3D Printing Basics: Printer Build Volumes and Tolerances

3D Printing Basics: Printer Build Volumes and Tolerances

How big do you want to print? Last week in our 3D printing basics series we discussed the history of 3D printing. Today, we are going to explore the wide variety of printer build volumes and tolerances that allow you to create prints ranging from very tiny to quite massive. While all printers work by building a part layer by layer, the machines can vary significantly in terms of quality and functionality. When searching for a 3D printer for your home or office, you can really distinguish one printer from another based upon the printer build volumes and tolerances. Printer Build Volumes The build volume, quite simply, determines how big your machine allows you to print. For years, analysts believed that limited build volumes were the biggest obstacle standing in the way of widespread adoption of 3D printing technology. Today, we are starting to see the design of 3D printers re-imagined in ways that allow them to build full-scale structures, effectively eliminating this critique. Starting at the true desktop level, the printer build volumes for a 3D printer can be quite limited. Many of the entry level printers, especially those around or below the $1,000 mark, have rather small build volumes, mostly less than four inches by four inches by four inches. This means that you can only print something that would fit inside of a four inch cube. While this is enough space to play around with the technology and build little trinkets, if you want to make actual, usable parts, you will find a four-inch limitation to be rather cumbersome. Moving into the next level of printers,...
3D Printing Basics: Printer Build Volumes and Tolerances

3D Printing Basics: The History of 3D Printing

The History of 3D Printing Do you think of 3D printing as a brand new, cutting edge technology? Well, you are half right. While it is true that 3D printing is cutting edge and has only entered the mainstream in recent years, the history of 3D printing actually dates back more than three decades. In fact, the first recorded design for rapid prototyping (RP), the technology that 3D printing is built upon, was developed by a Japanese lawyer, Dr. Hideo Kodama, in 1980. Rapid prototyping is simply any technique that uses computer aided design (CAD) programs to quickly develop a 3D model. The term rapid prototyping is often used interchangeably with additive manufacturing. Unlike traditional prototyping techniques that could take many weeks to complete, rapid prototyping technologies allow businesses to receive their prototype within hours of creating the design. The Breakthrough and the Rise of 3D Systems The first big breakthrough in 3D printing took place in 1983 when Charles “Chuck” Hull invented the first stereolithography apparatus. Hull would go on to found 3D Systems, one of the highest grossing 3D printing companies in operation and a company that we are proud to be a re-seller for. Hull came up with the idea for his machine while he was working on lamps for UV-curable resins and realized that the process could be used to create bonds in the resin that would build objects layer by layer. Remarkably, the first inkjet printer had just been invented in 1976. There was only a period of eight years separating the invention of the first machine capable of printing in 2D and the...

Using a 3D Printer as a Startup

3D Printers Drive Startups When most people think about bringing in a 3D printer, it is to help expand their existing business. But, with the low overhead of a printer compared to traditional manufacturing practices, some industrious users have turned a 3D printer into their business. Here are some cool examples of how people are putting 3D printing to work for them by a using a 3D printer as a startup. Protos While Protos Eyewear is certainly not the first company to try to design their own glasses with a 3D printer, it is one of the most interesting. With this innovative concept,you start by taking photos of yourself, using a credit card as a reference point. Then, the computer uses an algorithm to determine which glasses they believe will best suite your unique features. The design team will send you three suggestions for different glasses. Of course, if you don’t like any of the options they present to you, you are free to choose whichever glasses you prefer. After you have decided on your frames, your glasses will be 3D printed to your exact specifications. Normal Earphones If you have problems getting earbuds that fit, you may want to check out the offerings at Normal. To make their fully customized earbuds, Normal starts by asking customers to take a photograph of each ear. These photos are a guideline that Normal uses to 3D print custom earbuds out of high-quality ABS plastic. Each earbud is rigorously tested for superior quality. Jewlr When giving a piece of jewelry to somebody special, you want to make sure that it is meaningful....
Spurring Innovation: Autodesk Invests in the Future of 3D Printing

Spurring Innovation: Autodesk Invests in the Future of 3D Printing

Autodesk hopes to bolster the future of 3D printing The Announcement In May of this year, Autodesk announced that they were ready to jump into the 3D printing game. In a blog post by Carl Bass, Autodesk President and CEO, Bass explained how his frustration with the state of the 3D printing industry had led him to seek out a better option. The result of this search was twofold: the development of an entirely new open source software platform, Autodesk Spark, and a 3D printer, the Ember, that would be designed to work with the Spark platform. Through these innovations, Autodesk hopes to help shape the future of 3D printing in a more user-friendly direction. Development for Spark In an update from Autodesk CTO Jeff Kowalski at the Inside 3D Printing Conference this week, Kowalski spilled a few more details about the software. One of the things that really separates Spark from the competition is its “autocomplete” feature, which allows the software to anticipate the design and complete the shape for the user. The Spark software program will also be able to work with multiple materials and can be used on any available hardware platform. Like the software, Ember, the 3D printer, will be designed through a heavily collaborative process. So far, it is known that the printer will have a resolution of 10 microns and will primarily use photo-cured resin for its material, although it will also print other materials. It is estimated that the printer will go on sale for somewhere around $5,000. Raising the bar This week, Autodesk took their role in the 3D marketplace a...

Our 3D Printed Office – Network Cables

Our 3D Printed Office – Network Cables Chords and clutter At Spectra3D Systems, we have an office problem that we think many of you can relate to – cluttered network cables. For years, we have done what we could to organize them by bundling the chords and shoving them into corners, over doorways, and behind wall hangings. But eventually, we decided that it was time to conquer the clutter. So we turned to our 3D printer for help. . . We decided to design a contraption to neatly hold the chords tightly in place as they stretched across the ceiling. The system we devised utilized four different pieces. The first is a clip that is fitted to snap over the metal part of the ceiling between the tiles. The second piece includes individual slots for each of the cables to fit inside of. We printed three different sizes so that they would hold either two, four, or six cables at a time. The third piece then snaps over the top of the second piece to hold the cables in place. The fourth piece allows you to gently re-route the cables if you want them to switch directions. This works great for us because we have several cables originating from the same space before heading to different computers and printers throughout the room. We printed the pieces on our Stratasys uPrint SE Plus printer. Then we snapped the pieces into place Everything fit perfectly. The first piece snapped right into the ceiling and the slots for the wires had just enough space to allow us to pull the wires through...