In industrial production, 3D printers have always been considered a unique presence, especially in the industrial manufacturing industry. 3D printers can seamlessly complement traditional production and processing methods and accelerate the progress of design plans, certifications, and other aspects.
In large-scale industrial production, the traditional production and processing methods are accompanied by an increase in output, and the cost of Product Research & Development of early molds will be fully diluted. In large-scale production and customized production and processing, expanding mold processing and reproduction has become a way of high input and low output. And once the prototype diagram is unscientific or does not meet the production and processing requirements, the mold has no use value. In particular, some internal structures are cumbersome and must be maintained by multiple grinders. The company invests a lot of money, and the actual effect is uncertain, which is likely to be wasted.
3D printing can be used for immediate production and processing, without the need to develop an abrasive tool design or consume human resources. Professional technicians can complete all the work of the design plan and processing process at one time.
Before the sale, we must do a good job of product identification, threat and risk assessment and sales market assessment. Enterprises have great risks in the method of demoulding certification. If the design is not very good after the demoulding certification, then the demoulding cost invested before will virtually increase the company's asset burden, and also bring great work pressure to the designers.
With its advantages in economic development, 3D printing can be used to verify products multiple times at a small cost, seeking suitable scheme design, thus saving a lot of Product Research & Development costs for enterprises. Without the pressure of economic development, it can fully stimulate the subjectivity of independent innovation of design scheme workers, accelerate the process of the original design scheme retention system, and gain valuable time for enterprise management decisions, and then take the initiative in the fierce market competition.
In addition to original certification, effective managers of small batch production levels. What makes industrial 3D printers unique is that they are custom-made, and a variety of artistic ideas are brought to the extreme. Such as model making, auto parts, mechanical equipment parts, etc.
Although 3D printing has a large number of applications in basic theory and has a strong demonstration role, in the whole process of specific production and processing, design and application, some manufacturers produce and process machinery and equipment with low printing accuracy and poor stability. These are one of the reasons why manufacturers do not fully adopt 3D printers. Customers must keep their eyes open and choose according to specific application needs, which can save money and improve the accuracy of management decisions.
In small-scale mass production, there is no need to use large and medium-sized assembly line equipment and design abrasives. It can be maintained with one or several 3D printers, the actual effect is fully guaranteed, and the time is in your own hands, beyond the ideal delivery of actual results. This 3D printer must have strong reliability in order to guarantee the pass rate of printing. 3D printing has reached a turning point. Without the support of photographic flash, it has faded all over, but the footsteps are firm. In industrial manufacturing, with the support of 3D printing, the manufacturing method is more flexible and the use of assets is more efficient, which helps them to shine and produce positive effects.