The aerospace industry is increasingly adopting 3D printing and rapid prototyping technologies to develop aircraft parts in the pursuit of trimming down manufacturing costs. Major applications of 3D Printing Technology in this industry are manufacturing complex engine parts, wing components, manufacture in space, manufacture on demand, low inventory, jigs and fixtures, surrogates, design validation, mounting brackets and many more.
Design faster when time is critical. When customized equipment is vital and deadlines are non-negotiable, 3D printing technology gives government, military and defence manufacturers the freedom to design a single end-use part, quickly create low-volume tooling, and build complex, precise prototypes. Functional testing, production within timelines, customized gears and products, mock-up models to study will aid defence industry.
By building durable concept models, prototypes, tooling and low-volume end-use parts in-house, automotive engineers and designers can work more iteratively, test more thoroughly and move confidently into production. Major applications of 3D Printing Technology in this industry are for replacing expensive CNC production processes, create better assembly tools, testing and identifying design problems and product development.
3D Printing Technology offers the worlds most advanced method allowing mould designers to print production moulds in one or two days as supposed to days and weeks for traditional method. 3D Printing Technology helps mould makers when complex geometry would make traditional tooling difficult, low quantities are needed, or design changes are likely. They can now save time of production, design changes are more cost effective, and deliver accurate moulds on time.
3D Printing Technology offers the medical world with most advanced solutions, allowing medical product manufacturers, doctors, and researchers to create parts for patient care and advanced experimental work. Technology offers Bio-compatible Materials, for rapid prototyping of medical and dental products including dental delivery devices, surgical orthopaedic guides, and hearing aids. The medical materials offer excellent visualization and great dimensional stability.
3D Printing Technology is the future for orthodontics. 3D Printing can help Dentists to digitalize their workflow, fast ROI for labs and clinics of any size and also help in surgical planning and preparation. By combining oral scanning, CAD/CAM design and 3D printing, dental labs can accurately and rapidly produce crowns, bridges, stone models and a range of orthodontic appliances.
3D Printing technology in pharmaceutical drug delivery is anticipated to excel tremendously in the area of personalized medicines. We have reached an era in pharmacy practice and medicine whereby “one size does not fit all” since medication must be tailored to individual patient’s needs while taking into consideration differences in genetic profiles, age, race, gender, epigenetic and environmental factors. Also, there are situations where the treatment regimens must be customized to improve patient’s adherence to treatment.
Seeing is believing. 3D Printing Technology helps architectural firms seize more opportunities by creating complex, durable models in-house, directly from CAD data. 3D Printing technology in this industry help the client to visualize and understand their designs better, reduce the time spent in creating models, creating design library for reusable designs. While Construction 3D Printers are taking the world into a modern age era where low cost housing and construction is possible.
Commercial products manufacturers need the flexibility to make great products in small, medium or large volumes. Digital manufacturing solutions are often the difference between turning down potential business and cost-effectively delivering and serving a niche need. Timing can be as important as the idea itself. In the competitive consumer products field, in-house 3D printing enhances collaboration, shrinks time to market, and helps keep new devices under wraps until launch.
3D Printing Technology makes great product better. Product designers can now check and validate the aesthetic as well as functional testing pre-production, create life-like prototypes and can also experiment with different materials before finalizing. In the consumer goods market, additive manufacturing has created new possibilities throughout the phases of functional prototyping, design, tooling, and even through series part production. Additive manufacturing applications in the consumer product industry are growing in number and adapting to the specific nature and constraints of a rapidly expanding sector with an ever-increasing need to reduce development time.
In electronics, requirements of attractive design, small form factor and high production efficiency make designing truly successful consumer electronics a real challenge. 3D Printing Technology helps developers check the fitting of small and large components during the validation stage itself. Creating real time workable prototypes help them understand their product better and can also experiment with various materials.
Introducing new technologies at an early age really fires up a kid’s imagination and inspires them to learn without limits. Having a structured 3D Printing Technology curriculum adds a new dimension to the classroom by integrating making into learning. Curriculum supported learning tools make learning fun and teaching concepts of science, technology, engineering and math concepts very easy. Learning 3D Printing Technology enriches an effective method of interactive learning, boost their career opportunities, and can have an advantage in the employment market.