3D Printing is also known as additive manufacturing which is a manufacturing technology in which material gets deposited layer by layer like paper printing but adding layers on top on one another makes them 3-Dimensional.
But the main problem is 3D Printing is a very underutilized manufacturing technology which many organisations and design teams are missing out.
This article will tell the benefits of 3D Printing for Start-ups as well as different materials available at www.chizel.io.
Rapid prototyping using 3D Printing:
Rapid prototyping using 3D Printing is the fastest way to bring your ideas into a functional, aesthetic part or a product.
Do you want a conceptual idea to be validated?
What about fully functional parts to test characteristics and wind-tunnel testing?
What about understanding the design better as part but without investing in actual production tooling?
3D Printing can help you with all of that. 3D Printing is the most advanced and very cost competitive technology to do this effectively rapidly. 3D Printing has evolved much over the last decade and you can now 3d printing fully functional production quality parts using batch production in 3D Printing.
Why 3D Printing Makes Perfect Sense For Start-ups?
- As start-ups start designing their product or part or assembly, often times the designers and founders have a difference of opinion and different designs that have to be validated before finalising the production model.
- 3D Printing can help in this case, start-ups can have multiple designs and 3D Print all of them in a single batch, however complex they are. Different 3D Printing Materials
- They can print in different materials and compare the aesthetics and functionality at the same time. This makes a lot of difference in Product Development for start-ups to iterate much faster and change designs rapidly.
- Designing doesn’t stop and the development of the part has to be done, This is rather tricky because of the manufacturing technologies available and also the costs for this might be really high depending upon the manufacturing technology.
- For Milling, tooling has to be developed. For Injection Moulding, mould has to be manufactured and to manufacture the mould, tooling is necessary again. For sand, casting master has to be developed which involves a lot of trial and error and again tooling and really skilled labour. For vacuum casting, again master is needed but the master can be a 3D Printed master which reduces the cost and timeline significantly.
- Tooling cost is really high so 3D Printing makes perfect sense.
- 3D Printing is the most cost-effective when comparing to the manufacturing technologies mentioned above, which makes perfect sense when developing a prototype cost effective with full functionality.
- Sometimes even the functionality can have different designs and has to be validated and tested properly.
- Rapid Manufacturing is essential to be head on head with the competition and also to iterate the designs As soon as possible to go to the market.
- Rapid Manufacturing is a non-conventional approach to reduce manufacturing lead time.
- Many Manufacturing technologies are limited in a lot of ways, one of them is complex designs and manufacturing feasibility of certain processes. This is where 3D Printing shines brightly because it is easy for 3D-Printing to develop complex designs since it’s a layer deposition technique.
Smarter Prototyping Using 3D Printing:
Understanding the customers need and developing a product requires the ability to validate concepts & designs, testing function and aesthetics faster which is achieved by 3D Printing Technology is the first step in a start-ups success journey.
“Time is your enemy or friend, the ability to test faster and fail faster gives you an upper hand in the final product development”
Speed and ease of use is one side but the other side is the ability to develop high-quality parts using 3D Printing is also possible.
But you can also print fixtures in 3D Printing easily for vacuum casting. Essentially 3D Printing can help in vacuum casting as well.
Fail Fast to succeed:
Not in any negative sense but the only way is to move faster and fail in the design stage to level up the design based on constant feedback from the development team.
As a start up, the only thing that matters is time. From just a CAD design model to a fully functional 3d printed parts can take less than 5 days.
“3D printing prototypes gives us the ability to fail fast. We can produce multiple design iterations quickly and we can change a product design overnight to meet a customer’s deadline. The parts are accurate and the process is dependable. – Jesse Hahne, Center for Advanced Design”
We have over 30+ different materials with extensive properties in our portfolio and we have manufactured over 28000+ parts for over 600+ customers. We can cater to a wide range of applications.
Few of our 3D Printing Materials:
Well suited for cost-effective prototypes and models requiring the form and visual validation
A photo-cured polymer having good dimensional accuracy and smooth surface finish.
Transparent parts with smooth surface finish and good dimensional accuracy.
Strong & flexible plastic with excellent mechanical properties for fully functional parts.
Glass reinforced Nylon material for performance parts requiring high stiffness and low abrasive wear.
Rigid material with excellent feature retention capability and high dimensional accuracy.
Rubber-like material for part applications requiring varying shore hardness between 30A to 95A.
Suitable for High-temperature applications with minimal loading.
Well suited for cost-effective prototypes and bio-degradable models requiring the form and visual validation.