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Additive manufacturing is a cool new way to make things. It employs specialized computer systems, known as computer-aided design (CAD), to go along with advanced 3D printing technology. This type of method involves building objects up layer by layer, sort of like stacking blocks. This differs from traditional manufacturing methods, which tend to involve cutting away pieces from a sizable block of material — like metal or plastic — to form a finished product. Since additive manufacture gets built layer by layer, it is capable of producing a very complex and intricate shapes and designs, which would be extremely difficult or even impossible to produce using the older methods. That makes it a powerful tool for inventors and manufacturers. Additive manufacturing is shaking up the world of manufacturing. Traditionally, it could take a lot of time and a lot of money to make new products, especially prototype products, which are early versions. Additive manufacturing gives factories the ability to rapidly produce small quantities of goods to experiment with concepts and solicit customer feedback. That means they can iterate on their designs more quickly and put better products in the market.” Furthermore, if a factory requires new parts for a machine it can use this technology to rapidly produce those components. It helps factories run with minimal disruptions without long delays. Making countries more self-sufficient In addition, this technology is making countries less dependent. Being able to build critical tools and machines locally rather than relying on foreign countries through additive manufacturing.
Binder jetting is a type of additive manufacturing. In this process, an adhesive — or binder — is sprayed on a bed of powder. The job of the binder is to glue (or sinter) the powder particles together, one layer at a time, until the final object is made. Unlike other 3D printing results, this does not need further supports to keep its structure during the technique. Binder jetting is faster than filament printers, which translates to savings on costs. In addition, binder jetting can also handle a wide range of metal departments, ceramics, and even numerous plastics. Its versatility also makes it faster and less expensive, especially when it comes to creating intricate designs that could otherwise be challenging to produce through conventional methods.
One of the biggest benefits of binder jetting is its capability for very complex shapes and designs. This process produces parts and thin walls and detailed features impossible with older manufacturing processes. Binder jetting also enables the fabrication of lightweight yet exceptionally strong components. However, the ability to easily create complex shapes and structures is particularly beneficial in fields like aviation, where lightweight but strong parts are essential to safety, as well as the biomedical industry, where specialized implants may be necessary. Also, architects benefit from this tech as it allows them to make highly detailed models of buildings that have a lot of fine details so that they can better visualize their designs.
The potential for binder jetting in additive manufacturing is virtually unlimited. It can make many things, from beautiful jewelry to vital airplane components. In medicine, binder jetting can form complex implants that perfectly conform to the patient's unique body shape. Such customization can help improve patient outcome and comfort significantly. This method enables architects to create detailed building models that include element-specific designs. This allows clients to get a better sense of a project and visualize it before it’s constructed. To recap, binder jetting was a filing revolution opening up all sorts of opportunities.
We, at Pulesheng Technology, have a leading position in the field of binder jetting technology. We have designed our complex, high quality printers with speed and efficiency in mind. It is our utmost priority to closely work with our clients, to understand their exact needs and problems. Working with their suppliers enables us to develop tailored solutions that integrate seamlessly into their specific applications. We have prepared a specialized team of professionals to continuously discover novel concepts by using the limits of binder jetting technology. Cutting Edge 3D Printing SolutionsHelping our client succeed
Pollson founded by an excellent team with many years of experience in 3D Printing and Additive Manufacturing, High-tech companies specializing in 3D Print industry. Pollson not only have advanced printing technology, but also a complete and professional R&D department. We constantly explore new technologies, such as the recent green laser printing, and we are professional and dedicated to the development of additive manufacturing.
Pollson focus on Metal 3D Printing, powder bed binder jetting, and Green laser metal 3D printing overall solution. Successfully solved the 3D printing problem of special metal materials such as high anti metals, refractory metals, and precious metals, and can also adapt to conventional metal materials to achieve more efficient and precise printing.
Pollson have a comprehensive equipment system, from design to printing, including MJF printing equipment, BINDER JETTING printing equipment, and even leading green laser printers, as well as post-processing equipment with different material technologies, such as clear powder surface treatment, dyeing, and even metal print polishing machines. We look forward to your inquiry.
Pollson have a complete set of processes, from design to printing, to post-processing of printed parts, all of which are personally supervised by our professional engineers. We perfectly control every aspect and effectively achieve the advantage of combining professionalism and technology, committed to the development of additive manufacturing.
