The document describes using the ECO Manager in CimatronE to update a mold design after engineering changes (ECOs).
The process involves comparing a master file to an updated ECO file, exporting the differences, and then importing those differences to update the relevant core and cavity parts. Differences are grouped as added, removed, or unchanged geometry. The faces can be reassigned as needed.
The document walks through an example where a master file is compared to ECO1, the differences are exported and used to update the core part. Faces are deleted, modified and recreated as needed to incorporate the changes from ECO1. This process is then repeated to compare ECO1 to ECO
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This document provides a tutorial for creating a multi-cavity mold project in CimatronE 8.5. It describes steps to start a new project, define split directions for the mold parts, mirror and copy assemblies, add sliders, load a mold base, export faces to a fixed side part, update parts after changes, and add main and local parting surface parts. The tutorial explains how to handle common modifications that may occur during a mold design project, such as geometric, transformation, and face assignment changes, and how these affect the exported parts.
This document provides a tutorial on creating a basic mold project in CimatronE 8.5. The tutorial covers:
1. Starting a new mold project and placing a workpart in the layout.
2. Splitting the workpart into two sets using quick split.
3. Creating internal parting curves and faces between the split sets.
4. Defining and creating active cavity and core parts from the split sets.
5. Stitching, cutting and removing parting geometry from the active parts to complete the mold design.
CutViewer Mill V3.1 is a program that graphically displays material removal for milling/drilling operations. It requires Windows 95/98/ME/NT/2000/XP, a Pentium processor, 64 MB RAM, 100 MB disk space, and a 2 MB graphics card. It can open G-code files and customize tools and stock. Key features include editing files, multiple viewing angles, and measuring finished parts.
The document appears to be a collection of photos from luxury hotels in Southeast Asia taken by photographer Matt Burns and available on his website www.southeastasiaimages.com. The photos feature numerous high-end resorts and hotels in locations such as Bangkok, Phuket, Angkor Wat, Luang Prabang, and Saigon. The document seems aimed at promoting Matt Burns' portfolio of luxury hotel photos from the region that are available for commercial use.
Dokumen tersebut memberikan ringkasan singkat tentang persiapan menghadapi peperiksaan akhir tahun, termasuk persiapan akademik seperti belajar dengan tekun dan bijak, persiapan bukan akademik seperti persiapan fizikal, mental, emosi dan rohani, serta strategi menghadapi berbagai soalan dan kebimbangan seputar peperiksaan.
This document provides a tutorial on using the Xelerate ECO Manager tool in CimatronE 8.5. It walks through two examples of Engineering Change Orders (ECOs). For the first ECO, it shows how to compare a part to the ECO, update the core and cavity parts by importing removed and added faces, and recreating parting faces. For the second ECO, it repeats these steps to incorporate the changes between the first and second ECOs. The tutorial contains over 10 steps for each ECO comparison and update.
This document provides a tutorial for creating a multi-cavity mold project in CimatronE 8.5. It describes steps to start a new project, define split directions for the mold parts, mirror and copy assemblies, add sliders, load a mold base, export faces to a fixed side part, update parts after changes, and add main and local parting surface parts. The tutorial explains how to handle common modifications that may occur during a mold design project, such as geometric, transformation, and face assignment changes, and how these affect the exported parts.
This document provides a tutorial on creating a basic mold project in CimatronE 8.5. The tutorial covers:
1. Starting a new mold project and placing a workpart in the layout.
2. Splitting the workpart into two sets using quick split.
3. Creating internal parting curves and faces between the split sets.
4. Defining and creating active cavity and core parts from the split sets.
5. Stitching, cutting and removing parting geometry from the active parts to complete the mold design.
CutViewer Mill V3.1 is a program that graphically displays material removal for milling/drilling operations. It requires Windows 95/98/ME/NT/2000/XP, a Pentium processor, 64 MB RAM, 100 MB disk space, and a 2 MB graphics card. It can open G-code files and customize tools and stock. Key features include editing files, multiple viewing angles, and measuring finished parts.
The document appears to be a collection of photos from luxury hotels in Southeast Asia taken by photographer Matt Burns and available on his website www.southeastasiaimages.com. The photos feature numerous high-end resorts and hotels in locations such as Bangkok, Phuket, Angkor Wat, Luang Prabang, and Saigon. The document seems aimed at promoting Matt Burns' portfolio of luxury hotel photos from the region that are available for commercial use.
Dokumen tersebut memberikan ringkasan singkat tentang persiapan menghadapi peperiksaan akhir tahun, termasuk persiapan akademik seperti belajar dengan tekun dan bijak, persiapan bukan akademik seperti persiapan fizikal, mental, emosi dan rohani, serta strategi menghadapi berbagai soalan dan kebimbangan seputar peperiksaan.
The document provides instructions for using CimatronE's DieDesign software to design a basic die. It describes setting up a new die assembly using the DieDesign Wizard and importing master parts. It then explains how to create forming shapes by operations like unfolding, bending, and unbending master parts. It also describes designing the strip layout by nesting, setting strip dimensions, and adding punch/trim operations. The overall process involves designing forming shapes, designing the strip, and then designing the actual die assembly.
The document provides release notes for the Tekla Structures 2016 administrator focused on customization settings. It includes notes on:
1. Updating model templates created in previous versions to work in 2016.
2. A new "fillet edges" feature for representing curved surfaces in drawings.
3. Improvements to the 2D Library tool for saving and reusing drawing sections and details between projects.
The document describes new unfolding and strip design routines in VISI-Progress. It provides details on the part analysis, unfolding, and step-by-step unfolding interfaces. Key steps include performing part analysis, unfolding using different methods, generating solid models from bend stages, and defining strips using the strip manager interface. The interfaces allow analyzing parts, unfolding them, generating bend stages, and designing strips to hold the formed parts.
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Pro-E is a widely used CAD/CAM software that runs on Windows and UNIX platforms. The document provides instructions on how to install Pro-E from an FTP server and introduces some key Pro-E modeling tools: protrusions and cuts are used to add and remove material from solid models; holes can be created using various placement options; rounds create smooth filleted edges between surfaces. Examples illustrate solid models with protrusions, cuts, holes, and rounded edges.
This document provides tutorials and answers to frequently asked questions about using EasyEDA. It covers topics like how to update a schematic and PCB, rename sheets, change units, split a schematic over multiple sheets, place components on the bottom layer, find components, create symbol libraries, footprints, order PCBS, import and export files, and more. It also addresses questions around saving work, backing up files, recovering deleted files, privacy, exporting designs if EasyEDA shuts down, and using EasyEDA offline or in a company setting.
User Guide of Regression Test & Validation Tool (v1.0)Chen Fang
This document provides a user guide for a regression test and validation tool. It introduces the tool's functions and operations for users and developers. For users, the guide describes the tool's graphical user interface and how to use it for different applications such as comparing simulation to CAN data or labeling CAN signals. It also provides setup instructions. For developers, it outlines the tool's software structure and parallel computing capabilities. Future improvements are discussed as well, such as adding vehicle image recognition.
En2501 composer template editor user manualHeo Gòm
This document provides a user manual for the Composer Template Editor. It describes how to create and edit templates for personalized photo products using various tools and options. Templates can be designed with frames, backgrounds, images, and text. Settings include paper size, margins, and output options. The manual covers tasks for template design, properties, and layer controls for organizing the sheet layout.
Git Tutorial EclipseCon France 2014 - Git Exercise 02 - develop a featuremsohn
This document provides instructions for developing a new feature or fixing a bug in a local branch using EGit. It describes how to create a local feature branch based on the latest remote master branch, develop and test the feature or fix, stage and commit changes locally, and include a Change-ID and signed-off-by footer for pushing to Gerrit later.
The document discusses viewing and troubleshooting optimization processes in Abaqus. It provides information on:
1. Using the Visualization module to view results generated by an optimization process, including viewing the optimized design surface for topology optimizations or the optimized shape for shape optimizations.
2. Viewing results from each design cycle by opening the Step/Frame dialog box or creating an X-Y plot to analyze how objective functions and constraints change over cycles.
3. Diagnosing optimization problems by viewing progressive removal of elements in topology optimizations or incremental shape changes, and using output to determine if the optimization is converging.
This document provides instructions for using skeleton modeling in Autodesk Inventor. Skeleton modeling allows for centralized design criteria and top-down assembly design. The key steps are:
1. Create a master skeleton part file containing layout sketches that reflect the positions of assembly components.
2. Establish critical parameters in the skeleton part and link them to a spreadsheet for input control.
3. Derive new part files from the skeleton sketches to create assembly components. The components will be grounded at the assembly origin.
4. Assemble the derived components in a new assembly file. Changes to the skeleton sketches will update all derived components.
This tutorial covers using Eagle PCB design software to design an electronic schematic and circuit board layout. Eagle consists of a schematic editor, PCB editor, and autorouter. It is available in both Windows and Linux versions. The tutorial will guide the user through drawing a schematic for a microcontroller circuit including a power supply, microcontroller, and interfaces. It also describes how to create custom library components when needed parts are missing from the standard Eagle libraries.
This document is the user guide for Family Tree Explorer Premium genealogy software. It provides instructions on installation, activation, importing family trees from other programs, creating new family trees, and using the various tools and features in Family Tree Explorer Premium. The guide includes a comparison of the different versions of Family Tree Explorer, detailing the key differences between the Premium, Standard, and Viewer editions.
This document provides instructions for a tutorial on generative part stress analysis using CATIA V5. The tutorial is intended to last 45 minutes and cover part design and knowledge advisor capabilities. It describes the 7 major steps, which include designing a wheel rim, renaming parameters, adding formulas to constraints, creating user parameters and formulas, adding a rule and check, and creating design tables to compute inertia elements. It also provides information on setting up the appropriate CATIA settings and material catalog for the tutorial.
This document provides guidance on administering locations, sub-locations, users, and settings in the Enerit ISO 50001 Energy Manager Pro software. It outlines how to create new locations and enter key details like objectives, targets, and default chart configurations. Sub-locations represent areas within a location, like buildings. Users can be assigned access to specific locations. System settings cover general configuration options.
This document provides instructions for creating a mechanism assembly in CimatronE. It describes 9 stages:
1. Early preparation which involves modifying a part to add dimensions for the mechanism.
2. Creating the assembly and adding relevant parts.
3. Defining the main part of the mechanism assembly.
4. Defining the parent/child relationships between parts to group how they are suppressed/unsuppressed.
5. Defining interchangeable parts that can replace each other in the assembly.
6. Defining catalog filtering relations to control which parts are loaded from the catalog.
7. Applying formulas to define parametric relationships between parts.
8. Saving the
This document provides instructions for customizing reports generated from FanTestic blower door software. It describes how to open and edit an existing report template to add company logos and headers or footers with identifying information. It notes that template fields containing data from FanTestic tests should not be removed. The document also briefly outlines how to save, print, generate, and export FanTestic test results.
Data presentation and reporting cognos tm1veeracynixit
This document provides an overview of data presentation and reporting in Cognos TM1, including:
- Browsing cube data using the Cube Viewer and in-spreadsheet browser
- Modifying views by stacking dimensions, drilling down, and changing title elements
- Formatting views using zero suppression, cell formatting, and column orientations
- Creating worksheets, reports, and charts from cube data using slicing, snapshots, and the TM1 print report wizard
- Using active forms to view and update cube data directly in Excel
The document provides instructions for using CimatronE's DieDesign software to design a basic die. It describes setting up a new die assembly using the DieDesign Wizard and importing master parts. It then explains how to create forming shapes by operations like unfolding, bending, and unbending master parts. It also describes designing the strip layout by nesting, setting strip dimensions, and adding punch/trim operations. The overall process involves designing forming shapes, designing the strip, and then designing the actual die assembly.
The document provides release notes for the Tekla Structures 2016 administrator focused on customization settings. It includes notes on:
1. Updating model templates created in previous versions to work in 2016.
2. A new "fillet edges" feature for representing curved surfaces in drawings.
3. Improvements to the 2D Library tool for saving and reusing drawing sections and details between projects.
The document describes new unfolding and strip design routines in VISI-Progress. It provides details on the part analysis, unfolding, and step-by-step unfolding interfaces. Key steps include performing part analysis, unfolding using different methods, generating solid models from bend stages, and defining strips using the strip manager interface. The interfaces allow analyzing parts, unfolding them, generating bend stages, and designing strips to hold the formed parts.
Using skeleton models_to_achieve_top-down_assembly_designNiveditha M
Using skeleton models allows for top-down assembly design that provides a well-structured, logical design. Skeleton models define skeletal properties that can be used to define geometry of other components. The document demonstrates creating a rolling chair assembly using skeleton models, where key properties like the number of wheels or shaft diameter can be modified and the changes will propagate downwards. A skeleton model is created for the top-level assembly and each subassembly to define key surfaces that other components reference without external dependencies. This allows easy modification as the design evolves.
Pro-E is a widely used CAD/CAM software that runs on Windows and UNIX platforms. The document provides instructions on how to install Pro-E from an FTP server and introduces some key Pro-E modeling tools: protrusions and cuts are used to add and remove material from solid models; holes can be created using various placement options; rounds create smooth filleted edges between surfaces. Examples illustrate solid models with protrusions, cuts, holes, and rounded edges.
This document provides tutorials and answers to frequently asked questions about using EasyEDA. It covers topics like how to update a schematic and PCB, rename sheets, change units, split a schematic over multiple sheets, place components on the bottom layer, find components, create symbol libraries, footprints, order PCBS, import and export files, and more. It also addresses questions around saving work, backing up files, recovering deleted files, privacy, exporting designs if EasyEDA shuts down, and using EasyEDA offline or in a company setting.
User Guide of Regression Test & Validation Tool (v1.0)Chen Fang
This document provides a user guide for a regression test and validation tool. It introduces the tool's functions and operations for users and developers. For users, the guide describes the tool's graphical user interface and how to use it for different applications such as comparing simulation to CAN data or labeling CAN signals. It also provides setup instructions. For developers, it outlines the tool's software structure and parallel computing capabilities. Future improvements are discussed as well, such as adding vehicle image recognition.
En2501 composer template editor user manualHeo Gòm
This document provides a user manual for the Composer Template Editor. It describes how to create and edit templates for personalized photo products using various tools and options. Templates can be designed with frames, backgrounds, images, and text. Settings include paper size, margins, and output options. The manual covers tasks for template design, properties, and layer controls for organizing the sheet layout.
Git Tutorial EclipseCon France 2014 - Git Exercise 02 - develop a featuremsohn
This document provides instructions for developing a new feature or fixing a bug in a local branch using EGit. It describes how to create a local feature branch based on the latest remote master branch, develop and test the feature or fix, stage and commit changes locally, and include a Change-ID and signed-off-by footer for pushing to Gerrit later.
The document discusses viewing and troubleshooting optimization processes in Abaqus. It provides information on:
1. Using the Visualization module to view results generated by an optimization process, including viewing the optimized design surface for topology optimizations or the optimized shape for shape optimizations.
2. Viewing results from each design cycle by opening the Step/Frame dialog box or creating an X-Y plot to analyze how objective functions and constraints change over cycles.
3. Diagnosing optimization problems by viewing progressive removal of elements in topology optimizations or incremental shape changes, and using output to determine if the optimization is converging.
This document provides instructions for using skeleton modeling in Autodesk Inventor. Skeleton modeling allows for centralized design criteria and top-down assembly design. The key steps are:
1. Create a master skeleton part file containing layout sketches that reflect the positions of assembly components.
2. Establish critical parameters in the skeleton part and link them to a spreadsheet for input control.
3. Derive new part files from the skeleton sketches to create assembly components. The components will be grounded at the assembly origin.
4. Assemble the derived components in a new assembly file. Changes to the skeleton sketches will update all derived components.
This tutorial covers using Eagle PCB design software to design an electronic schematic and circuit board layout. Eagle consists of a schematic editor, PCB editor, and autorouter. It is available in both Windows and Linux versions. The tutorial will guide the user through drawing a schematic for a microcontroller circuit including a power supply, microcontroller, and interfaces. It also describes how to create custom library components when needed parts are missing from the standard Eagle libraries.
This document is the user guide for Family Tree Explorer Premium genealogy software. It provides instructions on installation, activation, importing family trees from other programs, creating new family trees, and using the various tools and features in Family Tree Explorer Premium. The guide includes a comparison of the different versions of Family Tree Explorer, detailing the key differences between the Premium, Standard, and Viewer editions.
This document provides instructions for a tutorial on generative part stress analysis using CATIA V5. The tutorial is intended to last 45 minutes and cover part design and knowledge advisor capabilities. It describes the 7 major steps, which include designing a wheel rim, renaming parameters, adding formulas to constraints, creating user parameters and formulas, adding a rule and check, and creating design tables to compute inertia elements. It also provides information on setting up the appropriate CATIA settings and material catalog for the tutorial.
This document provides guidance on administering locations, sub-locations, users, and settings in the Enerit ISO 50001 Energy Manager Pro software. It outlines how to create new locations and enter key details like objectives, targets, and default chart configurations. Sub-locations represent areas within a location, like buildings. Users can be assigned access to specific locations. System settings cover general configuration options.
This document provides instructions for creating a mechanism assembly in CimatronE. It describes 9 stages:
1. Early preparation which involves modifying a part to add dimensions for the mechanism.
2. Creating the assembly and adding relevant parts.
3. Defining the main part of the mechanism assembly.
4. Defining the parent/child relationships between parts to group how they are suppressed/unsuppressed.
5. Defining interchangeable parts that can replace each other in the assembly.
6. Defining catalog filtering relations to control which parts are loaded from the catalog.
7. Applying formulas to define parametric relationships between parts.
8. Saving the
This document provides instructions for customizing reports generated from FanTestic blower door software. It describes how to open and edit an existing report template to add company logos and headers or footers with identifying information. It notes that template fields containing data from FanTestic tests should not be removed. The document also briefly outlines how to save, print, generate, and export FanTestic test results.
Data presentation and reporting cognos tm1veeracynixit
This document provides an overview of data presentation and reporting in Cognos TM1, including:
- Browsing cube data using the Cube Viewer and in-spreadsheet browser
- Modifying views by stacking dimensions, drilling down, and changing title elements
- Formatting views using zero suppression, cell formatting, and column orientations
- Creating worksheets, reports, and charts from cube data using slicing, snapshots, and the TM1 print report wizard
- Using active forms to view and update cube data directly in Excel
5. ECO Manager
ECO Manager Introduction
The update of a mold project after ECO is one of the tool designers' most time consuming tasks. The
effectiveness of the ECO Manager tool is totally independent of the project size or complexity. It does not require
any regeneration. Therefore it can be used at any stage along the tool design process with the same efficiency.
The method is based on comparing the Previous ECO with the Current ECO. The results are exported to the
Diff. file and are then imported to the relevant active parts.
The flow of ECO process described in the figure below:
In this exercise you will use the ECO Manager function to compare the master document with an updated file.
The updated file includes engineering changes. The ECO Manager operation will be executed in the Work file.
CimatronE 8.5 ECO Manager 1
6. Compare the master file with the ECO 1 file
Compare the master file with the ECO 1 file
In this chapter we are going to compare a master file with an ECO file. The Compare operation is performed
through a working file.
The master file is the file (model) imported into the working document.
The ECO 1 file is a file of the updated master file after applying changes to it.
Unpack the md_MD_eco.ctf file (Located under Tutorial Work Files Data To Steel directory).
Open the Motorcycle Work.elt. work file from the DM browser.
2 ECO Manager CimatronE 8.5
7. Either select Parting/Tools/ECO Manager from the Parting menu, or click on the ECO Manager icon from
the Parting Guide.
CimatronE 8.5 ECO Manager 3
8. Verify that the Master Motorcycle document is selected as the master document and select the ECO 1.elt
file (Located under Tutorial Work Files Data To Steel directory) as your ECO document. Select OK.
Exit (MMB) to accept the current location of the ECO 1 model.
4 ECO Manager CimatronE 8.5
9. The different groups of the updated model
During the Compare stage, show/hide the different groups to find and understand the engineering changes.
Three groups of faces are created:
• The Blue group: contains the faces to be added to the original part. These faces exist only in the new
part (ECO 1).
• The Red group: contains the faces to be removed from the original part. These faces exist only in the
Master file
• The Unchanged group: contains the Unchanged faces. These faces exist both in the Master and the
Work files.
CimatronE 8.5 ECO Manager 5
10. Add or Remove Faces
Select the Add/remove faces optional step from the Feature Guide.
The Add/Remove faces option enables us to move faces from one group to another by using the middle mouse
button (exit). Multi selection is available for faces from the same group (blue or red faces)
Blue faces can be assigned to the Remove Faces Group by selecting the desired faces and Exit while the
cursor is located on a red face or on a clear area.
Red Faces can be assigned to Unchanged Faces by selecting the desired faces and Exit while the cursor is
located on gray face or on a clear area.
It is always possible to use the Reset button to reject all changes.
6 ECO Manager CimatronE 8.5
11. Hide the Removed faces. Select the blue face as indicated below:
CimatronE 8.5 ECO Manager 7
12. Move the mouse over the clear area, and Exit. The added face has been removed.
8 ECO Manager CimatronE 8.5
13. Select the removed face as indicated in the picture below:
Move the mouse over one of the gray faces and exit. This face will not be removed.
To reject the changes we have just applied, press the Reset tab.
The original changes made to the part will be used.
CimatronE 8.5 ECO Manager 9
14. Export results to File
Examine the Changes
Examine the Changes
Before applying the changes, notice the draft angle applied to the walls of the bosses.
Zoom in to the area marked with a red circle. Notice the changes of the drafted walls.
10 ECO Manager CimatronE 8.5
15. Export Results to File
Note that Export results to File is the current status of the ECO Manager.
Export the results displayed to an external file. When exporting the results to a file, a new file will be created
without affecting the original work file.
If required, you can click the Export results to File toggle button to use the Submit to current
option for exporting the changes to the current work file.
Make sure that the Export results to File option is displayed. Select OK. Save the file
which contains the differences, using the default file name.
Save the file which contains the differences, using the default file name.
Note that the work part itself was not affected by the comparison. The differences in geometry are saved into
another part file.
CimatronE 8.5 ECO Manager 11
16. Update the components
Update the Core Document
Update the Core Document 1
Open the Core.elt document.
From the File menu, select the option Import from Part.
Select the file which contains the differences: ECO_Diff_Master Motorcycle_ECO 1.elt. Click the Select
button.
12 ECO Manager CimatronE 8.5
17. You are requested to select the source UCS Which UCS of the Diff file to place on the Layout UCS . Select
the Using Active UCS option (which is the copied Mold CS in the Diff. file).
You may select the active UCS, Model UCS or any other UCS by selecting it from the display area.
Select OK.
CimatronE 8.5 ECO Manager 13
18. Notice the new sets in the part. The imported geometry is divided into the following three sets.
• Added Geometry
• Boundary Contours which Identify the Changed Areas
• Removed Geometry from the Master
Update the Core Document 2
We will now use the Delete Duplicate Geometry option. This option enables you to easily remove the geometry
that was identified in the work as geometry to be removed. The faces exist both in the Remove set and in the
active part.
Show the Removed Geometry set.
14 ECO Manager CimatronE 8.5
19. From the Tools menu, select the Delete Duplicate geometry option.
Toggle the option to Delete Both Groups and select all the entities.
The Delete Both Groups option will delete the duplicated faces from the original core and the imported set.
Note that the EC0_Remove Master Motorcycle ECO1 set is now empty.
CimatronE 8.5 ECO Manager 15
20. Remove the parting face as indicated in the picture.
Update the core document 3
Show only the Added Geometry set.
Remove the drafted walls (which belong to the cavity active part) as indicated by the arrows.
16 ECO Manager CimatronE 8.5
21. Create a composite from the inner boundary of the hole and then create a new bounded face.
Save the updated file.
CimatronE 8.5 ECO Manager 17
22. Update the Cavity Document
Open the cavity document.
Import the diff file.
Delete the duplicated faces. (Follow the steps in step Update the core document 2)
Show only the added faces set. Remove the faces of the boss as indicated by the arrow (they belong to the
core active).
18 ECO Manager CimatronE 8.5
23. Remove the bottom face (it belongs to the core only).
Remove the old bounded face.
CimatronE 8.5 ECO Manager 19
24. Create a new composite curve.
Create a new bounded face.
Save the updated file.
20 ECO Manager CimatronE 8.5
25. Additional Engineering Changes
Export Another Dif File
Return back to the work file and perform another compare operation using the ECO Manager.
Compare between ECO1 and ECO2
When selecting the ECO1, note the displayed message. Click OK.
CimatronE 8.5 ECO Manager 21
26. Notice the changes. Select OK to export the result to a new file.
Update the Core Document with the New Dif file 1
Open the core and perform the import from part operation .
Select the previously saved ECO_Dif_ECO1_ECO2A.elt. file.
Select the Using Active UCS option.
22 ECO Manager CimatronE 8.5
27. Hide the Added Geometry set, and show the removed set.
Delete the duplicate faces. Select the Delete Both Groups option.
CimatronE 8.5 ECO Manager 23
28. Update the Core document with the new Dif file 2
Show only the Removed Geometry set. Note the extra faces.
These faces belong to the cavity.
Zoom into the green circle..
24 ECO Manager CimatronE 8.5
29. Use the Remove Geometry option to delete the faces.
Show the added faces. Do not delete the faces belonging to the cavity, as we are going to use them in
order to reconstruct the parting faces.
CimatronE 8.5 ECO Manager 25
30. Update the Core Document with the New Dif file 3
Delete the old parting face.
Modify the face as indicated in the picture (to extend the face that belongs to the cavity and not the one
behind it.)
26 ECO Manager CimatronE 8.5
31. Extend the face using the Natural extension and Same Face options, as follows:
Trim the face with the contour and edge as indicated in the picture.
CimatronE 8.5 ECO Manager 27
32. Repeat the same operation on the other side.
Update the Core document with the New Dif file 4
Create a bounded face.
Remove the added face (which belongs to the cavity active part).
Save the updated core.
Repeat the process in the cavity.
28 ECO Manager CimatronE 8.5