Autodesk Inventor is a great tool for students and faculty for engineering areas that don't require great precision or development of more thorough scientific results. Is you are conducting research, or deal with very intricate and complex systems I would recommend a more robust platform that complies more to industry standards.
The program is very good at simplicity. Each of the buttons, menus, and options has an explanation of exactly what the feature does, and even a more advanced description if you desire to learn more about what each one does.
Autodesk Inventor is a very fast program. Everything renders extremely quickly and there are no delays when examining a 3D model, part, or assembly. This is especially useful when giving a presentation about a product or design, and you need to be able to show a concept to an audience in real time.
The software has an extremely accurate simulation feature that lets users do stress analysis on a 3D model. It can calculate precisely where the stress concentrations are going to be in a particular model and even give you an accurate depiction of where the part could likely fracture and/or fracture during loading.
Inventor demonstrates a lack of fluidity in the process of transferring data between programs.
Inventor shows some lack of sophistication that certain features that are readily available in other design software packages are limited in use in Inventor.
Inventor can often have difficulty in creating models that show true color, as in blacks can come out as dark grays in certain renders, even when the material and appearance settings are the same from part to part.
I'm giving the overall support rating a 5 only because I rarely have to use it. Trying to find the answer on the help pages hardly ever helps me because any problem I have is usually too deep for what the help offers. Given the popularity of Autodesk, I have always been able to find an answer online after doing enough looking!
When it comes to solid modeling, the bad choices died out years ago. So we looked at the total ecosystem and chose Autodesk Inventor because of the integration with Nastran, HSM (machining), Autodesk CFD, MoldFlow, and AutoCAD. This means our legacy data (2D) is still a valid part of our design methodologies going forward, and we have the full breadth of engineering tools at our disposal. Other solutions in this space have similar offerings but not nearly as potent of a portfolio in total. It's worth saying that we do not consider Inventor in the same space as CATIA or NX, but that the entire Autodesk portfolio (e.g. Alias, PowerMill, etc) includes a total toolset that exceeds these industry giants.
Working on a project designed with Inventor provides a modular design platform that can quickly be configured or changed as required. This allows for the quick turn around time for the design and revision of drawings.
We've used Inventor over the years (since 2013) and the updates and newly released versions of Inventor do not require re-training or restrict use.
Autodesk follows an intuitive approach and users or designers who have worked on other design platforms like SolidWorks can transition easily to Inventor.
