Desktop application to view, explore and convert 3D CAD data across 30+ file formats.
Software libraries for C#, C++, Java, Javascript and Python.
Learn how to convert IAM to STL with CAD Exchanger
An IAM file is an assembly model created with Inventor CAD and engineering software by Autodesk.
The IAM format comprises parts and subassemblies linked through assembly relationships. A subassembly in an IAM file is a self-contained unit with its collection of parts.
The .iam extension of an Autodesk Inventor Assembly Data File can be viewed using the following software: Autodesk Inventor / Inventor View, and Spaceclaim Engineer software. Autodesk Viewer web application and Fusion 360 integrated CAD / CAM / CAE software environment can import and render an assembly model created with Inventor.
STL (STereoLithography) is a file format native to the stereolithography CAD software. This file format is supported by many other software packages; it is widely used for rapid prototyping, 3D printing and computer-aided manufacturing. STL files describe only the surface geometry of a three-dimensional object without any representation of color, texture or other common CAD model attributes. The STL format specifies both ASCII and binary representations. Binary files are more common, since they are more compact.
Need to work with CAD files in numerous formats? No worries.
From IAM to STL, CAD Exchanger gets you covered.
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 moreRead the latest versions of Inventor, Creo, and NX files in CAD Exchanger SDK and Lab. Try a new nesting functionality and improved sheet metal unfolding, explore new CNC machining features in Manufacturing Toolkit.
Read moreThis article dives deep into the details of Autodesk Inventor file format, providing an understanding of its native .ipt and .iam file extensions, as well as its powerful B-Rep representations and assembly structures.
Read more