How to build a 3D-printed gun using a smartphone and your iPhone

The idea of using your phone to build an actual gun may sound far-fetched, but a trio of tech pioneers is on track to make it a reality.

The idea is a mash-up of the world of augmented reality and 3D printing, and it has already spawned a slew of companies. 

The trio is called the Pioneers.

They’re a startup founded by two brothers who graduated from MIT’s Computer Science and Artificial Intelligence Lab in 2013.

The company is based in Cambridge, Massachusetts, and they say they are aiming to make their first gun, called the P.K.I.S., available to the public by June.

The team started with a simple idea: They wanted to build and prototype a gun with an interchangeable upper and lower receiver.

They had to make sure that they could do that while still keeping the design as close as possible to the real thing.

The team decided to make a plastic gun that had a plastic magazine that protruded through the top.

To keep the gun’s shape, the company cut the plastic and attached it to a metal part of the receiver.

The parts are assembled using a laser and an electronic assembly tool called a micro-printer.

To build a gun, the team first had to figure out how to print the gun.

To get the parts to print correctly, the three brothers used a smartphone app called RoboGlock.

RoboGlo is a 3-D printer that allows you to print on a computer.

The app then uses the laser to build the part, which is then attached to the plastic part. 

In order to print, the 3-d printer uses a laser to melt a plastic piece into a powder.

This powder forms a pattern on the part it’s attached to.

RoboGlue is a polymer glue that the 3D printer uses to glue the part together.

RoboGrids, a 3d printer for the smartphone, then cuts out the pattern using a milling machine. 

Then, the parts are printed. 

“We wanted to use a smartphone as a printer to make this gun,” said Brandon Hines, one of the cofounders of the company.

The brothers first created RoboGLock to make 3D prints for military equipment and the military.

He also designed the Pk.

I of the Pg-Amp rifle, which was used by the United States military during the Vietnam War. 

However, the idea of 3D printed guns doesn’t quite sound like a practical application. 

As it turns out, 3D printers have been around for a long time, but the technology is not yet ready for mass production.

To do that, the inventors had to overcome a few hurdles.

The first hurdle was that they needed a way to print a plastic part on a metal object.

The first problem was that the metal part has a plastic layer on it that needs to be fused with a powder that’s produced by a laser. 

A lot of this work has already been done by people in the field.

“There’s a lot of work going on in this field,” said Hines.

“It’s still pretty new.

We had to start from scratch.”

To solve this problem, the brothers used their own 3D modeling software called RoboGrays to model the part.

The software is able to produce a high-resolution image of the part as it was originally made. 

When RoboGrains first uploaded the model to the 3DPrint subreddit, it took about 24 hours for people to upload their own model, and the software was able to generate about 25 models per second. 

Hines said the software would be useful for a lot more people in other fields of 3d printing. 

To make the Pkg.

Amp, RoboGlocks team started by making a plastic barrel that would hold the part’s powder.

The barrel has a large amount of space between the plastic layer and the metal, and this space allows the powder to adhere to the metal. 

Next, the Pkm.

Ammo was printed using the RoboGlids software.

This is a powder used in AR-15s and other types of firearms. 

This process allows the printer to easily print parts without having to make large batches.

The printer can print the parts in a single print, or it can print multiple parts simultaneously. 

Finally, the upper receiver was printed.

The part is the part that the gun is made of. 

According to the team, the final parts are approximately 1.4 millimeters thick. 

These parts are attached to a plastic base that is connected to the gun by a wire. 

Although these parts are plastic, Hines said they could easily be machined to be as light as possible. 

They printed the Pdg.

Aum with an ABS plastic, and a 3% elastomer, the polymer that is typically used in consumer electronics. 

It’s important to note