Micro3D

Fastest Anycubic Printer... The self-developed Anycubic LeviQ function will automatically compensate the unevenness of the heated bed. With a 25-point smart and precise calibration, leveling your heated bed has never been so easy. Ultra Smooth Printing... Integrated direct extruder provides greater (conveying) force and preciser (filament) control. Compatible with flexible materials, the printer can reduce jitter in filament transmission and ensure printing precision. Low-Maintenance Platform... After printing, the models can be removed by gently bending the spring steel magnetic platform. The platform can withstand high-intensity printing and is corrosion free, saving you a lot of maintenance cost. Print Without Limitations... 220x220x250mm print size is enough for daily and household use, providing you larger printing space and more choices of creation. Needless to Wait... The maximum printing speed is 180mm/s (Average speed is 80mm/s, 167% faster than competitive products). Faster speed enables you to enjoy more joy of 3d printing. User-Friendly Touch Screen... The printer is equipped with 4.3-inch LCD touch screen, which brings sensitive response and brighter display, offering better using experience. Quicker to Start... Modular design allows the printer to be assembled only in 10 minutes, which is very easy to use. #3dprinting #additivemanufacturing #fdm @micro3d

How is 3D Printing Technology Used in Construction? The 3D printing systems created specifically for construction are commonly known as "construction 3D printers." A construction 3D printing (C3DP) project typically starts with a 3D digital model of the structure that needs to be constructed. The model is virtually sliced into layers. The printing robot or gantry system then follows a pre-programmed path to deposit each layer of material, tracing the layer outlines and extruding material until it has completed the whole slice. Once one layer is complete, it begins the next on top of the first, and construction continues like this until the full structure is built. It may use materials such as concrete, metal, or polymers to form this 3D structure.  The most common 3D printing technology for construction involves a robotic arm that extrudes concrete while moving back and forth. Powder binding and additive welding are other methods used for 3D printing in construction. Powder binding involves the solidification of powder layers to create the desired object. Additive welding was demonstrated in Amsterdam with the printing of a functional, full-scale metal bridge. To date, 3D printing has been used to print houses, offices, and other structures. 💫 #3dprinting #additivemanufacturing #fdm #micro3d

Stereolithography (SLA) 3D printing is the most common resin 3D printing process that has become vastly popular for its ability to produce high-accuracy, isotropic, and watertight prototypes and end-use parts in a range of advanced materials with fine features and smooth surface finish.  In this comprehensive guide, learn how SLA 3D printers work, why thousands of professionals use this process today, and how SLA printers can benefit your work.... #3dprinting #sla #additivemanufacturing #micro3d #dental #jewelrymanufacturer

The Neptune 4 Plus comes with the powerful Klipper firmware, enabling impressive printing speeds of up tp 500 mm/s (default 250 mm/s) and up to 12000 mm/s² accelerations, supporting advanced features such as input shaping and pressure advancing. Equipped with acceleration sensors on the X and Y axes for automatic calibration and improved print quality. Neptune 4 Plus adopts a Klipper motherboard and ARM 64-bit 1.5G main frequency quad-core processor. With pre-installed Klipper firmware, the printing speed can reach 500mm/s (default 250mm/s) with up to 12000mm/s acceleration. 8G RAM gives you ample storage capacity for various print files. In addition, the printer supports input shaping and pressure advance to improve print quality and reduce issues like artifacts, filament ooze, and blobbing. With acceleration sensors on the X-axis and Y-axis to automatically calibrate resonance compensation parameters for less vibrations and precise prints. #3dprinting #fdm #additivemanufacturing #micro3d

New Anycubic Kobra 2 MAX... Compared to mainstream FDM 3D printers, the printing speed of Anycubic Kobra 2 Max ! has increased by 10 times. Larger model creation, time-saving, and energy-efficient. ● 10X Fast 3D Printer: Max Speed 500mm/s ● 88L Large Print Size: 420*420*500mm ● Automatic Leveling: Upgraded LeviQ 2.0 #3dprinting #fdm #additivemanufacturing #micro3d

Bio Printing.... Medical Prototyping... Bioprinting is an additive manufacturing process similar to 3D printing bioprinters print with cells and biomaterials, creating organ-like structures that let living cells multiply. Medical 3D printing is increasingly deployed in both clinical and research-based healthcare activities. It involves the creation of physical replicas of anatomical structures using 3D printing. Four major applications include 1. creating tissues 2. surgical tools 3. patient-specific models 4. custom-made .. To develop a patient-specific 3D print, digitization of a patient’s real anatomical structures must first take place. This method leverages 3D scanning techniques such as MRI, X-ray CT or 3D ultrasound to produce a volumetric image of the anatomy. The images must be labelled, via a process called segmentation, to isolate structures of interest and develop a 3D computer model. #3dprinting #additivemanufacturing #sla #medical #medialiteracy #healthcare #pharmaceuticalindustry #micro3d

Jewelry Prototyping.... Having a wide range of 3D printer models to offer, Engineering Technique has attained proficiency in jewelry 3D printers. Gain access to a lot of printing materials such as wax and resin with high details and sharpened edges for printing some of the finest 3D jewelry with 3D printed necklaces, 3D printed bracelets, and many more options. We offer our clients a huge variety of high-quality 3d printing jewelry machines with maximum accuracy, resolution, leveraging the topmost technology for all deliverables. 💫 #3dprinting #sla #additivemanufacturing #micro3d

Photon Mono has a 6" 2K Monochrome LCD, making its lifespan 4 times longer than a color LCD and using less energy while printing faster. With its larger build volume and faster printing capabilities, it stands out as an impressive UV LCD SLA 3D printer 💫 #3dprinting #additivemanufacturing #sla #micro3d

New K1C Printer Carbon Fiber Filled Filaments ...Brought into Play! Clog-free Extruder Kit with Quick-swap Nozzle. 1st print, 2nd print, until you lose count, K1C always has your back. Enhanced Reliability.... The extruder of K1C is enhanced with a bolster spring and a ball plunger. It grips on filament tightly without slackening off. 1st: Hotend Fan for Minimal Heat Creep. 2nd: Part Cooling Fan for Instant Hardening. 3rd: Auxiliary Fan for Overall Print Quality K1C can make use of CF filaments, which are widely used in industrial printing for their mechanical strength and resistance to wear, deformation, and aging. ✨ #3dprinting #fdm #additivemanufacturing #micro3d

FDM Assemble Prototypes ✨ FDM’s additive nature and soluble support material simplify the creation of parts with complex geometries and internal cavities. FDM technology is clean and office-friendly, thanks to production grade materials that are mechanically and environmentally stable. FDM thermoplastics also deliver the necessary properties for applications that demand precise tolerances, durability, and stability in different environments. They include many of the same thermoplastics used in traditional manufacturing processes like injection molding. 💫 #fdm #3dprinting #additivemanufacturing #micro3d