All posts tagged: experts

The Realize Featured Project: Linka

At Realize we get very excited when an interesting project comes through our doors. One recent prototype we worked on is for a new product that is looking to revolutionalize the concept of locking your bike! We talked with the creator and founder of Linka Mohamed Mohamed.

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Realize: Tell us about your product.

Mohamed: As I’m an avid everyday cyclist, I realized I needed more security and peace of mind for my bike and regardless of how bulky and expensive other locks were, I needed something that told me if something was wrong so I can address it immediately. If you wait a few hours, it’s too late. The recovery rate for bikes in the U.S. is less than 2%. After some research and asking many people from various environments, everyone seemed to have the same concerns. So LINKA was born! LINKA mounts to your bike in 5 minutes and stays there so you’re always ready to lock up. With a built-in siren and an accelerometer, LINKA can tell when your bike is in danger and will notify your smart phone. Beyond that, LINKA will auto-unlock as you approach making it quicker and easier than ever to ride away.

 

How did you use Realize and 3D Printing to help with your project?

We utilized Realize’s ability to get us finished looking SLA parts to help us with a fit and finish of our end production product. We also utilized the RTV mold process to make rubber gaskets in various colors. This really allowed us to have high quality photos for our shoots.

 

How do you think you will use additive manufacturing in the future and are there any new directions or capabilities you would like to see in the industry?

I wish there was a way to find quick turn solutions to simulate machined parts in aluminum and steel. Local shops have long lead times and the cost is quite high. We will continue to utilize existing additive manufacturing tools to get really quick relatively inexpensive prototypes made.

 

What were the biggest challenges with creating the Bike lock?

Biggest challenge for us is multi-faceted. Balancing bluetooth range combined with designing something with low-power consumption. From a mechanical side, tolerances need to be really well captured as a non-functioning bike lock provides more issues than say a non-functional bike light.

 

With such a cool product coming out is there a follow up idea you have ready to go?

We currently have many products in our roadmap and can’t wait to introduce them all once the time is right!

 

LINKA is currently available on pre-order for $99 with an expected ship date of January 2016. Find our more through our Kickstarter campaign here

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Realize Featured Project: 3D Printed Airplane Wing

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Realize, Inc. has been helping with the development of some very cool aerodynamic parts for the University of Illinois At Urbana-Champaign. We talked with Aerodynamics professor Phillip Ansel about the most recent wing project.

 

The Realize Featured Project: The 3D Printed airplane wing

 

Realize: Why are you making airplane wing prototypes? 

Phillip: We have started using rapid prototyping for creating wing and airfoil (the cross-sectional shapes that wings are made from) models, which we then test in our subsonic wind tunnel. By taking these models and passing air over the surface in our wind tunnel, we are able to simulate what happens when these wing sections are placed in flight. We will typically use various sensors to measure things like force, pressure, or flow velocity on or around this model. We then evaluate these measurements to determine how the flow about the model behaves, and what this means for the performance of a given wing section.

My research group specifically focuses on unsteady flows. Most research in aerodynamics is typically focused on understanding the average behavior of a given geometry over time. However, the flows about certain aerodynamic bodies can also have contributions that vary or oscillate significantly as time goes on, even if the object itself is stationary. There are several aerodynamic phenomena that have very distinct unsteady components of velocity or pressure, and my research group seeks to identify new ways to utilize these unsteady contributions. For example, the amount of lift that a given wing can generate is limited by something known as stall. If the angle of incidence of the wing to the flow exceeds certain limits, that wing will start to produce less lift and much more drag. Perhaps more importantly, an aircraft with a stalled wing is much more difficult to control. As it just so happens, the amount of unsteadiness in the flow increases significantly as the wing stalls. By measuring and identifying this unsteadiness we can develop a system to predict an impending stall and use various methods to manipulate the flow in order to prevent stall from occurring.

Our most recently-developed airfoil model is specifically suited for this purpose. We created the model with an internal cavity where we can install a set of pneumatic valves that can be switched on and off at a high frequency. Compressed air is passed through these valves, which then follows a snaking pathway to a set of blowing slots on the surface of the airfoil model. This is where rapid prototyping is particularly useful, since manufacturing these blowing slots using other methods would be difficult to say the least. We also designed the model to allow specialized sensors to be mounted into the surface of the model, which allow us to measure the unsteady surface pressure. Based on what is measured from these sensors, we can identify an impending stall and control the flow around the airfoil by blowing air through the surface slots.

 

How often does your program use 3D Printing/Additive Manufacturing?

To date, I have worked with four different airfoil or wing models that have been 3D printed and tested in our wind tunnel facilities, and also have plans to develop more. We will typically have a specific experiment requiring a new model about every year or two.

 

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What are the challenges you face when creating prototypes?

The most pressing challenge we have when using 3D printing to develop our models is material warping. This is most prominent in regions where the printed material is very thin. Over time the material actually begins to deform. If this occurs, we cannot use the model any longer since it no longer conforms to the original aerodynamic shape. We have learned quite a bit about how to design our models to prevent them from warping and are improving our design techniques with each new model that we make.

 

How do you feel 3D Printing will affect the aerospace industry in the years to come?

3D printing will absolutely have a positive impact on the future of the aerospace industry. Sometimes the most challenging aspect of building an aircraft or spacecraft lies in the fabrication of certain components. I think that 3D printing will allow us to explore new methods of creating aircraft and spacecraft components to be lighter, stronger, and have improved capabilities. Moreover, I think that future aircraft and spacecraft will be able to use components that have been 3D printed on-site to allow for faster, easier, and cheaper repairs. This is already being explored on the International Space Station. Since space is so expensive and difficult to get to, astronauts are currently testing how 3D printing can be used on the ISS to help them with performing experiments and maintaining facilities.

 

What are the biggest challenges facing aerospace engineering?

Aerospace engineering is actually very diverse field that stretches across many organizations, disciplines, and objectives, so I can’t speak for the field as a whole. From my perspective, however, one of the biggest challenges facing aerospace engineering today is the speed at which we can feasibly adapt to new technologies and capabilities. The aerospace field moves extremely fast and new technological innovations are being developed increasingly regularly: so fast that it can be difficult for society to keep up. We are currently seeing this in the development of policies and established practices for UAVs and commercial space flight. One way that we can help to make these new innovations realizable in daily life is to encourage outreach and education about science and engineering to help people of all ages to understand what aerospace engineering is all about. By encouraging education and diversity in engineering we can increase the number of experts and quality of ideas in the aerospace field, making cutting-edge technology more realizable in society.

 

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How do you inspire future leaders in your field?

I like to inspire future leaders simply by showing them how amazing the aerospace field is. There are so many interesting aerodynamic phenomena that happen in everyday life that we don’t always observe, but when they are pointed out to us we can’t help but be curious. I’m still blown away by so much of what I see in nature, and I think it’s incredible all that humanity has been able to accomplish with aerospace technology. In order to share this with my students, I like to incorporate real-world examples and demonstrations into my teaching. This can come through use of a vortex cannon to provide a simple demonstration of how vortex ring structures are formed to a classroom of students or incorporating modern research problems in the classroom.

 

Tell me a little about the program at your school.

The University of Illinois at Urbana-Champaign is the flagship campus of the state’s premiere public university. The university is composed of 16 colleges and instructional units with over 30,000 undergraduate students and over 10,000 graduate students. The Department of Aerospace Engineering is a part of the College of Engineering at Illinois, and it offers undergraduate and graduate programs that are consistently ranked among the top 10 in the nation. Currently, over 450 undergraduate students and over 140 graduate students are majoring in aerospace engineering at Illinois. The department is home to twenty different laboratories dedicated to cutting-edge research in aerospace developed by faculty with extensive externally funded research programs. Our department is home to many internationally renowned faculty that play a role in the development of major advances in aircraft and space applications. AE at Illinois is committed to excellence and leadership in teaching, research, and service.

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mereedRealize Featured Project: 3D Printed Airplane Wing
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Realize the first in US to install Somos PerFORM

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At Realize we are always looking for the latest new products and technologies to provide our clients with the best and most effective tools for their projects. So it’s no surprise we are the first company in the US to use the new Somos PerForm material.

 

Somos PerFORM offers heat resistance and stiffness unlike anything currently in our portfolio. It’s the first composite material we’ve installed and we’re looking forward to seeing the applications our diverse clients find for it.

– Todd Reese, President- Realize, Inc.

 

For more information about Somos PerForm CLICK HERE

 

When your project calls for parts that require thermal stability, extreme accuracy and a quick turnaround, turn to our latest composite material — Somos® PerFORM. Available for both 355 and 365 nm photopolymer-based machines, parts made with this material exhibit superior sidewall quality, along with excellent detail resolution. In addition, Somos® PerFORM is exceptional for parts that are designed for wind tunnel testing and unique applications in rapid tooling.

Excellent detail resolution, Faster, easier processing & finishing Superior high heat tolerance Expanded applications, Ideal for a variety of applications.

With its excellent high heat tolerance, outstanding detail resolution and stiffness, Somos® PerFORM is the ideal material for applications including:

• Tooling • Electrical Casings
• Wind Tunnel Testing • Automotive Housings
• High Temperature Testing


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The Realize Q&A with Steve Griffiths

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Steve Griffiths – Sales Manager, Materialise

Materialise_IYCCO Realize, Inc is communicating with 3D Printing experts from around the globe to discuss the future of our industry. We talked with Steve Griffiths the Sales Manager at Materialise to get his take on where things are headed in the additive manufacturing world. Steve manages a team of professionals at Materialise who are selling and supporting leading software technology in the 3D Printing Industry.

“3D printing is an amazing industry with great potential. It’s a great combination of the machines, materials, software and the people. I’m excited to see where it goes!”

 

 

Why has 3D Printing become the buzz word for the entire industry and do you think that is a good or bad thing?

At first I resisted the move away from Additive Manufacturing and Rapid Prototyping. But as the term 3D Printing is allowing for a more consistent conversation about the technology through the mainstream press, and as it has been embraced by the public, catching their attention in a way that the other terms didn’t, I’ve decided to get on board and go with it as well.

 

There has been a ‘new generation’ of users exposed to AM/RP/3DP over the past few years, along with a huge media buzz.  How do you see this camp and the ‘old school’ camp coming together?
I think at first there will be lots of differences and levels of knowledge about the capabilities of 3D Printing. But as time goes on, the new generation will learn from the experienced users and in turn, the new generation will bring some fresh approaches that can inspire the ‘old guard’. What will be especially interesting is when students who are now being exposed to 3D Printing in their classrooms graduate and start putting the technology to use in ways that we can’t even dream of right now.

 

What challenges/opportunities do you feel service providers, like Realize, face today?

Service providers are facing lots of challenges in the industry today – with consolidations, pressure to reduce costs, and limited availability of materials probably topping the list. However, as a new generation of 3D printers are revealed, new materials are introduced to the market, and the software, such as the solutions developed here at Materialise, evolves to better answer the growing needs of the markets, we are also in an exciting time where people throughout the industry and constantly pushing the limits of what can be achieved. There are always challenges associated with emerging technologies, but it is the opportunities that make this such a great industry to be involved in.

 

What are some misconceptions about the capabilities of the technologies?

3D Printing is so mind-blowing to so many people that it is perfectly natural that there are misconceptions about what it can achieve – with people both underestimating as well as overestimating what is possible. For people who have only just discovered the technology and who have only seen the desktop printers now entering stores and schools, they think that it will still take years for the machines to reach a point where they can manufacture end-use parts, which has in fact already been possible for years using professional machines. On the other end of the spectrum, a common overestimation is that we are already at the point where 3D printed organs are possible and will soon be implanted in patients, which is still many years away. Instead, we should be celebrating the reality that we are already producing 3D Printed implants and have long been enabling a new level of personalized healthcare with printed medical models, virtual planning and printed surgical guides.

 

What are your thoughts on 3D food and clothing and all the headline grabbing stories about our Industry that are posted daily online?

Well I haven’t tasted any 3D printed food yet and I’m not sure I’m on board with that, but know that many of my colleagues are excited about the possibility. However, when it comes to fashion, I am proud to be working for a company that has been working with the designers who first brought this application of 3D printing to the public’s attention. In collaboration with Iris van Herpen, we have brought 3D Printed fashion to the Paris runways, have worked with designers for New York fashion week as well as bringing our own 3d Printed fashions shows to audiences all over the world – and of course, together with Studio XO, we saw Lady Gaga wearing a 3D printed dress for the first time with her most recent album launch.

 

Are there any new applications for Rapid Prototyping you feel will emerge over the next few years?

As 3D printing continues to grow, I think more and more industries will see the benefit to applying it to their processes. For example, we have already seen the realization of 3D printed insoles, surgical guides, mass customization and the production of hearing aids and as the machines, materials and software continue to improve, even more applications will start to emerge.

 

If you could make a prototype of anything with no care given to time or cost, what would you create?

Well I love to boat so I would love to create a customized 3D printed bimini for my boat or even to print some accessories or replacement parts for it. But I am also fascinated by all the 3D printing in the medical field, which Materialise also plays a large part in. All these advances make me optimistic that if I were ever to need a knee replacement or brain surgery or anything else, 3D printing would play a pivotal role in it.

 

What trends should AM business owners be looking to follow over the next century in your opinion?

I think more people will look to 3D printing for mass customization. There are definitely industries where this makes a lot of sense and also some where it doesn’t. So finding the right niche is key. Also applying 3D printing to more person specific parts or goods – like a customized steering wheel to your hands or headphones that are made for your head like a company in New York is doing.

 

Where do you think 3D Printing will be 50 years from now? (This is just a fun guess, futuristic question)

Wow! That seems so far off. So many things could be possible by then – organs and tissue – more cars and houses. Also I see it being more integrated and utilized with traditional manufacturing.

 

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The Realize Team Caricatures

 

The Realize Team Caricatures

The Realize staff is made up of some very talented and interesting people. Our goal is to cultivate a fun team atmosphere where everyone is working together with the common goal of doing amazing work for our clients. There are many different personalities at Realize and you can check them out in the OUR TEAM section of the website. How did these fun caricatures of our team come to life?

 

“We wanted caricatures instead of photos for our website to convey the fun side of our team. We certainly work very hard at Realize, but we do have fun working and our caricatures convey favorite personal activities. The caricatures have become a very popular feature of our website, and we receive a lot of compliments on them. Paul McCall does phenomenal work, and his caricatures are simply dead-on accurate representations of all of us at Realize!”

 

-Tonya Reese Realize Inc, CFO and Owner

 

 

 

 

Paul McCall is a talented artist and he enjoyed working with Realize on this team project.

 

“My association with Realize, Inc. began in late 2006 when Todd and Tonya Reese contacted me with the idea of having full body (with hobby) caricatures drawn of all the Realize staff. They wanted me to come up to the office and do live sketches and talk to the Realize folks, as well as take reference photos for the final, digital artwork.

Where Realize stands out from my other regular clients is their desire to “freshen” the caricatures on the team web page after a few years, in addition to adding new hires as they come on staff. Another great aspect to getting a call from Realize is that I get to spend some time in an office where everyone really seems to enjoy their work and their co-workers. I always look forward to working with Realize, Inc.”

 

– Paul McCall, Caricatures by Paul McCall

For more information on Paul visit http://www.paulmccall.com

Dawn Cazzell

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