
Explore CAD, CAM, and CAE basics, including 2D/3D modeling, rapid model development, detailing, and computer-aided manufacturing and engineering simulations for product design and fabrication.
Explore projection methods, including first angle and third angle projections, and how vertical and horizontal planes create four quadrants for front, top, and side views.
Explore fundamental units and their design relevance. Compare metric and imperial systems, and practice conversions among square centimeters, microns, inches, pounds, and time units like minutes and milliseconds.
Learn how to download and install the Siemens NX 1926 student edition, including signing up for free, locating the download, and following a straightforward step-by-step installation.
Learn to navigate Siemens NX's graphical user interface with the navigator panel, access part and assembly navigators, the web browser, and drag parts into the graphics window to add components.
Learn to use mouse and keyboard combinations in Siemens NX 1926, including left click, scroll to zoom, middle mouse to pan, right-click to rotate, and ctrl+shift+left click to access tools.
Customize the Siemens NX user interface by switching themes, adjusting layout and ribbon, toggling full-screen modes, and transferring personalized settings across systems.
Explore sketch tutorials and shortcuts to boost speed in Siemens NX 1926 essential training, focusing on creating and modifying sketches for extrusion, sweep cuts, and component modeling.
Explore sketch setup in nx 1926: create sketches on a reference plane, draw rectangles (two-point and three-point) and circles (center-diameter), and manage driving dimensions for precise, constrained sketches.
Explore draw tools 2 in Siemens NX 1926 to create splines, set center points, tangents, and intersections, with coordinate placement and practical notes on blade design and stress concentration.
Practice advanced sketching in Siemens NX 1926 with draw tools 3, mastering offsetting, single-curve selections, directional copies, and both rectangular and circular patterns to create multiple instances.
Learn advanced sketch tools in Siemens NX 1926, including geometric constraints, symmetry techniques, and display and sketch settings to manage driving dimensions and references.
Animate a dimension in Siemens NX to drive sketch motion from 0 to 360 degrees, using center rectangle constraints and angular piston concepts for model visualization.
Learn to craft precise sketches in Siemens NX by choosing plane locations, drawing lines and circles, setting centers and radii, and applying constraints through guided steps.
Learn the sketching strategy in Siemens NX 1926 by choosing an origin, enforcing symmetry with lines or rectangles, trimming excess lines, and refining heights.
This lecture demonstrates how to use the extrude command in part modeling, stressing closed sketches, selecting planes and vectors, and applying booleans to create and remove material for solid geometry.
Learn to create a revolved feature in Siemens NX by selecting the rotation axis, using a closed or open sketch, and adjusting offset and thickness.
Explore primitive design features in Siemens NX, learning how predefined shapes are selected, configured by origin and height, and combined with extrude, subtract, and union operations to speed up modeling.
Explore the edge blend tool in Siemens NX 1926, applying single and variable radii, using points to define radius variation, and creating aesthetically driven, aerodynamic edge transitions.
Learn to create chamfers on edges in Siemens NX 1926, selecting one or multiple edges, applying symmetric chamfer, and adjusting the distance with different options to control angle and offset.
Delve into a core concept of working with objects in Siemens NX, highlighting draft logic, object paths, and the sequence of operations. Apply this universally across general workflows.
Discover how datum planes act as reference geometry in Siemens NX 1926, enabling sketch creation and sheetmetal assembly features with parametric and non-parametric options, offsets, rotation, and tangent references.
Learn how to create swept features in Siemens NX 1926 by using multiple cross sections along a path, selecting surfaces, and controlling direction, spacing, and orientation.
Master sweep along guides in Siemens NX 1926, selecting one profile and a continuous path, ensuring the cross section passes through the gate, with offset options demonstrated.
Explore variational sweep in Siemens NX by progressively varying cross sections and multiple sections along a sketch, without pre-creating planes, to create complex forms.
Learn to create a tube using the sweep and rescue tools in Siemens NX 1926 by drawing circular profiles, ensuring tangential constraints, and selecting the correct orientation to prevent deformation.
Explore pattern and mirror features in Siemens NX 1926, comparing geometry versus pattern, selecting features in specific directions, and handling independent bodies for flexible part modeling.
Scale bodies and extract geometry in Siemens NX 1926, and learn how radius changes affect linked features and the impact of deleting a parent object on geometry.
Create ribs in Siemens NX 1926 to achieve a uniform thickness for plastic components, and learn how to adjust draft, select perpendicular directions, and integrate rib geometry into profiles.
Use layer settings to control visibility in Siemens NX, hide or reveal parts of your model, and keep the big picture of the constructed design in view.
Learn to use the section plane in Siemens NX to define and adjust a cutting plane, observe cross-sections on a solid, and measure distances between faces for precise analysis.
Learn how synchronous modelling quickly modifies non parametric models without reworking parametric history, reducing development time and enabling rapid resizing, thickness, and feature edits.
Master boolean operations in Siemens NX 1926, including union, subtract, and merge, to create the volume shared by two components.
Demonstrates boolean operations for modeling by removing material from a raw block to create final parts, highlighting subtract steps, casting and machining considerations, and practical part modeling tips.
Create a basic part by sketching on a plane, applying constraints, and using the extrude operation to build a simple component, with attention to orientation and documentation.
Create a part model in Siemens NX 1926 by sketching a base rectangle 60-40, setting orientation, and building up with space sketches and steps.
Explore a part model demo in Siemens NX 1926, focusing on component orientation, left-side strategy, extrusion, holes, constraints, and symmetry to align with reference points.
Demonstrate a part model assembly workflow in Siemens NX 1926 part model demo 5, including sketching steps, assembly constraints, and practical considerations for linking elements.
Explore how common part-modelling tools apply to surface modelling in Siemens NX 1926, including extrude and remove operations, thickness handling, and the solid versus surface distinctions.
Create and inspect 3D points, lines, and arcs in Siemens NX; define points by X, Y, Z or two coordinates, select them, and build lines.
Explore 3d curves with iso-parametric curve techniques in Siemens NX 1926, including spacing control, uniform point distribution, and surface probing to generate curves on surfaces.
Learn to work with 3D curves in Siemens NX 1926 by creating and applying offset curves and bridge curves, including sketching workflows and practical examples to connect geometry.
Explore 3d curves, including projecting onto surfaces, surface-to-surface intersections, and direction considerations to practice curve construction in Siemens NX 1926.
Explore 3D curves and the combined projection curve, analyzing how perpendicular directions and projections across surfaces and planes guide 3D modeling in Siemens NX 1926.
Develop helix curve operations in Siemens NX 1926, then adjust radius, range, and directional start points to shape and preview 3D profiles within an evolving design.
Learn to wrap 3d curves and create other curves in Siemens NX using circular motion, plane references, intersections, and pattern-based offsets.
Explore long extension concepts and options for creating surfaces in Siemens NX 1926, including vector extension, face handling, local and rotation angle features.
Discover how to create and evaluate different surface types in Siemens NX 1926, focusing on surface continuity, mesh considerations, and accuracy to choose the most effective surfacing approach.
Develop practical proficiency with face blend in Siemens NX 1926, exploring options, selection, and motion considerations described for servicing and instruction contexts.
Explore how to create offset faces and offset surfaces in Siemens NX, including handling open profile, closed profile, and the resulting surface and solid geometry.
Explore the variable offset face feature in Siemens NX, learn to apply distinct offset values to a face, draw the surface, and specify partitions as needed.
Explore the through curve mesh workflow in Siemens NX 1926, learning to extract surfaces, manage boundaries, and compare surface behavior using true colors to identify gaps and joins.
Explore through curves and ruled surface in Siemens NX 1926 essential training. Examine how diverse perspectives and online actions, such as social media posts, influence design decisions and potential futures.
Apply thicken and sew operations in Siemens NX to convert open surfaces into closed solids, compare open versus closed surfaces, and understand joints and solid creation.
Learn to create sheet metal parts in NX 1926 by setting thickness and converting solids. Build basic features from sketches and apply offsets to finalize the sheet metal models.
Develop versatile contour flange and normal cut-out features in Siemens NX 1926 by sketching, adjusting flange geometry with symmetry options, and exporting for laser cutting.
Explore punching features for dimples and louvers in NX, using sketches to create rectangular or circular punches, and evaluate surface regulations, patterns, and multiple design proposals for ventilation.
Master bend and corner work in Siemens NX 1926 essential training, covering manufacturing concepts, ducting options, part input, and how punch, openings, and fittings influence design.
Learn how to model a solid punch in Siemens NX 1926, including selecting target bases and faces, understanding punch motion, and how part stiffness influences the forming result.
Explore creating flat patterns in Siemens NX and exporting the final component for laser cutting, with boundary and features selection.
Convert solid to sheet metal in Siemens NX 1926 essential training by converting solid bodies to sheet metal and selecting the base to generate sheet metal from solid parts.
Demonstrate modeling a bracket in sheetmetal, inserting holes, and preparing it for manufacturing. Compare direct modeling with a pattern-first approach in sheetmetal workflows.
In sheetmetal demo 2, this Siemens NX 1926 essential training guides you through practical sheetmetal modeling, emphasizing calculating lengths, verifying numbers for parts, and adjusting designs based on material availability.
Learn to add a component to an assembly in Siemens NX and import parts. Apply assembly constraints, fix relations, and establish the absolute origin to ensure correct motion.
Apply assembly constraints in Siemens NX 1926 by selecting components, using fixed constraints, coincidence, and surface-to-surface contacts, and aligning centers and distances for precise assemblies.
Examine assembly constraints in Siemens NX, explore constraint types like distance, fixed, and directional constraints, and show how to apply closest and perpendicular relationships to parts.
Learn to create explosions in a Siemens NX assembly, animate the tools and parts, and manage explosion sequences and options.
Explore how to create and manage assembly arrangements in Siemens NX, including setting active arrangements, adjusting component orientation and position, and saving multiple configurations like bucket variants.
Learn pattern assembly and mirror assembly in Siemens NX to efficiently assemble components in the engine assembly area.
Explore how the wave geometry linker in Siemens NX 1926 uses extract geometry to reference the current part, manage precedence, and propagate changes across dependent components.
Watch this assembly demo to learn constructing an assembly by adding components, following the sequence, and using shared resources to practice moving the assembly and troubleshoot constraints.
Explore assembly creation in NX by building and combining parts into a complete group, adding bottom components, arranging patterns, and practicing sequence-based analysis for efficient assembly.
Explore the drafting module gui in Siemens nx 1926, create a drafting part, use templates, set sketch boundaries, adjust views, and configure frames, titles, and plotting options.
Explore drafting views in Siemens NX, selecting components, setting view locations, and adjusting model and isometric projections. Learn to detail zones with critical features, center points, and scaling.
Learn to create drawing views in Siemens NX 1926 by building base views, applying section lines, generating sectional views, and using vertical projection to compare cross-sections across components.
Explore drawing views in Siemens NX: create isometric sections, set view axis and direction, apply pictorial sections, adjust arrow directions, and update drawings for accurate isometric cuts.
master drafting dimensioning by applying linear and angular dimensions, selecting points, and defining point-to-point distances within a 3d model workflow from sketch to final dimensions.
Develop drafting annotations in Siemens NX by exploring features, surface finish, radii, and component design, and learn how these annotations guide manufacturing and assembly data.
Develop proficiency in drafting tabular notes such as bom, bend table, and hole table within Siemens nx 1926, detailing part numbers, properties, materials, and assembly contexts.
Learn to create and apply a custom template in Siemens NX 1926, configure borders and margins, and define a reusable company title for consistent project documentation.
Discover how to customize the Siemens NX interface by tailoring the ribbon bar and toolbars, assign frequent tools to keyboard shortcuts, and create personal layouts to speed up work.
Customize border toolbars in Siemens NX 1926 by adding frequently used tools to the ribbon and adjusting left, right, top, and bottom borders for quick access.
Customize keyboard and mouse toolbars in 10X, assign shortcuts for part modeling, and save these settings to share with teammates.
Hello Students,
NX CAD (formerly Unigraphics) is a robust 3D solution that provides fast and realistic concept design and modeling. Superior in power and flexibility, NX CAD design tools are a breakthrough in the industry, setting new standards for speed performance and ease of use. Product design is about innovation.
This course consist of topics Siemens NX CAD training in quite detailed manner in order to give the more focused and well guided contain for learning the NX CAD for completely new student to CAD designing software.
The course starts from the scratch .i.e. from the basic terminologies of CAD design than starting to software Siemens NX CAD 1926
Introduction to Siemens NX
GUI of Siemens NX
Sketcher Module
Part Modelling Module
Surfacing Module
Sheet Metal Module
Assembly Module
Drafting Module
Rendering
Customization in NX's GUI
Each of module will contain of reading material, quiz & assignment for better and effective learning path to master the software with the proper in depth learning experience to all students.
After completing the course you will be confident to model any CAD modelling along with it's drafting and pass any CAD modelling test for interview selection.
The NX CAD New Version Update course will provide information and exercises that introduce the newest version of Unigraphics/NX that is released.
Who can Buy this Course:
Understudy with no earlier information in any displaying programming
Amateurs in Siemens NX who need to learn it rapidly
Individuals who knew Siemens NX before however have neglected and need to revive in a brief time frame
Any individual who imparts through specialized drawings and portrayal as a piece of their investigation or work.
Working Experts hoping to update their abilities