Soft Jaws 3D Printed
Robotic End-of-Arm Tooling 3D Printed
Extension of Haas Chip Auger 3D Printed

Markforged Industrial Metal 3D Printer

LET US SHOW YOU WHAT IS POSSIBLE

Phillips Federal has partnered with Markforged to bring their innovative portfolio of additive technologies to the field paired with Phillips Federal’s trusted service and expertise.

Phillips Federal offers the complete Markforged Digital Forge Platform, including a suite of industry-leading 3D printers, industrial-grade 3D printing materials (metals, composites, and continuous fibers), and enterprise software designed to streamline your workflow and productivity. 

With its ability to perform rapid prototyping, print soft jaws and produce functional parts from a variety of materials, the Digital Forge is an ideal companion to your Haas machines.

 

The Power of
3D Printing

Siemens Manufacturing
Innovation

3D Printing
Soft Jaws

Advantages

Introducing

The Digital Forge

The full-service platform developed to take you from design to part at the speed of software.

Markforged 3D Printers

Metal X​

The most accessible way to fabricate complex metal parts in the widest variety of advanced metals.​

FX20

Engineered to deliver maximum strength, accuracy, and consistency.

X7

The only way to get industrial-grade parts in hand in hours.

Onyx Pro

The workhorse professional 3D printer for Continuous Fiberglass Reinforced parts.

Mark Two

The only way to make aluminum-strength parts on your desktop.

Markforged Materials

17-4 PH Stainless Steel

Reduce lead times for metal tools, fixtures, and prototypes.

Onyx

Micro carbon fiber filled nylon that forms the foundation of Markforged composite parts.

Carbon Fiber

The backbone of aluminum-strength composite parts.

Enterprise Software

Eiger

Dynamic additive manufacturing software that enables you to 3D print any part on-demand at the point of need.

Blacksmith

Blacksmith makes manufacturing machines 'aware' by connecting machines that make parts and inspection equipment.

Markforged
University

Markforged University is a multi-day certification program for engineers and managers that accelerates mastery of Markforged Composite and Metal 3D printing technology, enabling companies to realize the full potential of their investment and ensure successful adoption. Realize the full potential of your technology investment by scaling AM mastery across your organization and maximize your machines impact by learning to identify the best problems to solve with additive manufacturing.

Learn from the industry’s experts how to get the most value out of your Markforged machine by attending the certification program online, on-premises or at the Markforged headquarters in Watertown, MA.

{ "@context": "https://schema.org", "@type": "VideoObject", "name": "Siemens Energy Innovation Center | 3D Printing for Production", "description": "The Siemens Innovation Center is a one-of-a-kind facility which offers a unique pairing of design with manufacturing, implementing robotics, rapid prototyping, scanning, digital tools, and on-site metal additive manufacturing. It was opened by Siemens Energy to provide rapid problem-solving in support of its energy operations. Engineers at the Siemens Innovation Center were tasked to improve turbine maintenance by reducing off-site repairs and costly downtime. The team designed and 3D printed a circular saw-inspired cutback tool using their fleet of Markforged X7 printers within 4 weeks. When they realized that the Markforged carbon fiber material was actually robust enough to withstand field use, they started to put the tool into production. Learn how the Markforged platform enabled Siemens Energy Innovation Center to provide a more robust customer solution while staying on the forefront of a competitive industry. “Rapidly iterating with Markforged 3D printers has revolutionized the way we look at tooling. The Markforged platform gives us the ability to produce powerful, durable tools.” — Trent Almond, Mechanical Engineer, Siemens To learn more about the Markforged Industrial Series, visit: http://bit.ly/3CqRWkU", "thumbnailUrl": "https://i.ytimg.com/vi/70njtcA6un0/hqdefault.jpg", "uploadDate": "2020-06-09", "duration": "PT2M43S", "contentUrl": "https://www.youtube.com/watch?v=70njtcA6un0", "embedUrl": "https://www.youtube.com/embed/70njtcA6un0", "potentialAction": { "@type": "SeekToAction", "target": "https://phillipscorp.com/federal/markforged/={seek_to_second_number}", "startOffset-input": "required name=seek_to_second_number" } } { "@context": "https://schema.org", "@type": "VideoObject", "name": "Benefits of 3D Printing Soft Jaws | Markforged 3D Printing Applications", "description": "In this video series we breakdown a range of 3D printing applications. In this video, we will go into a little more detail about how you can use 3D printing for soft jaws. With sky-high demand for capable machinists, anything that reduces work required to complete a job adds massive value to any fabrication operation. 3D printing soft jaws solves many of the bandwidth issues that make them an inconvenient machining option. They’re easy to design, as all a user has to do is CAD a jaw blank and subtract their part from the blank. Markforged’s continuous composite technology adds the necessary reinforcement to survive vice clamping forces while also providing a conformal, non-marring grip surface. Check out the rest of the series. Inspection Fixtures: https://youtu.be/YnXUPxi_hCs Welding Fixtures: https://youtu.be/O9fSusreWiY End Effectors: https://youtu.be/UEYkJ15d5oM Our Website: https://www.markforged.com Twitter: https://www.twitter.com/markforged Instagram: https://www.instagram.com/markforged Facebook: https://www.facebook.com/markforged LinkedIn: https://www.linkedin.com/company/mark... Key moments", "thumbnailUrl": "https://i.ytimg.com/vi/J7JuCmmwGNI/hqdefault.jpg", "uploadDate": "2018-09-28", "duration": "PT1M59S", "contentUrl": "https://www.youtube.com/watch?v=J7JuCmmwGNI", "embedUrl": "https://www.youtube.com/embed/J7JuCmmwGNI", "potentialAction": { "@type": "SeekToAction", "target": "https://phillipscorp.com/federal/markforged/={seek_to_second_number}", "startOffset-input": "required name=seek_to_second_number" } } { "@context": "https://schema.org", "@type": "VideoObject", "name": "What is 3D Printing?", "description": "What is 3D printing? Have you heard about 3D printing but aren't sure where to start? In this video, we cover the basics of printing: how it started, where it's at now, and what you can use it for. 3D printing is a subset of additive manufacturing. Additive manufacturing is where a part is made by adding material, whereas the subtractive manufacturing process is where a part is made by subtracting material. In 3D printing, a 3D printer makes a three-dimensional object from a CAD (computer-aided design) file. There are a variety of materials and 3d printing technologies available, making it easier than ever to create parts for all sorts of industries. While 3D printing has often been linked to toys and hobbyist items, they are more than capable of producing parts that can withstand a multitude of heavy duty environments. You can find 3D printed parts being used in industries such as manufacturing, energy, and automotive. From functional prototypes, tools and fixtures to end-user parts, the 3D printing industry is revolutionizing several other industries and processes. Both metal and composite Markforged 3D printers utilize processes based on Fused Filament Fabrication (FFF, also known as FDM). FFF 3D printing is comprised of three relatively simple components: - 3D printing software: 3D printing relies on a fully-automated software system that controls everything from gantry position to material deposition. These systems vary significantly, but all have the same core elements. - 3D printing materials: Material selection dictates both the mechanical properties of the final part and the specifics of the printing process required to fabricate it. Application constraints come first when selecting a material—however, fabrication constraints can equally make or break your part. As is true in subtractive manufacturing, some materials are easier to print than others. - 3D printing process: Dictated by software, this is the physical process by which FFF 3D printers deposit material layer-by-layer in the shape of a part. The specifics of this process impact part quality, precision, and print time. Visit our free educational library to learn more: http://bit.ly/3IudGjx", "thumbnailUrl": "https://i.ytimg.com/vi/biWEb8u1JYM/hqdefault.jpg", "uploadDate": "2019-04-02", "duration": "PT3M34S", "contentUrl": "https://www.youtube.com/watch?v=biWEb8u1JYM", "embedUrl": "https://www.youtube.com/embed/biWEb8u1JYM", "potentialAction": { "@type": "SeekToAction", "target": "https://phillipscorp.com/federal/markforged/={seek_to_second_number}", "startOffset-input": "required name=seek_to_second_number" } }

Let Us Show You What is
Possible with Markforged

Markforged logo

Request Info On Training

Request an Additive Quote

Request a CNC Quote

Request a Service Quote

Magics Training Courses

Request a Training Quote

Service

+1 610-745-2101

Tech Support

+1 410-564-2909