MakerBot workstation is a universal leader in the industry of 3D printing. It started the METHOD X.

There is an industrial workstation planned to encounter the traditional work with ABS. It is a 100°C compartment, and a Stratasys SR-30. They also maintain delivery of the dimensional precision and accuracy for the durable and complex parts.

METHOD X is printing with ABS that can bear up to 15°C increased temperatures. It is up to 12 per cent stronger and also 26 per cent more rigid as compared to ABS formulations. Usually, these formulations utilised on the desktop 3D printer present challenges. ABS components printed on METHOD X do not crack or warp. Both take place while printing of modified ABS on the desktop. There are no heat chambers in the MakerBot workstation.

Desktop 3D Printers

The makers of the desktop 3D printer try to get around the changing that takes place. Due to the increased rate of contraction of the material, it uses a heated build plate. This includes a combination of different forms of ABS. They are easy to print but compromises the mechanicals as well as thermal properties.

MakerBot workstation Precision ABS consists of a heat deflection temperature. It has an increased temperature of up to 15°C as compared to the ABS competitors. With METHOD X, there is a heated chamber with a temperature of 100°C. It decreases the part bending in addition to increasing the surface finish and its durability. The METHOD X of MakerBot workstation includes the technologies from Stratasys. It involves industry knowledge with the ease of use and access to MakerBot.

MakerBot ABS for METHOD

MakerBot workstation ABS, for METHOD, has different properties. They include mechanical and thermal aspects of ABS materials. It’s utilised for various applications of injection moulding. Therefore, it makes it appropriate for a diversity of forms. It consists of functional prototypes, making tools, and end-use parts.

The heated chamber has 100°C. Usually, it offers a stable print setting for the high bonding of Z-layers. It results in parts having increased strength with the best surface finish. With the METHOD X of MakerBot, the engineers can create, examine and make the model. They are involved in customising the components. The parts are included with the making of durable grade ABS.

MakerBot Workstation METHOD X

With the MakerBot workstation METHOD X, engineers can design, test, as well as produce models. Also, they can produce custom end-user parts with durable, high-grade ABS. The engineers can print steady and repeatable components. It includes the end-effectors, fixtures, and jigs. All have a dimensional accuracy of ± 0.007 inches (± 0.2 mm). The build size is 7.75 x 7.5 x 6 inch.

The METHOD X can be used with the Specialty Materials and lines of Precision of the MakerBot workstation. It includes SR-30, MakerBot ABS, MakerBot PVA, and MakerBot PETG. Also, included is MakerBot TOUGH, MakerBot PLA, and many more to come.

The METHOD X of MakerBot workstation utilises 21 onboard sensors for managing and monitoring a build. Also, it includes material detection, humidity control, sensing temperature, and many more. MakerBot has examined the platform of METHOD. It has almost 300,000 hours of system subsystem, and it can also test print quality.