If 3D Printing machines and their materials were costly in the past, currently it turns into being economical because technical improvements and innovation are being significantly surged and when demands for this technology and urgent application in several main industries are higher, 3D Printing now is accessible to adopt and exploit, responding to Industry 4.0. In addition, standardization processes of using 3D Printing and other technologies are stimulating progress and upgraded actions for sustainability and existence in the market. As a study, 46% of companies expect to catch the trends and adopt as many modern technologies as possible.
Towards the application of 3D Printing in Education, there are exceptional advantages of application in this sector, so schools and universities widely adopt this machinery in their modern facilities and purpose for educational development. 3D Printings help students demonstrate their prototypes/ images/ ideas in the physical 3D world. For instance, 3D Printing application assists a lot for Graphic design students through building models with complicated working parts Medical students through creating and learning cross-sections of organs in the human body along with other biological samples, and Chemistry students through creating 3D models of particles and chemical mixture. Plus, many 3D Printing application courses are offered for candidates by trustworthy schools and companies, which are about design, engineering, and architectural fundamentals.
Speaking about standardization, it is important to get standardized to develop a strong market and become a leader in one certain industry. Standardization for technological advancements is a tough and long pathway. Generally, standardization is guidelines for organizations and industries to comply with regulations, instructions towards the best practice, and criteria for purpose of the better-standardized quality, accuracy, and consistency. Let's go through Two core benefits of standardization for 3D Printing:
Consistency Assurance: additive manufacturing (AM) requests to consistently provide high quality and to assure processes in challenging situations. Its operation comprises complicated stages and these stages must be supervised, evaluated, and managed to ensure the quality of 3D components and to optimally prevent costly trial and error mode.
Dealing with administrative standards: to achieve qualification and certification, industries and organizations must follow guidelines. Some main industries that request higher standards such as medical, automotive, etc. usually face stricter regulations, resulting in delaying wider AM applications due to highly complex quality guarantees and qualification.
