Rapid Prototype technology, also known as rapid prototyping manufacturing technology, was born in the late 1980s and is considered a major achievement in the manufacturing field in the past 20 years. Rapid Prototype's technology integrates mechanical engineering, CAD, reverse engineering technology, layered manufacturing technology, numerical control technology, material science, and laser technology. It can automatically, directly, quickly, and accurately transform design ideas into prototypes with certain functions. Direct manufacturing of parts provides an efficient and low-cost implementation tool for parts prototyping and verification of new design ideas. Rapid Prototype technology faces many problems, so what are the problems with Rapid Prototype's technology? Let's take a look together next.
The following is a list of contents:
Process problem of Rapid Prototype
Material issues of Rapid Prototype
Accuracy of Rapid Prototype
The basis of Rapid Prototype is the principle of layered stacking. However, what material is used for layered stacking and how to perform layered stacking are of great research value. Therefore, in addition to the above-mentioned common layered stacking forming methods, some new layered stacking forming methods are being researched and developed to further improve the performance of the parts and increase the forming accuracy and forming efficiency of Rapid Prototype.
The research of Rapid Prototype materials has always been a hot issue. The properties of Rapid Prototype materials must meet: it is conducive to rapid and accurate processing and molding. The materials used for rapid prototyping systems to directly manufacture functional parts must be close to the end-use of the parts. The strength, stiffness, moisture resistance, thermal stability, and other requirements. Rapid Prototype material facilitates the subsequent processing of rapid mold making. The development of brand-new RP materials, especially composite materials, such as nanomaterials, heterogeneous materials, and materials that are difficult to produce by other methods, is still the direction of efforts.
The accuracy of Rapid Prototype parts is generally at the level of ±0.1 mm, especially in the height direction. The basic principle of Rapid Prototype technology determines that the process is difficult to achieve the surface quality and accuracy indicators of traditional machining. Integrating the basic forming ideas of Rapid Prototype with traditional machining methods and complementing each other is an important method to improve the accuracy of Rapid Prototype.
We offer a series of rapid manufacturing services such as rapid prototyping services, CNC machining services, injection molding services, pressure die casting services, etc to help with designers and customers' low-volume manufacturing needs. In the past 10 years, we assisted over 1000 + customers to launch their products to market successfully. As our professional services and 99%, accurate delivery keeps us the most favorable in our client's lists. The above is about the technical problems faced by Rapid Prototype, if you are interested in Rapid Prototype If you are, you can contact us and we will provide you with related services to let you know Rapid Prototype more clearly. Our website is https://www.team-mfg.com/. I look forward to your coming and hope to cooperate with you.
TEAM MFG is a rapid manufacturing company who specializes in ODM and OEM starts in 2015.