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NX CAD Advanced

Siemens NX, Advanced Assembly refers to the more advanced features and tools used for handling large, complex assemblies in a way that optimizes performance and improves the efficiency of the design process.

• Assembly Management and Organization
• Assembly Visualization
• Large Assembly Management
• Assembly Design and Interference Checking
• Assembly Design and Detailing
• Collaboration and Data Management
• BOM Reports/Output Tools
• Assembly Aesthetics and Visualization

Topics:

• Overview of Adv. Assembly
• Arrangement
• Reference Set
• Subassembly
• Clearance
• Weight
• Interpart
• Interpart Link Browser
• Component Grouping
• Assembly Representation
• Like Exterior
• Advanced Mass Properties
• Clone Assembly etc.

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Advanced Surface (FF2-Freeform-2)

NX CAD Advanced surface modeling refers to creating complex and precise surface geometries that are often used in industries like automotive, aerospace, and product design.
NX provides a wide range of tools for working with advanced surfaces, including features for creating, modifying, and analyzing surfaces in 3D.

Topics:

• Bridge Surface
• Perform Analysis
• Through Curves
• Primitive
• Dividing Face
• Sectioning
• Revolve Surface
• Blend Surface
• Silhouette Flange
• Surface Blend
• Edge Blend
• Extrude Surface
• Surface Radius
• Intent Surface
• Extend Surface
• Trim
• Offset Surface

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Advance Sheet Metal

Advanced Sheet Metal commands enable you to work with straight-brake and non-straight-brake features.
These commands offer cutting-edge technology to control the flattening process. When the formed sheet metal part is associated with the Sheet Metal commands, they provide a complete set of tools to model the sheet metal part successfully.

Topics:

• Advance Flange
• Meta-Form
• Lightening Cutout
• Joggle
• Flattening Complex Joggle

PRODUCT MANUFACTURING INFORMATION (NX PMI)

• Product Manufacturing Information (PMI) in Siemens NX is a crucial feature that allows you to embed manufacturing-related data directly into 3D models. PMI helps bridge the gap between design and manufacturing by providing all necessary specification, dimensioning, and tolerance required for production.
• PMI is often used in the context of Model-Based Definition (MBD), where the 3D model itself contains all the relevant information for manufacturing and inspection, allowing companies to reduce reliance on traditional 2D drawings.

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User Defined Features (UDFs)

• You can create your own features that automate commonly used design elements.
• You can add the user defined features into a library.
  You can use and edit the standard solutions for features, and create non-technical libraries of features that are tailored to your needs.

Expressions

• You can create your own features that automate commonly used design elements.
• You can add the user defined features you create to the target model.
• You can define the shape and function of features, and create hierarchical libraries of features that are tailored to your needs.

A. User Expression

B. Software Expressions

Topics:

• Create expression links within a part environment
• Create interpart link expression
• Import/Export expression link
• Load options for expression link
• Expression link Customer Defaults settings
• How to replace/remove expressions from parts/assembly?
• How to suppress features by using expression?
• How to use if/else condition for expression?

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PRODUCT TEMPLATES STUDIO (PTS)

• Create CAD Templates without Programming.
• With NX product templates, you can automate much more than design modelling.
• To automate and standardize engineering processes, you can incorporate product and manufacturing information, drawings, motion analysis, structural simulation, and validation checking into the templates.
• NX Product Template Studio is one such code-less tool. Using simple drag-and-drop methods, an NX designer can greatly simplify interaction with useful parametric models by quickly and easily wrapping a descriptive user interface around the design.

NX Advanced Freeform Surface Design

NX CAD Surfacing Capabilities:

• Siemens NX CAD provides a powerful Class-A surfacing environment designed for complex product development, from automotive body panels to aerospace components, consumer products, plastics, and mold design.
• Its surfacing tools integrate curve creation, surface generation, analysis, optimization, and flattening in a single associative platform.

NX supports:

• Class-A, Class-B, and Class-C surface modeling
• High-precision surface continuity (G0/G1/G2/G3)
• Advanced tools like Studio Surface, Through Curve Mesh, N-Sided, Bridge Curve
• Surface healing and data optimization for imported geometry (STEP/IGES)
• Porcupine, Zebra, and Reflection analysis for curvature quality
• Integrated flattening and sheet metal surfacing support
• Full associativity for rapid design updates
• Industry workflows for OEM surface remodeling, reverse engineering, and scan data processing

With NX, designers can open any file, clean/repair bad geometry, create new surface patches, validate Class-A quality, and export clean geometry for manufacturing, tooling, or simulation.

Training Objective:

By the end of this training, participants will understand how to:

• Open, manage, and repair imported surface data
• Detect and resolve surface quality issues
• Create advanced surfaces using best-practice workflows
• Use NX surface analysis tools accurately
• Flatten complex surfaces for manufacturing
• Export optimized final surface data

Detailed Training Agenda:

NX CAD Fundamentals

Training Objective

This program introduces the fundamental concepts of Siemens NX CAD. Participants will learn to navigate the essential interface, use foundational 3D modeling tools, and leverage best practices to build simple to moderately complex 3D components and assemblies. This session is ideal for new users looking to quickly become productive in the NX environment.

Overview / Agenda:

• Overview of NX
• Graphical User Interface (GUI)
• Basic Operations (View)

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Sketcher

• Curve Group: Construction tools, sketch plane orientation, reattach, point/line, profile, rectangle, circle, arc, spline, conic, ellipse, polygon, derived lines
• Edit Group: Fillet, chamfer, offset, pattern, mirror, trim, extend, corner
• Include Group: Include, project curve
• Constraints: Dimensional and geometrical (applying dimensions and relations)
• Solve Group: Fix curve, show movable, relax dimension, relax relation, ignore relation

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Solid Modeling

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Synchronous Tools

• Move
• Pull Face
• Delete
• Resize Chamfer
• Radiate Face
• Offset Face
• Assign Feature Color
• Replace
• Resize Blend
• Resize Hole

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Assembly – Fundamentals

• Assembly: Move (single component/part), Move (entire assembly), New component, New version
• Position Group: Move component, assembly constraints, show degree of freedom, alignment, mate
• Component: New, with list, dimension, measure, ask min/max, unique, ask mass properties, suppress & unsuppress component
• Show Only

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Drafting or Drawing

• Sheet Group: New sheet, edit sheet
• View Group: Main, projected view, cut view, detail view, section view, view edit, break view, shaded view, auxiliary view
• Dimensions: Radial, linear, angular, hole & thread callout, chamfer, ordinate, thickness
• Annotations:
  • Note, datum feature, feature control frame, datum target, balloon, center mark, 2D centerline, 3D centerline, automatic centerline, inspection symbol
• Table: Tabular note, parts list, hole table
• Edit Settings

• TRANSLATOR: IGES Translator, NX DXF/DWG, NX STEP AP203/AP214, NX JT, NX 2D Exchange
• Applying Material: Assign Material, Manage Material
• Analysis Tools & Finding Component Properties: Measure, Show Mass Properties panels

NX Model Based Definition (MBD)

Training Objective

This training on NX Model Based Definition (MBD) offers a clear understanding of MBD concepts and their advantages in today's digital manufacturing landscape. Participants will learn to create and manage Product Manufacturing Information (PMI) annotations on 3D models, apply Geometric Dimensioning and Tolerancing (GD&T) per industry standards, and organize PMI views for clear communication with manufacturing and inspection teams. Attendees will also gain skills for validating the model's completeness and sharing MBD data efficiently for downstream applications such as manufacturing, quality inspection, and digital documentation.

Training Agenda

What's New in Latest NX Version & AI in NX

Duration: 3 Hours

1. Introduction
   • Overview of Siemens NX
   • Evolution to NX 2512
   • Key themes:
     • AI-driven engineering
     • Productivity & automation
     • Integrated digital thread
2. User Interface Enhancements
   • Modern UI improvements
   • Role-based customization
   • Smart navigation & workflow optimization
   • Command accessibility improvements
3. Sketcher Enhancements
   • Constraint solver improvements
   • Smart dimensioning
   • Faster sketch performance
   • Profile detection updates
4. Modelling Enhancements
   • Feature creation updates
   • Boolean & synchronous modelling improvements
   • Editing imported geometry
   • Parametric flexibility improvements
5. Assembly Design Updates
   • Large assembly performance
   • Constraint handling improvements
   • Lightweight representations
   • Assembly load optimization
6. Structure Designer
   • Frame design enhancements
   • Profile libraries & reuse
   • Structure workflow improvements
7. Sheet Metal Enhancements
   • Flange & bend improvements
   • Flat pattern accuracy
   • Manufacturing-ready design
8. PMI / Drafting Enhancements
   • PMI creation improvements
   • GD&T updates
   • Automated drawing generation
   • Model-Based Definition (MBD)


9. Corrosion Analysis
   • Early-stage corrosion prediction
   • Material behaviour insights
   • Product lifecycle improvement
10. DFM Advisor
    • Design for Manufacturing validation
    • Manufacturability checks
    • Cost & feasibility insights
11. Human Modelling
    • Ergonomic analysis
    • Human interaction simulation
    • Safety & usability validation
12. AI in NX & Teamcenter (Major Highlight Section)
    • AI-Powered Engineering in NX
      • Design Copilot
        • Prompt-based modelling
        • Automated feature creation
        • Engineering knowledge assistance
      • Discovery Center AI Guidance
        • Context-aware help system
        • Guided workflows for users
        • Learning assistance inside NX
      
      
      • Smart Selection & Prediction
        • NX Selection Prediction
        • NX Command Prediction
        • NX Select Similar Faces / Edges
        • NX Similar Component
      • Generative Engineering / Topology Optimization
        • AI-driven design exploration
        • Lightweight & optimized structures
        • Performance-driven geometry creation
    • Teamcenter AI Capabilities
      • Teamcenter Co-pilot
      • Natural Language Search
      • AI-Assisted Part Finder

NX Parametric Design

Training Objective:
This training will focus on advanced parametric design capabilities in NX, enabling users to create intelligent, reusable, and automated CAD models using Expressions, User Defined Features (UDFs), and Product Template Studio (PTS). The session will help users improve design automation, standardization, and productivity in NX.

Expressions (Ctrl+E)

• Create expression links within a part environment
• Create interpart link expressions
• Import/Export expression links
• Load options for expression links
• Expression link Customer Defaults settings
• How to replace/remove expressions from parts or assemblies
• How to suppress features by using expressions
• How to use if/else conditions in expressions

User Defined Features (UDFs)

• Configure the UDF library definition file and index file
• Create a user defined feature and save it as a special part file
• Insert the user defined feature into a part
• Replace one user defined feature with another

Product Template Studio (PTS) (Add-On: NX30472)

• Define a user interface for reusing a part or assembly as a product template (Product Templates Author)
• Create PTS templates for parts
• Create PTS templates for assembly arrangements
• Create PTS templates for controlling assembly constraints (Length & Angle type)
• Create PTS templates for controlling analysis measure results (mass, weight, volume), including for volume check requirements
• Control sketches using PTS