CAD Exchanger Products
CAD Exchanger Products

How to convert Siemens NX
to VRML?

Applications for end-users. SDK's and tools for software developers. Custom development services for businesses.

Trusted by industry leaders

Available in CAD Exchanger Products

CAD Exchanger Lab

Desktop application to view, explore and convert 3D CAD data across 30+ file formats.

WindowsMacOSLinux
Learn more 
CAD Exchanger Lab

CAD Exchanger SDK

Software libraries for C#, C++, Java, Javascript and Python.

C++C#JavaJavaScriptPython
Learn more 
CAD Exchanger SDK

Siemens NX

Siemens NX is a proprietary format developed by Siemens Digital Industries Software and is optimized for seamless interoperability and efficient data exchange within the NX ecosystem. This format enables users to preserve the integrity and accuracy of their designs while facilitating collaboration and facilitating various engineering processes throughout the product lifecycle.

Support of Siemens NX files in CAD Exchanger

CAD Exchanger can import .prt files from v5 to 2212. Such support includes:

  • B-Rep representations;
  • polygonal representations (including multi-LODs);
  • assembly structure (via external files);
  • names;
  • graphical PMI;
  • colors.

Follow this link to check out all the CAD Exchanger products.

Pros of the format

Synchronous Technology

It is a capability integrated into the Siemens NX format that provides significant advantages for engineers and designers, including flexible editing, faster design iterations, easy collaboration, and enhanced design reuse.

Synchronous Technology allows for direct editing of geometry without being constrained by the traditional parametric modeling approach. Designers can easily modify and manipulate geometry without the need to track and update a complex history tree. Moreover, changes can be made directly on the model, providing instant feedback and allowing for quicker design optimization.

Integrated Product Lifecycle Management

One of the key advantages of the Siemens NX format is its seamless integration with Teamcenter PLM solutions. This integration allows for comprehensive product data management, including design, simulation, manufacturing, and collaboration, all within a unified environment. The tight integration of PLM capabilities ensures data consistency, reduces errors, and improves collaboration throughout the entire product lifecycle.

Cons of the format

Proprietary nature

Because the NX file format is specific to Siemens NX, developers may encounter challenges when trying to exchange data or collaborate with users or systems that utilize different file formats. This can require additional conversion or translation steps, which may introduce complexity and potential data loss or inconsistencies.

Furthermore, working with a proprietary file format restricts developers from leveraging open-source or third-party libraries and tools that are not designed to work directly with the NX format. This limits the flexibility and extensibility of developers' applications and may require more effort to implement certain functionalities.

Cost

The Siemens NX format refers to high-end CAD software, and it comes with a corresponding price tag. Compared to some other CAD tools, the licensing and maintenance costs for NX can be relatively higher. This may make it less accessible for individual users or small businesses with limited budgets. However, it's worth noting that the comprehensive features and robust capabilities of NX often justify the investment for larger organizations or industries where its unique strengths are crucial.

FAQ

What industries is the Siemens NX format commonly used in?

The Siemens NX format is widely used in industries such as automotive, aerospace, machinery, and many more. It caters to the needs of professionals involved in product design, manufacturing, and simulation.

Can the Siemens NX format be used for 2D drafting?

Yes, the Siemens NX format supports both 2D and 3D drafting and modeling. It offers a comprehensive set of tools for creating and editing 2D drawings, as well as designing complex 3D models.

Yes. Siemens NX assemblies are represented with external files and it's possible for an assembly to contain components saved by different versions of NX. In case some of the components are saved by an unsupported version of NX, CAD Exchanger will not be able to load them and they will be omitted from the imported product structure.

How to open a .prt file?

To open this file, you will need a compatible software application, for example, CAD Exchanger Lab. Launch the software and navigate to the 'New file' option. Browse your computer's directories and locate the .prt file you want to open. Then select it and click "Open". Once the import process is complete, the .prt file should be loaded into the software, allowing you to view and interact with the 3D model and associated data.

History of Siemens NX format

The NX format has an interesting history that traces back to the early 1990s. It was initially developed by Unigraphics Solutions, a company founded in 1969 and later acquired by Siemens AG in 2007. Unigraphics, which later became known as Siemens Digital Industries, introduced the first version of the NX software suite in 1996.

Over the years, NX has evolved into a comprehensive and powerful CAD and CAM solution. With each new release, NX has consistently pushed the boundaries of innovation and set new industry standards. It has become a perfect choice for professionals in various industries, including automotive, aerospace, and industrial machinery.

The NX format itself has been constantly refined and enhanced to support advanced modeling techniques, simulation capabilities, and data management. It offers a range of features, such as parametric modeling, assembly design, digital simulation, and more, allowing engineers and designers to create and optimize complex products with efficiency and precision.

Today, the Siemens NX format is recognized as a leading CAD format, known for its robustness, flexibility, and compatibility with other industry-standard formats. It continues to evolve and adapt to the ever-changing needs of the engineering and design community, empowering users’ capabilities.

VRML

VRML (Virtual Reality Modeling Language) was originally known before 1995 as the Virtual Reality Markup Language. It is a standard file format for representing 3-dimensional (3D) interactive vector graphics, designed particularly with the World Wide Web in mind.

VRML is a text file format where, e.g., vertices and edges for a 3D polygon can be specified along with the surface color, UV mapped textures, shininess, transparency, and so on. URLs can be associated with graphical components so that a web browser might fetch a webpage or a new VRML file from the Internet when the user clicks on the specific graphical component. Animations, sounds, lighting, and other aspects of the virtual world can interact with the user or may be triggered by external events such as timers. A special Script Node allows the addition of program code (e.g., written in Java or ECMAScript) to a VRML file.

VRML files are commonly called "worlds" and have the *.wrl extension (for example island.wrl). VRML files are in plain text and generally compress well using gzip, useful for transferring over the internet more quickly (some gzip compressed files use the *.wrz extension). Many 3D modeling programs can save objects and scenes in VRML format.

Formats list

Convert Siemens NX
to VRML

Need to work with CAD files in numerous formats? No worries.

From Siemens NX to VRML, CAD Exchanger gets you covered.

What Our Delighted Customers Say

From Our Blog

Everything you need to know about CAD file formats

Everything you need to know about CAD file formats

A CAD file is an output of a CAD software, containing key information about the designed object: its geometry and topology representation, 3D model hierarchy, metadata, and visual attributes depending on the format of the file.

Read more 
Integration with UNIGINE engine

Integration with UNIGINE engine

This article explores the integration possibilities with the UNIGINE engine, a powerhouse in the realm of virtual simulation and game development. Learn how it can be used in applications built with the UNIGINE engine to import CAD and 3D models.

Read more 
Manufacturing Toolkit and Web Toolkit enhancements, Unity performance optimization, renaming and rotating SDK examples in release 3.24.0

Manufacturing Toolkit and Web Toolkit enhancements, Unity performance optimization, renaming and rotating SDK examples in release 3.24.0

Explore the wall thickness at a specific point on a surface, enjoy four times faster Unity objects performance, and check out renaming and rotating examples in SDK.

Read more