3D Printing: What is it?
At first glance, 3D printing may seem like an intricate and complicated culmination of technologies and materials. And for the most part, it is. However, it operates on a very simple principle. The basic aim of the 3D printing technology is to convert a digital design or blueprint into a tangible physical object. This is an additive manufacturing process, where the three-dimensional model is created by adding material layers.
Rapturize: Now what’s this?
Rapturize is an innovative way to provide educational institutions with state-of-the-art technology that can make learning more interactive and fun. Essentially, Rapturize offers 3D printing services for educational purposes. Rapturize specializes in providing databases for 3D printing models, handcrafted to suit the syllabus of your school. Take a step forward and embrace the new, more interactive way of teaching and learning.
Education and 3D Printing
Imagine students learning physics by holding levers and pulleys in their hands. Or geography by touching the topography of countries. With 3D printing, hard-to-grasp concepts can be represented in tangible, easy-to-understand ways. These models can be a lot more effective than the traditional charts used to explain courses in class.
This isn’t limited to only schools either. Colleges and universities can also make use of 3D printing for making prototypes and studying cross-sections. 3D printing is being increasingly used in fields like car manufacturing for prototypes, medical, dental and prosthetic fields, and show manufacturing.
Scope of 3D Printing
Rapturize works on the principle that everyone deserves a chance at hands on learning, where they can touch, feel, and understand the coursework. Rapturize works on multiple levels:
Starting 3D printing at an early age, students can progressively move in difficulty level.
Elementary school students can work on easy to understand, simple models like:
- Clay moulds
- Art and Craftwork
- Shapes and solids
Middle and High School students progress towards more design oriented, multi-layered, complex models:
- Maps and Topography
- Atoms and Molecules
- Pulleys, levers and mechanical objects
- Trigonometry: Heights and Distances
College and University students work on advanced models in a specialized domain of their choice:
- Prototypes in engineering
- Models and artwork for fashion, graphic design and architecture
- Organic models in medicine
- Studying cultural heritage through model artefacts
- 3D Printers
- 3D Pens
- 3D Filament
- Curriculum and coursework
- Online and e-portals
- Electronics and IOT