 So we hear the ID TechEx show and hi, so who are you? I'm Adam Rumjan, CEO and co-founder of Orion Additive Manufacturing. So Orion Additive Manufacturing, so what are you doing? What is this? So we do a proprietary 3D printer for printing with high performance polymers or aerospace grade polymers such as peak, ultem, polyfinal cell phone and polycarbonates as well. So is this special materials? So these are special materials that exhibit extremely high qualities such as high strength, high temperature resistance and chemical resistance. So they're typically used in industrial applications and aerospace or for medical applications as well. But it's not easy to 3D print or are you the only ones who can do it? We're one of very few companies that are able to do this well. This is a very difficult material to process because of its high temperature but also because peak for example is a semi-crystalline material and it has its best mechanical properties as a crystalline structure but this requires a very high temperature environment in order to print with it properly. So what we did is we developed a proprietary process that's able to print this material not just with crystalline structure but also with much better interlayer bonding. So just to show you an example, this is a test bar that we printed and without the proper settings when you bend it you hear this cracking and you get delamination of these layers but when you get the parameters fine-tuned as in our printer, when we bend these parts, they don't delaminate. So you get much better interlayer bonding and you get mechanical properties that are similar to injection molding. So much more uniform isotropic strength. So what does this say here? Are these the materials there? What is that? So these are some of the materials that come with the mic. So we primarily focus on peak and peak variants such as PEA and PEC but we also print with other high-performance materials such as polyphenyl sulfone which is known as PPSU or PPSF and also which is PEI, co-polymer material. Is this your printer? And this is our printer that we're just finishing developing right now. And it prints right here in the middle? Yes, exactly. So the prints are just right here inside of this heated chamber. So we're just finishing our development and we plan on releasing this printer by the end of 2019. So have you been involved with 3D printing for a while? Yes, so I have maybe five years of experience with additive manufacturing. I've been designing and building 3D printers since five years ago and just around two years ago we started working with materials suppliers for peak and developing this industrial 3D printer specialized for printing with high-performance polymers. Is additive manufacturing, is that another word for 3D printing? What is the idea of the additive you adding into stuff, the small parts that are missing? So additive manufacturing is just to contrast it with subtractive manufacturing which has been known as more the traditional way of manufacturing which is by removing material. So the benefits of additive manufacturing are that you don't waste as much material because you're just adding the material that you need. But I would say that additive manufacturing is more commonly used in industry to try to differentiate it from the consumer industry which was more commonly known as 3D printing. So are you part of the Berlin team here? Yes, exactly. So we're actually part of this network called the Innovation Network for Advanced Materials otherwise known as INEM and they're also supported by Berlin Partner. So you're based in Berlin? We're based in Berlin, correct. And how many people are in the company? We're just a small company at the moment. Right now we're three people working on our team so we have materials experts. What do the different people do? So we have a materials expert who focuses on material development and we also have our CTO who is an electronics engineer focusing on the microcontroller and motion control of our systems and I'm a mechanical engineer who's focused more on the mechanical aspects of our 3D printer. Is the motion control and the PCB just a standard one from a 3D printer or something very special about it? Right. So we actually developed our own motion control systems and what we have in our motion control system is more of a closed loop control so we have much more precise, accurate motion inside of our 3D printing system as well as more accurate sensor technology so we're using thermocouples as opposed to more faulty thermistors so we use very high quality components in our microcontroller board.