In the last several years, 3D printing has begun to capture the imagination of the masses, as low cost printers for private use begin to make it possible for amateurs and aspiring designers to make objects made in CAD software directly on their desks.
3D printing is also triggering a shift in how both tiny companies and industry giants construct and design their products. This is beginning to be reflected in today’s engineering degrees and as this technology changes and evolves, so will the future of engineering and the engineering level.
The Future Of 3D Printing
Three dimensional printing, or additive production, goes beyond the capacity of printing in the traditional sense of ink on paper, allowing for 3D items to be physically printed before your very eyes. 3D printers allow you to make prototypes, models and products out of materials such as metals and plastics. The printers do it by creating layer upon layer of the layout in your chosen substance until the final product is shaped. 3D printing allows companies and individuals to quickly prototype tips for new parts or merchandise and also promises to reduce prices on the creation of products through savings in supply-chains, product storage and waste.
The automotive and aerospace businesses benefit from much shorter lead times than with associated traditional technology techniques like casting or machining, allowing for much faster development and testing of all components. Later on, it might even be potential for big parts or even whole cars to be completely 3D printed, as recently illustrated by Local Motors in the 2014 International Manufacturing Technology Show in Chicago, USA.
The ability to print electronic circuitry points into a future of customers having the ability to 3D print digital consumer goods like mobile phones, or the chance of producing highly customized products based on individual consumer preferences. Google has just partnered with 3D Systems to develop Project ARA, a modular mobile which will allow customised 3D printed personalised features, which might point to a future of consumer electronics tremendously shaped by 3D printing.
The food business is also set for a revolution as a result of 3D printing. NASA has invested in the tech in the expectation that one day its own astronauts are going to have the ability to publish their food whilst in distance. Whilst printers exist which allow for 3D creations of foodstuff like chocolate and pasta, 3D printing might in the future be able to permit good control of the nutrient content of various types of food.
Healthcare is also set to gain enormously from improvements in 3D printing. The promise of printing operational human tissues could lead the way for 3D printing organs such as kidneys to help test new medications and even immediately replace failing organs.
Levels Which Will Drive ,there aren’t yet many degrees available that focus exclusively on 3D printing, but there are a select few already in existence.
One such level is a Masters degree in 3D Bioprinting which will appeal to postgraduate students with an interest in regenerative medicine.
There are various kinds of engineering degrees that will provide you a background production processes. To name a few:
- Materials & Chemical Science
- Mechanical Engineering
- Electronic Engineering/Mechatronics
- Civil Engineering
- 3D Modelling/Industrial Design
- Materials & Chemical Science
- Material science is just one of the most important areas for innovation in 3D printing.
The need for modern, low cost and durable printing materials also extends to chemical science, where advances will cause more innovative plastics to be used in products. In the health industry, it is hoped that improvements in 3D printing and chemical procedures will lead to molecule level printers which are able to print drugs on demand. So search for levels in chemical technology to become involved in this region.
3D printing makes it feasible to create objects with far more complex structures than conventional manufacturing methods and is very likely to become the go-to production process for many different areas in manufacturing.
By analyzing a diploma in Mechanical Engineering you’ll have the ability to equip yourself with knowledge of the latest developments in business and you’ll be well positioned to make your livelihood in revolutionising manufacturing processes.
SEE MORE: Mechanical Engineering Degrees
Analyzing a degree in electronic engineering or mechatronics allow you to apply to the integration of digital components and circuitry from 3D printed components, or even study the electronics and robotics which will control the manufacturing processes of the long run.
3D Modelling/Industrial Design
If you’re more interested designing items to make in 3D than the printing process itself, degrees in 3D modelling and Professional layout will give you the technical and creative abilities you need to make a career in designing things for manufacturing. Talented 3D modellers and Professional designers who know how to design products to exploit the capacities of 3D printing is going to be help to drive innovation of additive production.
There are several distinct regions of Engineering that will benefit in the long run from the progress in 3D printing. Our guidance is to decide on the subject of engineering that interests you the best way to study then you are going to help to drive the production revolution.