To make the most of limited resources it is always good to be aware of emerging technologies and systems to potentially help streamline work flow. CAD software, file management, 3D printing software and anything else related that is going through a lot of changes. Cloud computing and cloud storage solutions are more powerful than ever before. Generally speaking, the usual industry leaders take time to adapt which gives smaller entities a narrow opportunity to bring to market something new and truly innovative. 

GrabCad was one of those companies that offered a set of services that I think will help shape how CAD files are managed, stored and printed. I have been a long time user of the GrabCad libraries, built up by fellow CAD users and I've started to try and incorporate GrabCAD Workbench as a PDM alternative. 

The latest addition is GrabCAD Print, which I have implemented over at 034Motorsport. The standard, outdated software that worked with their Stratasys Dimension printer did the job, but was cumbersome and old. Since GrabCAD print is partnered with Stratasys - they have perfect support for these printers. Its intuitive and easy to use and I like seeing how far along the printer is or if it ran run out of material and needs reloading.

The team at GrabCAD reached out to talk about what I do, consulting and technology and did a small interview blog post. I look forward to seeing what other products and updates they have in the pipeline so hopefully we will have more conversations about how their software helps us CAD designers think outside the bounding box.

Link to article: http://blog.grabcad.com/blog/2017/02/13/start-engineering-consulting-business-little-help-3d-printing-grabcad/

It is no secret that the future is here with 3D printing. As Shapeways so well puts it in their slogan “Made in the Future” – this technology is becoming very accessible with an exponential rate of development. The ability to create objects straight from a computer model has revolutionized many engineering and manufacturing processes. Cutting costs and time, 3D printing has also made complex manufacturing more accessible to smaller businesses. By printing prototypes of castings, for example, engineers no longer need to wait on costly cast samples to verify designs. Most of the time, a printed model can be used to confirm and initiate a production run of components (and assist the casting company in making the tooling). 3D printing can even be used to create single-use moulds to “rapid cast” a part if real-world application testing is needed. This process for prototyping and validation can be applied to parts from any material or manufacturing method.

The Revolution

For now, the 3D printing process is mostly used for prototyping or on demand production of smaller, simpler plastic parts or even jewelry. The real impact of the technology is when it is more advanced and cheaper – as any technology becomes with mass market demand and implementation.

Plaster or plastic based 3D printing is most common and cheapest at the moment. Metal based 3D printers are coming online as well, used more in aerospace, defense and advanced research industries – is also the most expensive process. With the evolution of current printers and with the development of “mixed media” ones, factories will be upgrading and replacing existing assembly lines, machinery and tooling with an array of 3D printers.

3D printing will become the faster, cheaper way to make things. Part-specific tooling and machinery will be eliminated and re-tooling will consist of just uploading a new file. Once printers start to mix media – a single printer will be able to produce a whole device, with metallics, plastics and electric circuitry. Ultimately food and human tissue will be printed as well (research is already underway).

Applicable

These are the kinds of technological advances that define the future and impact not just specific industries – but change the world. We are excited to use these systems with our current projects and  develop new products to take advantage of 3D printing, not just for prototyping, but as the primary manufacturing technique.

One of our current projects is based around a simple OEM part requiring basic reverse engineering, tweaking and manufacturing out of a different, premium material. Originally made of injection moulded ABS plastic, our client was looking to manufacture it out of aircraft grade aluminum. This change in material would make the part have a more solid, smoother feel with better aesthetics.

We used 3D printing to validate the specs to ensure OEM-like fitment and to get a “feel” for the small aesthetic design changes to the original OEM configuration. Once verified – the production run was started. The final manufacturing process is CNC lathe turning and anodizing for the final finish.