Transformative Software Unleashes 3D Printing Industry

NEW YORK, March 25, 2020 — (PRNewswire) — The full promise of 3D metal printing is imminent as long-sought quality-control systems provide newfound ability to scale additive metal manufacturing.

From its inception by scientists at Los Alamos, Sigma Labs Inc. (NASDAQ: SGLB) ( SGLB Profile) has led the world in developing software that addresses serious quality-assurance issues in 3D metal printing. Now the company has moved from beta development and third-party validation to commercialization in an untapped $2 billion market as the only known provider of in-process, quality-assurance software to the commercial, 3D-metal-printing industry able to work across the majority of printers. Sigma Labs' commercial launch was recently announced in a joint sales agreement with Materialise N V (NASDAQ: MTLS), a giant in the 3D printing industry. Materialise has built a 30-year reputation in 3D printing on an open system that integrates with hardware and software vendors to provide needed tools in the additive-manufacturing space. 3D printing is an integral part of business at software behemoth Autodesk Inc. (NASDAQ: ADSK), which makes 3D software tools for almost every industry, encompassing rapid prototyping, industrial manufacturing, architecture and more. ANSYS Inc. (NASDAQ: ANSS), a leader in engineering software, offers a complete simulation workflow for additive manufacturing that allows the transition of R&D efforts for metal additive manufacturing into a successful manufacturing operation. HP Inc. (NYSE: HPQ), a recognized leader in the printing industry, now provides both 3D-metal-printing hardware and software with the introduction of its HP Metal Jet technology.

  • 3D printing is at the forefront of a $100 trillion digital transformation.
  • Sigma Labs provides solution to major obstacle preventing 3D metal printing from being fully utilized in manufacturing.
  • SGLB and Materialise integrate PrintRite3D quality-assurance software and begin commercialization.

To view an infographic of this editorial, click here.

A Global Transformation 

The world is entering what many have dubbed the fourth industrial revolution. This transformative period is being built upon the widespread availability of digital technologies that were the result of the third industrial, or digital, revolution. The fourth industrial revolution is being driven largely by the convergence of digital, biological and physical innovations, many of which are now occurring in additive manufacturing (AM).

The World Economic Forum estimates the value of this transformation at an eye-popping $100 trillion across all sectors in just the next 10 years. The manufacturing sector, a primary driver of prosperity and economic growth, is a key factor in this technological tsunami, and given its ability to entirely reshape the global manufacturing sector, additive manufacturing, or 3D printing, is at the forefront of this transformation.

"Emerging technologies such as AI, robotics and 3D printing are disrupting the manufacturing industry and unlocking new ideas and potential that were previously unimaginable," said Dion Weisler, president and CEO of HP Inc. during a recent World Economic Forum. "With this change comes opportunity. 3D printing, in particular, is at the forefront, given its ability to reshape the sector."

3D Dilemma

Despite the potential, a myriad of variables from machines to materials creates production challenges in additive manufacturing. Aerospace, defense, auto makers and biomedical have all embraced the potential of 3D metal printing but have been limited by the inability to completely understand and control the 3D-metal-printing process, which has led to excessive costs and inability to scale production.

One of the primary impediments preventing 3D metal printing from being fully embraced and displacing traditional manufacturing has been quality-control issues. Manufacturers can't be certain each newly formed metal part meets precise specifications in every layer of a 3D part and have been forced to rely on costly and time-consuming postproduction inspection techniques. The inability to know the quality of finished products until postproduction and the uncertainty of parts being produced with consistency has severely limited the widespread adoption of additive manufacturing. Due to these limitations, 3D metal printing has been mostly relegated to prototyping — until now.

Sigma Labs Inc. (NASDAQ: SGLB ) removes any uncertainty by providing quality assurance during the printing process rather than after, or post process. Sigma's PrintRite3D(TM) uniquely leverages thermal signatures to monitor the quality of each part in the production process, layer by layer and in real time, using artificial intelligence to predict flaws in the melt pool during production.

This approach allows machine operators to correct or stop production of a defective part, which results in reduced error rates and higher yields. The sector has been searching for proven tools and techniques to improve quality, cut costs and scale production. This incredibly sophisticated and powerful technology holds tremendous value for the 3D-metal-printing industry.

Changing the Landscape

"We may know the specifications of the raw materials used, but we still have limited knowledge of how those materials are changed through the AM processes," stated a recent Forbes article that featured Sigma Labs. The article further explained, "While legacy manufacturing techniques have decades, or even centuries, of scientific study into all the physical characteristics of what they produce, the new forming methods of AM have at best very incomplete data."

The advent of Sigma Labs' revolutionary PrintRite3D software changes the landscape, not only providing needed data but also delivering the ability to control the process to ensure the quality of each layer of every part during the additive manufacturing process. Sigma's technology is real-time metallurgy, providing assurances that the microstructure of the metal is precise and meets exacting specifications.

Using AI, Sigma's software can, over time, determine the signature of metal structural flows, monitoring for multiple variables such as proper laser sintering or warpage, thus providing manufacturers the quality assurance they need to scale production and fully commit to additive manufacturing.

"We provide quality assurance in-process rather than post-process," said Sigma Labs executive chairman Mark Ruport. "Think of it as akin to a CT scan of the part while it's being made."

Monumental Move to Commercialization

In an industry-first collaboration, Sigma Labs recently announced a joint sales agreement to commercialize SGLB's PrintRite3D technology, which has been integrated with the Materialise Control Platform. A recognized global leader in 3D printing software, Materialise provides the widely used Materialise Control Platform (MCP), an embedded hardware and software solution that provides better control over the AM process by giving full control to the end user. Sigma's software is the missing element, providing much-needed controls for quality assurance.

This joint agreement not only validates the efficacy of SGLB's quality assurance software, it also establishes commercial viability. "We're coming out of a long stretch of testing and validation," said SGLB president and CEO John Rice. "We've said that 2020 is the year when we finally take advantage of all that, and this announcement is a reflection of that."

The partnership with Materialise marks a noteworthy opportunity for Sigma Labs. Materialise incorporates three decades of 3D-printing experience into a range of software solutions and 3D printing services, which together form the backbone of the 3D-printing industry. Now that the two companies have achieved integration, they will offer a unique product solution for retrofit of existing machines, OEM machine integration and closed-loop control.

"Growing our partnership with Materialise is a significant milestone for Sigma Labs as we expand our footprint in the market and add momentum to our quest to broaden industry access to our groundbreaking PrintRite3D software," said Ruport. "The alignment is a natural step for both companies, as Materialise has a strong presence in the additive-manufacturing market and a reputation for quality products. Commercializing and jointly selling this integrated solution will benefit both companies as well as advance the forward momentum of innovation in the 3D manufacturing industry."

1 | 2 | 3  Next Page »
Featured Video
Jobs
Business Development Manager for Berntsen International, Inc. at Madison, Wisconsin
GIS Specialist for Washington State Department of Natural Resources at Olympia, Washington
Machine Learning Engineer 3D Geometry/ Multi-Modal for Autodesk at San Francisco, California
Equipment Engineer, Raxium for Google at Fremont, California
Senior Principal Mechanical Engineer for General Dynamics Mission Systems at Canonsburg, Pennsylvania
Mechanical Engineer 2 for Lam Research at Fremont, California
Upcoming Events
URISA GIS Leadership Academy at Embassy Suites Fort Worth Downtown 600 Commerce Street Fort Worth, TX - Nov 18 - 22, 2024



© 2024 Internet Business Systems, Inc.
670 Aberdeen Way, Milpitas, CA 95035
+1 (408) 882-6554 — Contact Us, or visit our other sites:
AECCafe - Architectural Design and Engineering EDACafe - Electronic Design Automation TechJobsCafe - Technical Jobs and Resumes  MCADCafe - Mechanical Design and Engineering ShareCG - Share Computer Graphic (CG) Animation, 3D Art and 3D Models
  Privacy PolicyAdvertise