A new breakthrough in UV curing technology: the global debut of morfang precision composite precision system, adding strength to industrial grade micro nano 3D printing

On May 7, Chongqing Mofang Precision Technology Co., Ltd. (hereinafter referred to as Mofang precision) officially released the composite Precision UV curable 3D printing technology, and launched the first dual series (hereinafter referred to as D Series) device: microarch for the world ® D0210 and microarch ® D1025 effectively solves the inherent contradiction between high precision and large format in additive manufacturing, and once again achieves a new breakthrough in industrial grade micro nano 3D printing technology.
D-series equipment still maintains the precision, ultra-high precision and ultra-high tolerance control ability of morfan. It is equipped with a new composite Precision UV curable 3D printing technology and an automatic operation platform, making industrial 3D printing more intelligent, stable and efficient. In terms of rapid prototyping, it brings new solutions for innovative applications in high-precision industries such as precision electronics, biomedicine, high-end communications, semiconductors, etc.
Innovation and breakthrough, compound precision to solve the problem of UV curing technology
In the field of UV curing, there are several groups of inherent contradictions. First, the higher the printing accuracy, the smaller the format size that supports printing; Second, the more complex the model structure, the greater the difficulty of slicing and subsequent forming. No matter what kind of contradiction, it will directly affect the overall quality and efficiency of printing.
The core of the composite Precision UV curable 3D printing technology released by morfang precision this time is the combination and free switching of multi precision 3D printing optical system. Among them, the low precision lens is suitable for rapid printing of large-scale samples, and the high-precision lens focuses on Printing extremely small features, effectively solving the limitation of fixed precision on printing efficiency. Its ultra-high precision composite cross-scale processing capability enables switching printing with different accuracy at the same layer (XY axis direction) and at different layers (Z axis direction), balances the contradiction between printing accuracy and format size, and provides users in various industries with more flexible and efficient printing methods.


Post time: May-09-2024