MB METHOD X CF METHOD X CARBON FIBER

MakerBot Method X 3D Printer - Fused Filament Fabrication - Acrylonitrile Butadiene Styrene (ABS), Acrylonitrile Styrene Acrylate (ASA), Polyethylene Terephthalate Glycol (PETG), Polylactic Acid (PLA), Carbon Fiber Supported - Network (RJ-45) - Wireless LA SHIPPING NOTICE Please note that due to the size and packaging of this machine, your MakerBot Method X Carbon Fiber Edtion 3D Printer will ship on a pallet via freight, which could extend delivery times. If you are shipping a MakerBot printer to a residential address, the freight company will call you to schedule a delivery. Shipments made to commercial addresses will be made without the need to schedule a delivery Carbon Fiber Made Accessible Replace metal parts and assemblies with 3D printed Carbon Fiber and dissolvable supports Dual Extrusion Composite 3d Printing for Advanced Geometries Patented VECT™ 110 (Variable Environmental Controlled Temperature) Thermal Regulation evenly heats and controls the print environment leading to parts that are 2x stronger on the z-axis, and 2x more accurate across the board. The 1C Composite Extruder is engineered, optimized, and tested to withstand abrasive composite materials for maximum lifespan. Dual extruders with water-soluble support material allow you to print in unlimited geometries and simplify your workflow. Strong, Heat-resistant Metal Replacement Parts Excellent strength to weight ratio – 110 MPa TS – for lightweighting applications such as robotic end effectors. Engineering-grade stiffness with high heat resistance under load for parts that perform. Composites ranging from Nylon 12 Carbon Fiber to ABS Kevlar give you flexibility on your project and rigidness in your part. Print Metals, Composites, and Polymers and infinite 3rd party options with 6-in-1 Modular Performance Extruders for METHOD X. Import Your Complex Designs, Hit Print in Carbon Fiber. Design in your favorite CAD software, then prep, print, and monitor remotely from CloudPrint™. Quickly change from production composites to modeling materials with the hands-free SmartAssist™ Material Loading System. Spring Steel Build Plate is durable enough to withstand thousands of prints in abrasive composites and the print pops off cleanly with a simple flex. Circulating Heated Chamber Many desktop 3D printers use heated build plates to try and regulate their environment and prevent warping on the print bed. This improves adhesion to the build plate for the first layer and… that’s about it. METHOD uses the patented Circulating Heated Chamber to rapidly warm the entire build chamber up to 110°C providing optimal print conditions from first layer to last. The result is a degree of dimensional accuracy typically reserved for industrial 3D printers (±0.007 in), at the base layer and everywhere else. Smart Assist Material Loading Material loading on 3D printers can be a pain. METHOD’s material loading system is designed to take complexity and frustration out of the equation. Just drop the Smart Spool into the Dry Sealed Material Bays located on the front of the printer, and feed the filament tip into the slot, close the drawer and the printer loads the filament all the way up and into the extruders so that it’s ready to print. Magnetic Spring Steel Build Plate on Machined Aluminum Base The build surface is another crucial element in FDM 3D printing. Whether you’re printing in ABS, Nylon, or just PLA, an uneven surface can lead to a warped print. METHOD combines two elements to create a unique solution. First is an aluminum base plate, machined and factory-calibrated for extreme flatness. Second is a spring steel build plate that magnetically conforms to the base plate via a dozen high-strength magnets. This not only provides flatness, but also makes print removal a breeze. Just pick up the build plate and flex it to pop the print off. Dual Performance Extruders When it comes to FDM 3D printing, the toolhead or extruder is one of the most important features. Based on an industrial-grade design from Stratasys, METHOD’s extruder was designed from the ground up with the professional in mind. With an all new lengthened thermal core, dual drive gears with 19:1 gear ratio of torque, and MakerBot’s industry-leading intelligent sensor suite, METHOD comes with significantly improved print quality and speed. Tech Specs Heated Chamber Temperature:110° C Maximum Temperature Build Volume:Dual extrusion: 15.2 L x 19 W x 19.6 H cm / 6.0 x 7.5 x 7.75 inSingle extrusion: 19 L x 19 W x 19.6 H cm / 7.5 x 7.5 x 7.75 in Overall Dimensions:41.3 L x 43.7 w x 64.9 H cm Features Dual performance extruders Dry-sealed material bays 100°C circulated heated build chamber Wifi Connectivity and 21 on-board sensors Remote monitoring and printing 25 Compatible CAD file types 5" Full-color capacitive touch screen Over 300,000 hours of reliability testing What's Included: 1x MakerBot METHOD X 3D Printer 1x Spring Steel Build Plate 1x Composite Extruder 1x Performance Extruder 2XA Support 1x Performance Extruder 2 Support 1x Nozzle Brush 1x Hex Key 1x USB A-to-B Cable 1x US Power Cord 1x EU Power Cord Please note: MakerBot materials sold separately. Specs Data sheet Click HERE Construction an Technical Details   Usable Filament Diameter 1.75 mm Extruder Type Direct drive Build Area 190 mm x 190 mm x 196 mm Dual Build Area 190 mm x 152 mm x 190 mm Build Plate Surface carbon fiber sheet, removable Build Plate Material Flexible Steel Plate Build Chamber During Process Closed Build Chamber Heated Yes, max 110°C Filament Chamber Closed Yes Extruder Number Of 2 Extruder Construction Type Dual Dual-head with electronic lifting system Installation Space / Requirements   Total Mass Overall Dimensions 413 mm x 437 mm x 649 mm Total Weight 29.5 kg Max Power Consumption 800 W Voltage AC: V Equipment   Touch Screen Yes Connection   USB Port Yes Ethernet Port Yes WLAN Yes Cloud Control Yes