Rapid Prototyping

3D Bio Printing | How does 3D Bioprinting Work | New 3D Bioprinting Organs

3D Bio printing is an additive manufacturing processing technique that incorporates bio materials such as cells and growth factors to build tissues that resemble natural tissue-like structures. In order to build these structures layer by layer, the process uses a material called bioink. The technique applies significantly in the medical and biotechnological fields. Recently, the technology has also made advances in the manufacture and regeneration of the cartilage tissue. It is essential to sustain sterile printing conditions in order to maximise cell growth and to accomplish a print resolution sufficient to the proper cell matrix structure. In complex tissues, this ensures

Recycle PLA advantages | Quality Recycled PET Filament | Clean Recycle Failed 3D Prints

Recycle Failed PLA and PET 3D Prints into PLA & PET Filament The excess or recycle PLA – filament or failed 3D printed plastic may be turned into useful Recycle PLA filament or Recycled PET filament using a recycling spooler device. The machine grinds and melts the polymer. Hence it is extruded and coiled over a spool. Most devices are either grinding or melting, which ensures you can need two machines. Transform the 3D print waste into filament or a polymer would break down the failed 3D prints into smaller parts. Here the filaments melt them away, and drive the

3D Printing Polymer Materials | Mechanical Characterization of 3D-Printed Polymers

3D Printing Polymer Materials in Industries While selecting a product to print a specific component, a close consideration is essential. Whilst the number of commercial usable polymers are accessible, not a single polymer offers one the required properties for a particular application. Moreover, no specific polymer present on the market can be printed using a single Additive Manufacturing technique. The material selection of 3D printing polymer materials is focused on the product and the desires of the customers.  The atmosphere and conditions (e.g., temperature, mechanical load, UV Light, chemical exposure, radiation, and moisture), 3D printing method, availability and process ability

3D Printing Technologies | FDM 3D Printing | Stereolithography Printers

3D Printing Technologies Some of the 3D Printing Technologies are mentioned below. For quick prototyping, creative components, and the development of jigs and fixtures, companies such as Ford, Volvo, and BMW currently use 3D printing. Mercedes-Benz is going to be leading this market, with over 100,000 printed prototypes created annually. Recent forecasts for the global 3D printing industry were as large as $15.2 billion by 2025. 1. Fused Deposition Modelling (FDM) 2. Direct Ink Write (DIW): Both technologies work based on extrusion processes 3. Powder Bed Fusion (PBF) 4. Selective Laser Sintering (SLS): These two technologies work based on the laser to

3D Printing in Healthcare Emerging Applications | Novel Organ Printing

In this article, 3D Printing in Healthcare, Emerging Applications in the Biomedical industries and different organs printed are explained in detail. 3D Printing in Healthcare emerging applications In a short period of time, 3D printing enables your concept to the real product. Therefore, 3D printing is really useful for medical devices. The skilled 3D printing service enables you to deliver the highest levels of detail for your devices. They suit your medical components perfectly, like teeth, ears etc. The 3D printing process also allows rapid prototyping techniques and enables you to build the perfect designs for your product. Dental industry – 3D