There are many barriers to wide 3D printing adoption, but one of the most significant is cost, particularly the system and materials. In addition to the cost of materials, this technology also faces many other obstacles. If you run a 3d printing company in dubai, you must understand the following challenges. In addition, many people need to be made aware of how this technology works and need to be educated about the capabilities of 3D printers.
Cost of system equipment:
A recent survey found that the cost of system equipment was one of the top concerns of professional 3D printing users. Plastic printers are relatively inexpensive, but the metal printers needed by large companies can cost tens of thousands of dollars and require a lengthy process. Companies also need more qualified employees to train and maintain the machines.
Besides the price of system equipment, engineers also have to consider the quality of the final product. Although 3D printing is cheaper than traditional manufacturing, the technology could be better. Even high-end machines can cost millions of dollars, and the final product quality often needs improvement. Another area for improvement is the need for industry standards. To address this issue, the Additive manufacturing standardization collaborative (AMSC) is working to develop industry-wide standards and specifications.
Cost of materials:
One of the main challenges of 3D printing is the cost of materials. The cost of materials varies depending on the number of layers and the printer’s speed. Metal printers, for example, can take days to produce a part. In contrast, metal powder printers can build objects in as little as five hours. Another challenge is the need for more technical knowledge.
One of the most important challenges in widespread 3D printing adoption is the need for knowledge about the technology. This is a double-edged sword. Knowledge of the technology is necessary but more complex than early proponents made it sound. For example, employees producing biomedical products need special training and information regarding the biocompatibility of materials and the 3D printing process. They also need to know how to design biomedical products and adhere to industry standards.
Education is one of the major challenges facing the widespread adoption of 3D printing technologies. Despite the potential benefits of 3D printing in education, it is rare in classrooms. Despite numerous educational initiatives, 3D printing adoption has been low, largely because of the need for appropriate technology education. This paper investigates how high school teachers’ behavioral intentions to use this technology relate to their attitudes and beliefs. It validates a conceptual model based on data collected from 103 high school teachers.