... Read more →
Technology is transforming the landscape of our lives—in today’s global marketplace there is no substitute for a strong STEM (Science, Technology, Engineering and Math) background as you enter the workforce. “STEM workers tend to earn 26% more than non-STEM workers and yearly growth for STEM workers is projected to be almost double that of non-STEM workers.” (Florida State University) Industry is shifting and to help our students keep up with the demand, a STEM education is imperative.
As a nation, our education industry has recognized that our students are not receiving the best hands-on, STEM-focused, education possible for a myriad of reasons. This means that our students are falling behind in Science, Technology, Engineering and Math subjects, and that they are missing out on other valuable lessons as well. Below are some of the areas in which STEM helps students thrive.
Problem Solving Skills
Hands-on lessons for STEM subjects often revolve around solving real world problems. Students are required to 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.
Teamwork and Collaboration
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.
Scientific linear methodology requires organization—there is a set manner in which to approach a problem. All STEM subject areas require a step 1, step 2, step 3 and so on; you can’t solve a math equation by skipping steps. Students learn the importance of being organized and why it is important to their everyday lives as well.
STEM education can be taught through lectures; however, it has been proven time and again that hands-on learning is the best method for teaching and instilling these concepts. Giving students an opportunity to use technology, use their hands, ask questions and see concepts in action sparks excitement in them as well as a desire to learn more.
STEM Enrichment Camps
This summer our 3D Academy is offering two STEM Enrichment Camps, “3D Design and Drone Building” and “3D Printed Rocket Building”. Students will learn the fundamentals of 3D Design, 3D Printing, CAD Design and Spatial Environments and be able to build their own Drone/custom Co2 mini rocket while learning about the various principles that integrate with Science, Technology, Engineering, and Math. Students will be introduced to the world of 3D Printing, CAD Design, Engineering, Electronics, and prototyping all while being in an immersive STEM learning environment. Learn more about both camps and easily register, over on our website: 3D Academy STEM Enrichment Camps.
3D Innovations is a Product Development Company – from the 3D Design to a fully functional 3D Prototype & Product.
We had a great time connecting with students at the 2018 Hawaii STEM Conference earlier this month. At this year’s conference, our main area of participation was hosting an onsite ‘Product Design & Pitch’ competition, where students were given a challenge that they had to complete within 24 hours. (Read more about the challenge here.) As always, the students impressed us with their creativity and ability to turn an idea into a marketable product.
After the competition we caught up with a few of the students to get feedback about their competition experience. See what these fantastic STEM students had to say:
“The product design and pitch competition was a fun and beneficial competition that allowed me to cooperate with others, especially with the amount of work we had to put within a day. It allowed me to gain knowledge on CAD and designing because I had to create a detailed product within a few hours. This Hawaii STEM Conference competition will help me in designing other products or concepts in the field of engineering.”
“I wanted to enter the Product Design and Pitch Competition because of my past experiences in problem solving and designing through competitions and assignments in my STEM classes at school. I am familiar with the process of product design competitions; and joining this pitch competition was another opportunity to apply my problem solving and critical thinking skills.”
“Taking Engineering Tech 1 really helped with completing the competition, since we learned how to use the applications required to do the competition such as using Autodesk Inventor and things as simple as how do I present my idea/design to a panel of judges.”
Receiving this kind of feedback is exactly why we like to connect with students early-on to help bridge the gap between academia and industry. Hands-on learning really engages students and brings abstract STEM concepts to life.
3D Academy, a division of 3D Innovations, specializes in developing and integrating industry technologies with STEM Programs and Education.
3D Academy promotes Science, Technology, Engineering, and Math (STEM) education programs that integrate 3D Technology into K–12, as well as university classrooms. Using hands-on and project-based learning strategies, we have been effective in providing students with opportunities to excel in the areas of STEM and to integrate industry applications into their learning experiences.
Our core program utilizes 3D CAD and takes students through the entire design process (design, prototyping, manufacturing, etc.). When integrated into the school curriculum, our STEM education programs provide students with opportunities to solve real world design problems, engage with industry standard technology, and transform concepts into reality.
Education programs are available statewide and have been integrated with many robotics programs such as FIRST, UROV, BotBall, and First Lego League. Programs are both customizable and scalable to meet various applications and grade levels.
If your classroom or school is interested in a personalized hands-on approach to STEM education, send us an email at email@example.com so we can talk further about your program needs and how our 3D Academy can assist you.
3D Innovations is a Product Development Company – from the 3D Design to a fully functional 3D Prototype & Product.
We are proud sponsors once again of the Hawaii STEM Conference taking place April 10-11th. This is an event that showcases the many talents of our students here in Hawaii, while giving them an opportunity to delve deeper into STEM (science, technology, engineering and math) subjects with hands-on learning and activities.
Our main area of participation this year will be hosting an onsite ‘Product Design & Pitch’ competition where students will be given a challenge on the first day and will have 24 hours to complete the project.
The project will involve taking the design challenge and coming up with a detailed design and business plan. Students will focus on developing a design, product prototype, business/marketing plan, financials, manufacturing plan and then present their research to a panel of judges.
The presentation will be held in a ‘Shark Tank’ style and the students will present the design and business information they have researched and developed to the judges.
We are always amazed at the ingenuity and creativity displayed by students during these entrepreneurial competitions.
See you there!
3D Innovations is a Product Development Company – from the 3D Design to a fully functional 3D Prototype & Product.
3D printing, also commonly referred to as additive manufacturing, is a technology that has grown exponentially over the last five to ten years. It has been a favorite tool of makers and product design professionals alike. 3D printing technology allows designers to quickly, easily and efficiently design and produce a product prototype for review. While prototyping is where 3D printing is most popular and widely used, the technology is beginning to mature and find it’s way into manufacturing for end-use parts as well.
“When it was invented, 3D printing was referred to as rapid prototyping, a method for automating and reducing the labor required to create a prototype model for design validation. Since then, it has found use in a number of other applications, but the technology is still widely implemented to create visual models and functional prototypes.”
A visual model of your product lets you get a better idea of how the product will look and feel. With the rapid expansion of 3D printing materials and colors available, you have more options than ever when it comes to product design materials. Most hardware entrepreneurs start with a visual model and then move forward with a functional prototype for design validation and testing.
A functional prototype allows you to test the form, fit and functionality of your product. Testing and validating your product design with a functional prototype is highly recommended so that any potential errors can be fixed before heading into manufacturing.
The benefits of a functional prototype extend beyond your design. With a functional prototype you can also gather critical market feedback, rally financial support from venture capitalists and your community as well as file for a patent.
A major misstep that can derail your hardware startup is to skip the development of a functional prototype.
As a design moves from the concept phase to the production phase, a manufacturer might implement 3D printing for the fabrication of custom tools that aid in the production process. “This can include anything from guides for precise drilling, dies for forming or cutting raw material into a specific shape and measurement tools, like gauges, to jigs and fixtures that hold a part in place while other operations are performed.”
3D printing is a flexible tool that can be used either directly or indirectly in the creation of tooling for manufacturing. In the case of indirectly, a tool may be made by coating a 3D-printed component in rubber, which is then used to cast the tool itself.
Currently, due to the speed, quality and cost of 3D printing, “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”.
“3D printing 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.”
Because of these intrinsic benefits, businesses that need to create specialty or custom parts in shorter runs will often turn to 3D printing to manufacture their products. The benefit is that they don’t have to invest in costly tooling to mass produce goods that will only see a limited release.
Have additional questions about 3D printing or how the technology can benefit your business? Send us an email at firstname.lastname@example.org
Taking the leap into entrepreneurship is a major change and a bold move—you are now focused on building a hardware startup around your product idea, which is both intimidating and exhilarating. In the very early stages of product development your motivation is through the roof because you are seeing a product that was once only clear in your mind become reality. However, as you progress through product development, and beyond, it’s normal for your motivation to fade at times because being an entrepreneur is also stressful.
When you feel your motivation start to slip, here are five ways to help reignite that fire within you to keep pushing forward.
What is your personal mission statement? Your hardware startup should have its own mission or vision statement to help identify goals—and so should you. Once you have a clear mission statement for yourself, write it down and post it somewhere visible as a daily reminder of the goal you have set for yourself.
Now take this mission statement and make a plan around it. How will you accomplish this? Write down your short and long-term goals. Keep in mind that your written plan is a living document and should change as you do and as your business matures.
It’s easy to get tunnel vision and focus solely on your product when you are in the trenches of product development. However, at times, it is necessary to step back and remind yourself why you are doing all of this. What problem is your product solving? How is it making life easier? Is it benefiting a greater good?
If you have a business partner, communicate these goals with them as well so that you are both on the same page about where you see this product and startup going.
Mentors are motivating. They are cheering for you from the sidelines and want to see you succeed. A nice chat with your mentor over a cup of warm coffee might be just what you need. Mentors often have more experience and different ways of viewing things, so getting some helpful advice or viewpoint could help you get over your temporary slump.
If you don’t have a mentor, or your mentor isn’t readily available, a TED Talk or an inspirational podcast are two other options.
“Choose happy”. Life can get hard and it can feel like the weight of the world is right on your shoulders, but with the right attitude and a smile, you will prevail. There is no one-size-fits-all approach to launching a hardware startup or becoming an entrepreneur. What works for you may not work for anyone else. So with opinions, ideas and theories coming at you from all angles, remember that ultimately you in one in control of your business and life.
Not everyone gets to do what they love for a career, but if you play your cards right, you have the chance to live the entrepreneurial dream. There will be days you want to quit and situations that seem impossible to navigate, but by remaining positive you will be able to channel your inner strength needed to reach the finish line.
Never underestimate the benefit of a good night sleep. Tasks and goals are easier to accomplish when you are well rested and ready to take on the day. Starting each day recharged and rested will ensure that you are able to reach peak productivity and make decisions with a clear mind.
Ready to develop your product idea? We are here to help! Send us an email at email@example.com
Before you take the “leap” into the early stages of product development, you first must decide if you have a viable product idea that is worth pursuing. There is quite a difference between coming up with a fantastic product idea and then coming up with a product idea that is completely unique and solves a universal problem while simultaneously igniting a passion within you.
If you have been mulling over a product idea, but are still on the fence as to whether it is commercially viable—here are four points for you to consider.
Chances are that if you came up with this product idea to solve a problem that you regularly face, others out there are dealing with the same issue. Finding and developing a solution to a common or universal problem is how most great inventions came to be.
Action: Take a minute to write down the problem that your product will be solving and how it would make life easier for its users. You can even start to casually ask family and friends if this is a problem they have experienced. You don’t have to go into details talking about your potential product yet, if you want to keep it in stealth mode, but you can get a feel to see if others are having this same reoccurring issue and would appreciate (and purchase) a solution.
Narrowing down a target market is one of your first tasks. If your product focuses on fixing a technological issue, perhaps your target market is geared toward a younger tech-savvy crowd. Likewise, if your product solves an issue for a specific industry (i.e. automotive, financial services, restaurants, etc.) you are going to want to make sure that it is easily integrated into daily operations.
Action: Compile a list of potential customers. Focus on age range, education, location, skill set and start to narrow your target market focus. Once you have this list, take a moment to think of the ways in which you can reach this segment of the population.
Brand new products are great—they are exciting and intriguing. Brand new products also come with a requirement—you must educate your audience and customer base first about the problem and your solution before they make a purchasing decision. While it is an additional step, it is nothing that can’t be overcome.
If there are already similar products on the market to your product idea, how are you going to make your product shine? What features will set yours apart? What does your pricing strategy look like in comparison?
Action: Do your research and get a comprehensive view of the industry landscape as well as potential competitors.
Products aren’t developed and launched overnight—though it may seem like that at times from an outsider’s perspective. Often though, weeks and months go into development. Many entrepreneurs are carried through the product development cycle by their passion—they have a strong passion and obsession with their product and know that it can make a difference.
Action: Ask yourself if you have the time to dedicate to developing this idea. Will you need help? If so, what type of help?
Have additional questions about product development? We are happy to help! Send us an e-mail at firstname.lastname@example.org
March is Women’s History Month—a time to celebrate the achievements of women and acknowledge the ways in which many have changed modern life through invention.
“The most dangerous phrase in the language is, ‘We’ve always done it this way.’” -Grace Hopper
Before the 1970’s, the topic of women in history was largely missing from general public consciousness. To address this situation, the Education Task Force on the Status of Women initiated a “Women’s History Week” celebration in 1978 and chose the week of March 8 to coincide with International Women’s Day. In 1987, the National Women’s History Project petitioned Congress to expand the celebration to the entire month of March.
Since then, the National Women’s History Month Resolution has been approved every year with bipartisan support in both the House and Senate. (Source: ThoughtCo)
Women have been at the forefront of invention for centuries. Their ideas, and subsequent inventions, have shaped the modern world as we know it. While there are countless women to celebrate, we discuss four women below that have made great strides in engineering.
The First Woman to File an American Patent. In 1809, Mary Dixon Kies received the first U. S. patent issued to a woman. Kies, a Connecticut native, invented a process for weaving straw with silk or thread. First Lady Dolley Madison praised her for boosting the nation’s hat industry. Unfortunately, the patent file was destroyed in the great Patent Office fire in 1836. Until about 1840, only 20 other patents were issued to women. The inventions related to apparel, tools, cook stoves, and fireplaces. (Source: ThoughtCo)
Inventor of the Paper Bag. Margaret Knight was an exceptionally prolific inventor in the late 19th century; journalists occasionally compared her to her better-known male contemporary Thomas Edison by nicknaming her “the lady Edison” or “a woman Edison.”
After seeing a fellow worker injured by a faulty piece of equipment, Knight came up with her first invention: a safety device for textile looms. She was awarded her first patent in 1871, for a machine that cut, folded and glued flat-bottomed paper shopping bags, thus eliminating the need for workers to assemble them slowly by hand. This machine and method is still in use today. Knight received 27 patents in her lifetime. (Source: Biography)
Inventor of Transparent Glass. Katherine Blodgett (1898-1979) was a woman of many firsts. She was the first female scientist hired by General Electric’s Research Laboratory in Schenectady, New York (1917) as well as the first woman to earn a Ph.D. in Physics from Cambridge University (1926). Blodgett’s research on monomolecular coatings led her to a revolutionary discovery.
She discovered a way to apply the coatings layer by layer to glass and metal. The thin films, which naturally reduced glare on reflective surfaces, when layered to a certain thickness, would completely cancel out the reflection from the surface underneath. This resulted in the world’s first 100% transparent or invisible glass. Blodgett’s patented film and process (1938) has been used for many purposes including limiting distortion in eyeglasses, microscopes, telescopes, camera and projector lenses. (Source: Biography)
Computer Science Pioneer. Grace Hopper (1906-1992) was one of the first programmers to transform large digital computers from oversized calculators into relatively intelligent machines capable of understanding “human” instructions. Hopper developed a common language with which computers could communicate called Common Business-Oriented Language or COBOL, now the most widely used computer business language in the world.
In addition to many other firsts, Hopper was the first woman to graduate from Yale University with a Ph.D. in Mathematics, and in 1985, was the first woman ever to reach the rank of admiral in the US Navy. Hopper’s work was never patented; her contributions were made before computer software technology was even considered a “patentable” field. (Source: Biography)
We encourage you to share the stories of these women along with other notable women inventors with your students, colleagues, children and classmates. By acknowledging and celebrating the women innovators of the past, we encourage the women innovators of the future.
Other women inventors that have made an impact are: Stephanie Kwolek (inventor of Kevlar), Melitta Bentz (inventor of the coffeemaker), Ann Moore (inventor of the Snugli baby carrier) and Martha Coston (inventor of pyrotechnic flares).
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, below are a few ideas on how you can successfully launch your hardware startup from your home city.
When you find yourself in the center of a major technology hub it is easy to get distracted from your original goal if you are inclined to listen to all of the “experts” out there. This advice coming in can easily veer your startup off course and make your head spin.
Instead, diligently focus on your product idea and developing it for your target market. If you have a useful product, customers aren’t going to care where your business is located. Being in a lesser well-known area will also help you keep a global market in mind—you won’t be in a bubble where people share your same interests, skills etc. If you are in the middle of a tech hub you may not realize that people in, say, Tampa or Portland aren’t as tech-savvy as your neighbors. Being an outsider forces you to keep the needs of every potential market in mind.
Chances are that if you are in a large enough city, there are other businesses out there supporting the startup community. You don’t necessarily need to find an industry specific support network, but instead a network that has the skillset your startup requires. Here in Hawaii, we provide product development support to hardware startups in a wide-range of industries.
Cities all over the nation, and really the world, are starting to realize that creating a friendly startup ecosystem is good for business. Startup support might come from government programs, local universities, or corporate sponsorships—there is going to be support available, your job is to seek it out.
Through local relationships and organizations, you may gain access to anything from low-interest loans to access to venture capital that’s limited to local businesses, and opportunities to speak at local business events.
The benefit of launching your startup where you live is that you know people and have years-long relationships built with them already. You have an established community. Even if you’re not in a tech hub, you’re bound to be surrounded by business owners of some sort.
Maybe you know a local manufacturer that can help explain the manufacturing process to you and make introductions for you with their contacts. Perhaps you are neighbors with a local baker that excels at social media, and he/she is willing to give you a crash course on what you need to know to get started.
The good thing about living in a connected world is that expert advice and help is just a Google search away. Connect with other entrepreneurs and CEOs that you admire online—via blogs, their websites, weekly digest emails. You don’t necessarily have to have a two-way conversation with them to glean useful information that you can put into practice.
Failure is hard and certainly no one goes into building a startup thinking that they are going to fail—however, it happens. While failing is in no way enjoyable, that doesn’t mean that it does not have its benefits—in terms of learning what not to do. We can all learn from failure, we can even learn from other startup’s failures. Below are four areas where hardware startups have faltered. Making yourself aware of the challenges associated with each of these areas, you are more likely to make educated decisions that (hopefully) allow you to avoid failure altogether.
Entrepreneurs are designers at heart—they want to design a product, methodology or experience for their target market. They have a brilliant idea and want to introduce it into the marketplace. Design failure can arise rather quickly if the startup founder is not willing to modify their original design idea to meet the needs of customers or manufacturing.
If your customers are asking for your product to function a certain way, feel a particular way or look a specific way, you are going to want to modify your design. At the end of the day, you want people to both purchase and enjoy your product.
When you are working towards commercialization of a product, the goal is to be efficient, minimize costs and get your product onto store shelves quickly—DFM (Design for Manufacturability) works to do just this. With DFM you work out any potential issues before manufacturing planning which saves both time and resources. If you fail to design your product with manufacturing in mind, you are making your startup extremely vulnerable to hefty manufacturing costs and even the potential that it is not able to be manufactured at all.
Plenty of hardware startup founders refuse to let anyone see their product until it’s time to launch. Many are afraid that someone will steal their idea, that potential customers won’t like it until it’s perfect, or they want to get a big head start against the competition. Whatever the reason, failure to get feedback is often fatal for a startup.
Feedback is critical during product development. You aren’t going to know if you are on the right track without feedback from your target market. You are going to want people in your target market to test your product (not just family and friends). It is helpful to get feedback that is both honest and actionable. By creating an inexpensive prototype, and gathering feedback from it, you will be in a much better position as you build your product. This feedback loop is important until the final design is ready.
It doesn’t help your startup if you have a beautiful product that works flawlessly if the market for it just isn’t there. For example, if you are positioning an electronic gadget for the 65+ year old crowd you are going to have a hard sell if they are not well versed in the latest technology trends, or if you are targeting the 18-25 year old crowd with a gadget that is overly cumbersome you are going to face an uphill battle. The solution to this is to find out what appeals to the target market you are aiming to capture and design/modify your product to grab and hold their attention.
This list would not be complete without the mention of funding. Funding is the primary stumbling block for a majority of startups. Developing, manufacturing and launching a product takes time and money. Whether you are turning to crowdfunding or looking for investors, you are bound to face a hurdle or two.
If your goal is to raise capital from investors, be prepared for rejection (a number of times) before you succeed. The process almost always takes longer than you think it will, so start early in your quest to find an investor.
If crowdfunding is your plan, be sure that you show up with a nearly flawless campaign. Your video, content and prototype need to be ready to go. Your goal is to show potential investors that you have a plan laid out, it is well researched and that you are ready.
Starting a hardware company comes with a unique set of challenges. If you can navigate these four common roadblocks, you will be in a much better position for a successful product launch.
Less than ten years ago, the hype surround 3D printing technology was at an all-time high. The idea of each household having one led the news cycle. In hindsight, it is clear that this level of hype and the fever-pitch level of excitement was not sustainable or even realistic. There were far too many barriers for the technology to overcome, both technological and usability, before it could be in “everyone’s house”.
Over time the hype slowly diminished, and the technology began to steadily mature. Firms focused on 3D printing began to collaborate, merge and narrow their focus. Today, the future of the technology looks considerably different than it once did. Below are three areas of growth for 3D printing technology and a sign of where the technology is heading.
3D printing is making its way onto the manufacturing floor. A recent survey from Jabil, found that “81% of manufacturers are using 3D printing technology today”. It seems that additive manufacturing has found its niche in mainstream manufacturing.
The fact that 3D printing has become so prominent with manufacturers, shows that companies are looking for ways to incorporate this technology into their product designs. Companies are no longer standing on the sidelines waiting to see how the technology matures, but are instead harnessing its design benefits and finding ways to use it themselves.
Where once the only material available was plastic, today there is an ever-increasing range of materials to choose from. The most prominent is still plastic (PLA, ABS, PET, PVA, Nylon) however, metals (steel, gold, silver, titanium), ceramic, and wood options are also quickly coming to market.
New and improved metal 3D printing will make a splash this year. “Metal 3D printing will become more and more of a necessity when solving specific manufacturing challenges and creating customized, complex end-use products.” (Engineering.com) We expect to see the range of materials available to continue to grow as the technology continues to advance.
Companies, such as GE, are making great strides in advancing 3D printing and its ability to produce end-use products. However, before 3D printing can really take off in terms of end-use production, there are some major barriers that need to be addressed. “Material properties, high costs, complexity, time to a usable part and location of a production-capable machine relegated to an additive manufacturing lab are significant barriers to the use of additive manufacturing in production.” (3D Printing Industry)
Products produced for consumers with 3D printing will be required to meet the same material properties (strength, surface finish, color) that traditional manufacturing has mastered. While it is most likely that end-use production won’t come to fruition in 2018, we can expect to see more companies finding ways of making this happen with one-off parts.
It is clear that additive manufacturing is here to stay. As it is now, this technology continues to excel with its prototyping capabilities and is a great compliment to traditional manufacturing.