NX 10 FOR BEGINNERS
NX 10 FOR BEGINNERS
NX 10 For Beginners introduces you to the basics
of NX 10 by using step-by-step instructions. You begin with brief introduction
to NX 10 and the User Interface, ribbon, environments, commands, and various
options.
Within a short time, you will learn
to create 2D sketches that form the basis for 3D models. You will learn to
sketch on three different planes (Front, Top and Right planes). You will use
various sketching tools such as line, rectangle, circle, and so on. You will
also learn to modify sketches using tools such as trim, extend, fillets, and so
on. Learn to use geometric constraints and dimensions to achieve a definite
shape and size of the sketch.
Sketches are converted into 3D
features such as Extrude, Revolve, and so on. You combine or subtract features
to achieve the final part. You can also add placed features (sketch less
features) such as Fillets, and Holes to the 3D geometry. You explore mirroring
and patterning commands to create repetitive features.
You will learn to use some
additional modeling tools and work with multi-body parts. Learn to modify part
geometry by editing sketches and feature parameters. You explore Synchronous
Modeling tools to modify the Part geometry by modifying its faces.
You build assemblies after creating
parts. There are two methods to build assemblies: Bottom-up and Top-down. In
the Bottom-up method, you bring all the parts together and add constraints
between them. In the Top-down method, you create parts in the assembly level.
You explode assemblies to show the manner in which they were assembled.
You create Drawings of the parts
and assemblies. You insert part views and add dimensions and annotations to
complete the drawing. In case of assembly drawings, you insert assembly views,
add Bill of Materials, Balloons, and Revision table.
The Sheet Metal design chapter
covers various tools used to build sheet metal parts from scratch. You will
also learn to convert an existing part geometry into sheet metal part. You also
create flat patterns and 2D sheet metal drawings.
Finally, you explore the surface
modeling tools used to create complex shapes.
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