 - bull nose end mill

00:00:33

Flat

00:00:27

22103 - bull nose end mill

00:00:27

Wall

00:00:51

22103 - bull nose end mill

00:00:03

22103 - bull nose end mill

00:00:09

22103 - bull nose end mill

00:00:02

22103 - bull nose end mill

00:00:01

22103 - bull nose end mill

00:00:35

Holemaking

00:04:39

22104 - bull nose end mill

00:03:06

22628 - drill

00:00:37

22631 - drill

00:00:09

22617 - drill

00:00:02

Deburring

00:00:29

12401 - chamfer mill

00:00:29

Setup2

00:28:40

Facing

00:00:55

12701 - face mill

00:00:09

12701 - face mill

00:00:46

Roughing

00:17:29

22114 - bull nose end mill

00:02:22

22104 - bull nose end mill

00:12:23

22103 - bull nose end mill

00:02:14

Flat

00:06:29

22103 - bull nose end mill

00:06:29

Wall

00:01:59

22103 - bull nose end mill

00:00:23

22103 - bull nose end mill

00:00:23

22103 - bull nose end mill

00:00:26

22103 - bull nose end mill

00:00:08

22103 - bull nose end mill

00:00:03

22103 - bull nose end mill

00:00:03

22103 - bull nose end mill

00:00:26

22103 - bull nose end mill

00:00:01

22103 - bull nose end mill

00:00:05

Holemaking

00:00:04

22628 - drill

00:00:04

Deburring

00:00:59

12401 - chamfer mill

00:00:59

6. Examining the computed toolpaths in Fusion

When the Cycle Time Estimator has finished computing the toolpath strategy and time estimates for all of the selected Fusion part files, you can examine those toolpaths by clicking on any of the Fusion part tabs.
The following screenshot shows an opened example Fusion part tab ('Ring with Holes v8').

Note that the version number for the part within the Fusion tabs is not the same as the version number of the part files.
Rather, it reflects the number of times the Cycle Time Estimator has been run for the selected parts (for example, ‘Ring with Holes v8 v4’ and ‘chamfered cube v4’).

image-20240528-123950.png

Any subsequent changes to the Fusion Browser toolpaths (which were computed by the Cycle Time Estimator) that would affect the cycle time are automatically reflected in the Cycle Time Estimator the next time it is opened.

7. Examining the cycle time estimates

Step 6 shows the toolpath strategy, created by the Cycle Time Estimator, for each of the example Fusion part files. This step details how to examine the results of the actual cycle time estimations.

The Cycle Time Estimator shows the results of the completed estimations using two of its tabs:

To see how both tabs are used with the four example Fusion part files, see below.

Cycle Time Estimates tab

The Cycle Time Estimates tab shows the estimated time to complete each operation in the computed toolpath strategy. It does this by using the same structure as Fusion’s Browser.

The screenshot to the right shows the expanded breakdown for the Fusion part file ‘Ring with Holes’.

The tab expanded time breakdown shows:

  • The complete estimated time (33 minutes and 49 seconds)

  • The time to complete the Facing operation (2 minutes and 48 seconds)

  • The time to complete the roughing phase of the Facing operation, using tool #12701 (27 seconds).

  • All other estimates for each operation/tool use.

For more information, see the main Cycle Time Estimates Tab page.

image-20240528-140454.png

Report tab

The Report tab shows a report summary for each of the selected Fusion part files.

The screenshot to the right shows the expanded report summary for the Fusion part file ‘Ring with Holes’.

The report tab displays dimensions using the same units as the part: inches (in) or millimeters (mm).

For more information, see the main Report Tab page.

image-20240528-141009.png

8. Exporting the cycle time estimations ‘Summary’ report

The Export tab enables you to export a Summary report of the cycle time estimation for any Fusion part files that is checked here.

The screenshot to the right shows the four Fusion part files used in this example (all of the Fusion part files have their selection box checked).

To export the Summary report, take the following steps:

  • Check the box for the required Fusion part files.

  • Specify the Quantity for each Fusion part file

    • Total Cycle Time is updated to (‘Total Estimated Time’ for 1 part) * (‘Quantity’).

  • Click Export.

    • A Windows save dialog is opened that enables you to choose the location to save the cycle time estimation Summary report.

  • Specify the location of the estimation report.

  • Click ‘Save’ - the export file is saved to the specified location.

For more information, see the main Export Tab page.

image-20240528-142819.png

Example ‘Summary’ report

 Click here to show/hide an example exported 'Summary' report

Document Name

Document Version

Cycle Time (sec)

Quantity

Batch Cycle Time (sec)

chamfered cube

4

89

5

445

Ring with Holes v8

4

2029

10

20290

Cap Top

4

1952

4

7808

MXS-3200-B

4

2529

2

5058

In the Summary report:

  • Cycle Time (sec) = Total Estimated Time for 1 part

  • Batch Cycle Time = Cycle Time (sec) * Quantity

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