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Within the last five to ten years there has been a visible shift in the way teachers approach, introduce and incorporate STEM education into their classrooms. Technological advancements coupled with vocal industry proponents, have successfully transformed the way STEM education is taught. This is great news, because the long-term benefits of STEM education are profound on students’ future career success—whether in a STEM field, or not.
Where once lectures and standardized tests were the main ways to teach and test STEM knowledge, today’s teachers understand that there are better, more hands-on methods, of educating students around STEM subjects.
For instance, 3D printing technology has revolutionized classrooms, schools and makerspaces around the world. 3D printing makes learning fun and engaging. Students can now move away from books and lectures and actually design and print the subject they are learning about. Learning about ancient Egypt? Design and print a model of a mummy.
Let’s take a quick step back, and before you even get to the 3D printing phase, a CAD model must be designed. This is just another way in which students get to test ideas, theories and use their critical thinking skills. Here at 3D Academy, we have seen a real shift and educators are more interested than ever in introducing students to 3D modeling programs because they understand the long-term benefits of this skill set.
Drones are taking off, literally and figuratively, in the classroom. This is another area that draws awe from students and they have proved a great way to provide hands-on learning. Whether students are working together to design an actual drone, a replacement part for one or understanding the ways in which this technology can be used in different industries—it has successfully captured the attention and imagination of students.
“Engineers will address the complex societal challenges of the 21st century by building a new generation of machines, materials, and systems. We should fundamentally rethink how we educate engineers for this future,” says Ed Crawley, the Ford Professor of Engineering in the Department of Aeronautics and Astronautics at MIT.
Working as part of a team starts from a young age and continues on into the workplace. Learning how to collaborate and work together is a necessity. Teamwork helps students learn about different perspectives, respecting other ideas and coming up with a solution together.
Hands-on lessons for STEM subjects often revolve around solving real world problems. Students must assess a situation and develop a solution. Problem solving skills are immensely beneficial both inside and outside of the classroom. Having the ability to stop, assess, analyze, hypothesize and solve a problem is a skill every individual needs at every age level.
We are all aware of the benefits of “thinking outside the box”, however, this does not always come naturally. Learning to ask questions and develop diverse solutions helps to instill an inquisitive mindset.
The way STEM education is being taught has fundamentally shifted and this change will no doubt have a major impact on our future generation of STEM professionals and business leaders.
Have questions about the way our 3D Academy program can complement your areas of study in the classroom? Send us an email at email@example.com
3D Innovations is a Product Development Company – from the 3D Design to a fully functional 3D Prototype & Product.
To close out the year, we are sharing the top four 3D Innovations blog post of 2018. This past year, our readers were particularly interested in 3D printing technology, how to get your product idea off the ground, product development as well as STEM education.
Coming up with a product idea is exhilarating—knowing that you have an idea that will help not only yourself, but an entire segment of the population, is the very definition of exciting. So now you have an idea, but you aren’t exactly sure what to do next. Here we have gathered helpful advice and insight into the next stages of your product development journey.
As the cost of 3D printers has dropped significantly in recent years, more schools are able to adopt and incorporate the technology into the curriculum. 3D printing technology promotes active learning and has the power to open a world of career possibilities to students. 3D printing inspires creativity and can help encourage students to explore a career in engineering or science.
Many first-time entrepreneurs want to jump right in and get to work building their product, only to realize that they may not have the exact skillset necessary to develop the product all the way. This is where a product development firm is brought in to aid in the process. It can be nerve-wracking sharing your idea with someone else, and we all like to have a general idea of what we can expect in initial meetings.
We are going to start off with the good news, building a hardware startup outside of a major hub (i.e. Silicon Valley, Boston, L.A.) is possible. In fact, in today’s connected world, these major tech hubs are becoming less and less appealing for entrepreneurs just setting out with their startup. It’s no secret that the cost of living in major tech hubs is astronomical and upfront costs to get your business going also come at a premium. So if you are an entrepreneur looking to launch a product and start a business, but have no desire to pick-up and move, here are a few ideas on how you can successfully launch your hardware startup from your home city.
This past year was fantastic as we helped a number of startups launch their idea and assisted others with various product development and manufacturing solutions. We can’t wait to see what 2019 brings!
3D Innovations is a Product Development Company – from the 3D Design to a fully functional 3D Prototype & Product.
The month of December is often a quiet time for businesses, and yes, even hardware startups. Right now, businesses everywhere are working to close out 2018, finalizing budgets and forecasts for 2019 as well as taking time off to enjoy the holidays. Your emails are going to receive a higher than average, “Out of Office” reply and your voicemail messages will take a bit longer to be responded to—it’s the December lull. The next two weeks tend to be quiet, but that doesn’t mean that you can’t make this time useful. Below are four ways hardware startups can use holiday “downtime” to their advantage.
If you are just getting off the ground, you are going to need to start this. However, if your hardware startup is up and going, you will want to refine this. Either way, a Product Requirements Document (PRD), is good for business. According to Bolt VC, a PRD adds a tons of value in a few strategic areas: aligning your team, seeing around corners and constraining the design.
Professional Tip: Don’t let your PRD become too cumbersome, the documents that are short and direct are often the most beneficial.
Products don’t sell themselves. Maybe you had some buzz around your crowdfunding campaign, you beat your funding goal and now you believe that your product will be flying off shelves—wrong. You need a marketing strategy. Whether you are a one-man operation or there are a handful of people working on your startup—your hardware startup needs a go-to market strategy. Top hardware startups have a solid marketing strategy that is easily communicated.
Professional Tip: This Forbes Marketing Plan template is an oldie but goodie. It has amassed almost four million views since 2013. It’s a clear marketing roadmap that helps you sculpt a true vision of where you see your business going.
Product development, manufacturing, distributors, retail, channel partners—all of these need to be thoroughly researched and vetted. Take these next two weeks of December to look into potential partnerships and ideal partners. Learn all you can about them, write questions down, research their past and current clients, try to schedule a meeting—all of this research and face-time will payoff.
Here are a few good business articles to consider:
Millions of people now are actively making their goals for the New Year—your hardware startup should be doing the same. Top hardware startups take time to define measurable goals. Take time to critically assess your 2018 goals—what went right, where did you misstep, where did you excel, how can you do better in 2019 and beyond? After you have gone through those goals, set new ones and make sure you have a system in place to keep you on track.
Professional Tip: Setting SMART (specific, measurable, achievable, relevant and timely) goals can help you evaluate the goals you wish to set. Think about whether they are realistic. You should write down your goals in your business plan to help keep you on track to achieve them. (Australian Government—Business)
Take time now to plan ahead and align your startup up for success in the New Year.
3D Innovations is a Product Development Company – from the 3D Design to a fully functional 3D Prototype & Product.
2018 was an excellent year for 3D printing technology and there is no slow down in sight. Below are three major trends to watch for in the additive manufacturing segment in the coming year.
Metals were a new frontier for 3D printing this year. Businesses wanted to expand beyond the traditional materials associated with 3D printing and into something more durable. Where 3D printing metal parts were once costly to produce, new software and updated technology saw a decrease in price and a rise in quality.
“Metal printing is ideal for smaller scale production projects as it lends itself to production flexibility but at the same time is perfect for designs with high complexity.
Metal additive manufacturing (AM) is on the rise, as the material is ideal for producing lighter items at higher production rates. A recent trend has been to utilize it for seats on aeroplanes. Upon completion, they weighed in an astonishing 50% lighter than their regular counterparts at only 766 grams. As the technology moves forward, we can expect forms of metal printing to change the dynamic of industries.” (Tech Magz)
We will no doubt be hearing about end-use production and more affordable 3D metal printing in 2019 and beyond.
Production speed has been a barrier to 3D printing adoption on a mass scale. However, there has been a push by both researchers and 3D printing corporations to increase production speeds, which will help lower this barrier.
“The University of Michigan created an algorithm that reduces vibrations (a significant reason for the reduction of quality of the finished product). Allowing manufacturing speeds to double while producing the same standard of quality, and most importantly to the manufacturers, with no additional hardware costs involved.
In conjunction, MIT engineers developed a desktop printer that has an output times 10 of anything on the commercial market. Using Polymer, fed through the nozzle with a new form of mechanism, it flows faster, and so what would take hours now takes minutes.” (Gadget Miner)
Customization is the “sweet spot” for 3D printing. Major companies and manufacturers have started to take notice that consumers are interested in more customized product options which 3D printing can deliver. The automobile, aerospace and dental industries have been utilizing 3D printings customization ability for years now, but other industries are also starting to take notice.
“Last year Scultpteo’s annual State of 3D printing study showed that offering customized products’ was a top priority for companies who took the survey.
We have seen evidence of this in 2018 with the likes of Adidas, New Balance and Nike already aligning themselves with both household names in the tech and athletics world to experiment with 3D printing to customize their footwear brands that will be designed to the person’s specific biomechanical data.” (Gadget Miner)
As the software advances, materials expand, demand for customization increases and 3D printing production becomes faster, we will see more adoption of the technology across industries. As always, we look forward to the year ahead and can’t wait to see what advancements await.
Our 3D Academy will be an exhibitor at the upcoming RobotX STEM Expo. Our team will have a booth at the event and will be conducting a hands-on session demonstrating the VPerch program as well as discussing the ways in which 3D printing technology can be implemented into the classroom.
In partnership with HI FusionEd, Office of Naval Research (ONR), and Navatek, VPerch was created to provide students with the opportunity to learn about various STEM applications as they relate to underwater robotics.
The emphasis of VPerch is to introduce students to the engineering design process through the virtual design (3D CAD) process where they can design and simulate (virtually test) their UROV design and analyze the results before building the physical system. Using the virtual design and simulation process, students see first-hand how their design will perform under certain conditions. Once their virtual design is completed and have enough confidence that it will perform as designed, they migrate to the build phase where they can build their ROV based on their virtual design specifications. We look forward to talking more about the VPerch program and demonstrating it at the RobotX STEM Expo.
3D printing technology promotes active and hands-on learning while having the power to open a world of career possibilities to students.
3D printing inspires creativity and can help encourage students to explore a career in engineering or science.
Our 3D Innovations team would like to wish you and yours a wonderful Thanksgiving holiday.
“Thanksgiving, after all, is a word of action.” ― W.J. Cameron
In the spirit of the Thanksgiving holiday, we would like to send a big ‘thank you’ to our valued clients. Our clients are the driving motivation and the reason we do what we do. Each project we work on is unique, just like each client. Seeing the excitement build as we assist in the development of taking an idea and turning it into a real-world product fuels our desire to keep helping entrepreneurs launch their dreams.
We are incredibly grateful for our support network and know that our business would not be where it is today without you.
-The 3D Innovations Team
It’s no secret that additive manufacturing, commonly referred to as 3D printing, is transforming the business landscape. Within the last decade we have witnessed this technology grow into what it is today, a way to disrupt supply chains and completely innovate the manufacturing landscape—from prototyping to production.
3D printing has been a favorite tool of makers and product design professionals alike because of its quick turnaround time and the fact that it is relatively cheap compared to all other manufacturing methods. 3D printing technology allows designers to quickly, easily and efficiently design and produce a product prototype for review within hours, instead of weeks. While prototyping is where additive manufacturing is most popular and widely used, the technology is beginning to mature and find its way into manufacturing for end-use parts as well.
Our design team regularly uses additive manufacturing technology during the product development cycle when we are working with entrepreneurs and startups on prototyping and finalizing a product design. 3D printing technology is still growing and maturing, it seems that every week new filaments are being developed and new uses for the technology are being discussed. However, as the technology stands today, its strength, its competitive advantage and its usefulness remain in the realm of prototyping. Visual and functional prototyping are imperative when designing a product and this is where 3D printing excels.
When it comes to manufacturing, 3D printing technology has an advantage on short-runs, however, at this time, it is not able to compete with other traditional forms on a mass-manufacturing scale.
Due to the speed, quality and cost of additive manufacturing, “the technology is best suited for the production of specialty parts in smaller batches, rather than mass-manufactured goods. However, there is an industry shift towards expanding 3D printing technology to take a more prominent role in mass manufacturing. This technology brings some important qualities to the world of manufacturing that make it ideal for certain jobs. For instance, parts can have complex geometries impossible with traditional manufacturing processes. It is also possible to 3D print goods on demand, allowing for easy creation of custom parts” (Engineering.com).
The 3D printing metal segment is making great strides towards high volume manufacturing and McKinsey forecasts the industry to be worth as much as $10 billion by 2030 to 2035. Read more about developments in the metal 3D printing segment on our blog.
At 3D Innovations, we offer 3D printing services to a range of startups, businesses and makers. If you have a design ready to be printed, and would like a quote, please visit our 3D Printing Quote Request page. We have made the quote process quick and easy. Whether you need a prototype or a short manufacturing run, we can help.
Recently Pacific Business News sat down with our client, Shawn Santos, inventor of FOG Safe Drain Guards to talk about the product development process and launching his idea. FOG Safe Drain Guards are a way to responsibly dispose of fats, oils and grease after cooking a meal, instead of rinsing these harmful contaminants down the kitchen sink. Once the fat, oil and grease has cooled in your cooking pan, you simply pour the contents into the FOG Safe Drain Guard and wait one minute while the drain guard absorbs the FOG, then you dispose of the entire drain guard into the trash. No drips, no mess.
We have had the pleasure of working with FOG Safe from the beginning. We have assisted with designs, prototyping, patents, manufacturing and distribution. Below are excerpts from the Pacific Business News article that discuss our product development assistance (read the full article here).
We had several stages of printing for prototyping. I worked with a local product development company, 3D Innovations, through the process. He had resources for using the [3D] printer, so after coming up with designs and going through the process, the finished product is very different than the original idea.
3D Innovations assisted with sourcing and manufacturing. We looked at several locations, we tried the U.S., and eventually we went overseas. We looked at a lot of paper pulp manufacturers and settled on doing it in China. In order for the product to work and relieve the problem, its gotta be worth it for the consumer. People are not going to want to spend a lot, so we needed to keep the cost down as much as possible.
Then there was the whole tooling process, which is preparing the molds — it’s another upfront cost that comes right out of pocket. We have to provide the schematics for the tooling, and once we approve it it’s all on us, we pay that amount even if that mold doesn’t work, so it’s a bit of a gamble. So we have to be 100 percent, and that’s where the 3D printing comes in. We do the printing, and the manufacturer uses those to make the mold.
I have five issued patents. It started with getting a patent attorney and doing a patent search. The hope is that whatever they find is different enough in design, and we felt it was worth the try and we were different.
For my first patent to get issued was well over 24 months, probably closer to 30 months. After that, there were deviations of the design. One of the challenges of an inventor is that you can’t come up with a single design, there needs to be variations, because someone can easily copy off of your original design work. And the patent office is very particular, you can’t be broad, you have to be very specific on a type of design. You can’t just think in one dimension, you have to think about how this can be manipulated and changed. It’s a collaboration between the engineer, myself and my attorney, everyone having input.
Interested in learning more about our product development process? Send us an email at firstname.lastname@example.org
The new school year is underway and social media is buzzing with fantastic projects that teachers have created to get their students involved as active learners—one big way involves 3D printing. As the cost of 3D printers has dropped significantly in recent years, more schools are able to adopt and incorporate the technology into the curriculum.
Our 3D Academy has seen first hand the benefits of introducing 3D printing technology to students early-on. Below are four benefits of introducing 3D printing technology in education.
3D printing makes learning fun and engaging. Students are able to move away from books and lectures and actually design and print the subject they are learning about. Learning about ancient Egypt? Design and print a model of a mummy. Learning about landforms? Design and print a mountain range. When the possibilities are endless, creativity can flourish.
While CAD programs can get complicated, there are specific programs available for educational purposes. This means students will be able to design on their own and see their exact design get transformed into an actual object.
Kids love to create. Whether it’s with LEGOs, blocks, sticks or anything else they can get their hands-on, kids are always creating. Instead of buying someone else’s creation, kids can identify a problem and create their own solution. Giving students the power to design and build with cutting-edge technology gets their minds thinking about the things they can create.
3D printing is a technology that businesses, engineers and scientists are using everyday to change the world. Put that same technology into the hands of students and introduce them to some of the challenges facing the community. Through this problem-solving approach, students will learn empathy, teamwork, and critical thinking skills as they work to develop a solution to a real-world problem.
3D printing has a ‘wow factor’ with students since it is not something they see every day. It motivates and engages students to learn. Students who may otherwise not be actively engaged in the classroom, suddenly light up and want to participate when 3D printing is involved.
3D printing technology promotes active learning and has the power to open a world of career possibilities to students. 3D printing inspires creativity and can help encourage students to explore a career in engineering or science.
Have questions about introducing CAD and 3D printing technology into your school or classroom? Send us an email at email@example.com
We are sharing product case studies over on the 3D Innovations website. Within these case studies you will see the type of projects we have partnered on and how customers have leveraged our design and manufacturing expertise to reduce time to market. (Note: This is a small sample of our client projects, as many projects are required to stay confidential.)
The case studies on our website are from a range of industries. Below you can see some of the industries we support and have experience working with.
Developing ideas from concept to product is where our expertise shines. With a knowledgeable team, we help bring products from initial concept to store shelves.
3D Innovations provides product development services assisting companies with all stages of development. Our suite of services includes product design/engineering, prototyping, 3D Printing, additive manufacturing, supply chain management, packaging design, and production manufacturing sourcing. Using our experience in Design for Manufacturing (DFM) processes, we develop custom solutions for clients that accelerate their commercialization activities.
We provide 3D Printing and Rapid Prototyping services to quickly validate designs and make improvements for production manufacturing. Experience the benefits of 3D Design and see how 3D Innovations can develop innovative solutions to engineer, design, and manufacture your product.
Interested in learning more about our product development process? Send us an email at firstname.lastname@example.org or give us a call 1.808.722.8667 so that we can schedule a meeting to talk about your project’s individual needs and requirements.