An industrial 3D printer that achieves both aluminum-equivalent strength and weight reduction through overwhelming strength and precision with its unique carbon fiber composite materials.
The resin parts reinforced with long fiber materials such as continuous carbon fiber overturn the conventional wisdom of 3D printers, achieving strength comparable to 6061 T6 aluminum. The standard material, Onyx, is 20% stronger and 40% more robust than ABS. It has high heat resistance (heat distortion temperature = 145°C) and chemical resistance, and due to minimal shrinkage, it also reduces warping, which is common in 3D printing. Additionally, the built-in laser in the print head allows for measuring the parts during printing with an accuracy of 1 micron, enabling verification of dimensional intersections (internal measurements of the parts).
Inquire About This Product
basic information
● Large size and high resolution: The build volume of the X7 is large, making it suitable for the robotics and automotive industries, functional prototypes, and the creation of prosthetic devices. With a layer pitch of 50μm, it produces parts with a beautiful surface finish and a texture approaching that of injection molding. Width: 330mm, Depth: 250mm, Height: 200mm Minimum layer pitch: 50μm ● Parallel inspection during printing: By using a built-in laser to scan parts during printing with an accuracy of 1 micron, it is possible to verify dimensional accuracy. ● High precision: It can achieve the desired precision and allowable tolerances, making it suitable not only for prototypes and jigs but also for final products. ● Wide range of materials supported: It supports three types of basic materials (including flame-retardant materials) and four types of reinforced fibers. Parts can be produced in various combinations to suit different applications.
Price range
P6
Delivery Time
P4
※Please consult us regarding the specific delivery date.
Applications/Examples of results
Main Uses - Jigs/fixtures/tools for production in general - Prototypes for functional testing requiring strength and precision - Chucks and jaws - Housings and attachments for robots and multirotors - Molds for pressing and other forming processes - Prototyping and custom manufacturing of medical devices and prosthetics - Other practical parts and custom parts in small quantities
Detailed information
-
Tool and chuck for processing machines made with composite materials.
-
Carbon composite parts sample achieves a smooth surface quality.
-
By embedding long fiber carbon fibers into a base material called Onyx, we can achieve overwhelming strength. It's similar to the image of rebar in reinforced concrete.
-
Using raw claws or chucks for delivery robots allows for weight reduction while maintaining strength. This greatly enhances portability.
-
The parts of the X7 have high strength and precision, so they are also used as substitutes for press molds. Their high durability of over 10,000 shots has also been proven.
-
By incorporating a highly customizable robotic hand and applying DfAM (Design for Additive Manufacturing) for shape optimization, further weight reduction can be achieved.
-
From the drone's product casing to its components, many manufacturers are operating multiple units. This is solely because we can achieve high precision and high-strength printing. We have transitioned everything that was previously outsourced to in-house production, resulting in a significant cost reduction. Lead times have also been greatly shortened.
catalog(6)
Download All Catalogs
![[Article] An Innovative 3D Printer Using Unique Technology that Strongly Assists in Transforming Manufacturing Sites](https://image.mono.ipros.com/public/catalog/image/01/919/554831/IPROS50945904974969536575.jpeg?w=120&h=170)
![[Case Study] Educational Users and the Additive Manufacturing Innovation Center](https://image.mono.ipros.com/public/catalog/image/01/c05/566125/IPROS62159480151299044863.jpeg?w=120&h=170)
![[Educational Case] The Role of 3D Printing in Digital Manufacturing and STEM Education](https://image.mono.ipros.com/public/catalog/image/01/24e/620257/IPROS23791030418644736707.jpeg?w=120&h=170)
News about this product(3)
Company information
Markforged (NYSE: MKFG), listed on the New York Stock Exchange, enhances resilience and flexibility in manufacturing by providing industrial production on demand, whenever and wherever needed. With a reliable, intelligent, and user-friendly integrated AM software platform for 3D printing, it enables manufacturers to produce durable final parts made from metal and resin composites, facilitating "distributed manufacturing" anytime and anywhere. In over 70 countries worldwide, including Japan, more than 10,000 customers are using our AM software platform to strengthen their supply chains while overcoming the limitations of traditional manufacturing. Markforged is headquartered in Waltham, Massachusetts, and designs and develops the AM hardware, software, and materials that support its platform. Founded in 2013 by Greg Mark, the company established its Japanese and European subsidiaries in 2019 and went public on the NYSE in 2021. In 2022, it acquired Teton Simulation and Digital Metal.