Posts Tagged "PMI"

There is so much more to this command than welding. Not only is there a full range of weld types, but you can also model beads of adhesives, glue, and mastic as well as fasteners like rivets for example. Basically there are three categories in Weld Assistant for joining parts, they are: discrete welds, line welds, and adhesives. Normally a rivet is a type of fastener, but they are included as a custom weld in Weld Assistant.

In this post, let’s take a look at how to model rivets. We will create a custom spot weld to mimic a rivet. We will start by configuring a custom weld spot under File + Utilities + Customer Defaults.

  • From the Customer Defaults window, select Weld Assistant + Point Locator and then select one of the Custom tabs.
  • Set the Solid Display to Cylinder and give the custom Point Locator a name… Rivet for example.
  • Set the other attributes accordingly, and then select OK to finish the configuration.

Now create a Rivet the same way you would create a Resistance Weld Spot.

  • From the Weld Assistance command select Weld Point Wizard.
  • From the Weld Point Wizard block:
    • Select your Method
    • Set the Type to the new custom Point Locator you just created (i.e. Rivet)
    • Select Next.
  • Select the Face Sets and then select Next
  • Select the points you want to create Rivets at and then select Next.
  • Select Finish to place the Rivets.

If the Rivets don’t show up at first, then select the Solid Weld Point Display option.

Key benefits to modeling welds in Cad include:

  • Provides a key piece of information necessary for a complete Digital Twin.
  • Mass properties inclusion (Weight and Volume).
  • Easy to visualize.
  • Easy to validate for correct location using Weld Advisor.
  • Easy to convey information via a Drawing or PMI
  • Available for inclusion into CAE analysis
  • Available for process planning
  • Available for robot programming
  • Significant time savings compared to manual application of welds
  • Having the ability to create and validate the Rivets in CAD ensures quality data is being sent to manufacturing thereby reducing the amount of rework.

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Product and Manufacturing Information (PMI) consists of non-geometric data, that is attached directly to a 3D CAD model to define geometric dimensioning and tolerancing (GD&T), engineering and manufacturing specifications, dimensions, and text.  PMI is part of Model Based Definition (MBD) and together these two elements are a part of a Digital Twin.

Applying PMI to a 3D model can reduce or eliminate the use of 2D drawings and can be used downstream to perform tolerance analytics and coordinate-measuring machine (CMM) inspection.

PMI is a command within NX that gives you the ability to create/attach dimensions and annotations to define the 3D model, and requires model views similar to the views on a drawing.  These dimensions and annotations are associative to the 3D geometry, and if it is decided that a 2D drawing is required, then the PMI can be inherited from the 3D model and automatically applied to the drawing views.

We think of MBD and PMI as new technologies and 2D drawings as “old school,” but there are valid uses for a 2D drawing.  Given the ability in NX to quickly create 2D drawings with associative dimensions inherited from the 3D PMI… this gives you the best of both worlds.

The image below demonstrates what PMI looks like in a 3D model view, and the next image down demonstrates the inherited PMI in a 2D drawing view:

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Digitalization is a digital process that ties all phases (ideation, realization and utilization) together through a digital thread that has the intelligence of the products and its lifecycle processes and connects to smart devices which can interpret and react to the information. This digitalized innovation environment is what will provide todays’ and the future manufacturers with sustainable competitive advantage.

Siemens PLM offers a suite of technology solutions to create Model Based Definition (MBD) and to consume it in the downstream processes to support Model Based Manufacturing (MBM). MBD is a complete digital definition of the product within the 3D model. One of the key element that contributes to MBD is PMI or “Product and Manufacturing Information”.  It Conveys information such as geometric dimensioning and tolerancing (GD&T), 3D annotation (text), surface finish , material specifications etc.  NX PMI has an advanced toolset for creating rich PMI content that enables product development companies to capture and associate this design & manufacturing requirements directly with the 3D model, and share this information with other development applications . This enables the manufacture and inspection of the product without need for traditional 2D drawings.

NX PMI Objectives include

  • Capture and communicate design and manufacturing intent
  • Streamline the PMI authoring process
  • Facilitate and maximize downstream reuse
  • Remove the effort and cost of manually producing drawings
  • Support MBD and MBM initiatives

The solution capability highlights include

Dimensioning 

  • Smart dimensioning commands infer method based on selection
  • Dimensions are created in model views based on a defined annotation plane
  • Simplify authoring of dimensions by defining Feature Dimensions and Sketch Dimensions as PMI with “Display as PMI”
  • NX supports the import and export of semantically rich PMI from JT

Annotation 

  • Various types of PMI annotations allow users to specify important manufacturing requirements in the forms of
    • Note, Datum Feature Symbol, Datum Target, Feature Control Frame, Surface Finish, Weld (including Weld Assistant) , Balloon, Custom Symbols

Specialized Notes 

  • A variety of specialized PMI notes that allow users to extract or display specific information
  • Targeted at specific/specialized uses like
    • Coordinate, General & Specific Notes, Enterprise Identification, Material Specification, Part Identification, Fabrication Labels, Process Specification, URL Note, User Defined , String, Number and Integer Notes

Supplemental Geometry 

  • Per 3D Annotation Standards
  • Support for PMI Centerlines and Center Marks. Interactive control over extensions
  • PMI Regions are used to indicate or designate areas of a model for special purposes
    • Limited application of a tolerance
    • Show the area affected by a datum target
    • Designate a standalone region not referenced by other PMI annotations

Sectioning, Mirroring & WAVE 

  • PMI (Lightweight) Section and Legacy PMI Section
    • Options for Single Plane, Parallel Planes and Box Type
    • Can be inherited onto a drawing
    • Crosshatch derived from material
    • Cutting Plane Symbol Support
  • Support for Mirror PMI and Model Views & Support for reposition, delete and hide the mirrored PMI objects
  • WAVE PMI Linker: Include Body and Topology

Search & Reports 

  • PMI Search locates PMI display instances based on specific criteria
    • Specify PMI Type , Define Range ,Designate Output Preference
  • PMI Report generates a spreadsheet detailing specific PMI content
  • Find PMI Associated To Geometry displays a summary of PMI associated with selected geometry

Security Markings 

  • Per 3D Annotation Standards
  • PMI Security Markings can be applied and appear in an Information window when the part file is opened
  • Markings provide an acknowledgement mechanism before the part is loaded
  • Customizable Messages for
    • Government Security Information
    • Company Proprietary Information
    • Export Control

GD&T Validation

  • Verification that PMI GD&T on a part is compliant with the GD&T standards (ISO and ASME)
  • Syntactic and Semantic checks
    • Validation for FCFs and Datum Feature symbols
  • Results are presented in HD3D for improved visual feedback

 

 

 

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