National Additive Manufacturing Innovation Institute – Smart Collaboration: Leveraging a Rich Knowledge Base to Gain a Competitive Advantage in the Additive Manufacturing Industry: AMSC Overview John Wilczynski Director of Technology NCDMM, America September 7, 2017
2 America Makes… A neutral coordinator of additive manufacturing and 3D printing stakeholders, a catalyst for activating technical information and workforce data through high-value, challenging and high-impact collaborative projects.
National Additive Manufacturing Innovation Institute
4 The Technology Mole Map America created the Additive Manufacturing Technology Mole Map to identify the quantifiable and important challenges driving manufacturing research, knowledge sharing and technological advancement in the industry. To create this “mole map”, America organizes workshops and events involving different methodologies to create and categorize personal needs. Working as a team, they have expressed hundreds of requirements and identified relationships between them that have become a set of design concepts.
Dod Drives Transformation With New Am Policy
Develop and disseminate a comprehensive set of consensus-based standards and protocols for additive manufacturing. Terminology, design, data format, materials, processes, test methods, etc. development of standards related to raw materials, processing/equipment, finished parts and AME integration/compatibility standards and protocols can be further developed according to specific materials. special needs, special needs processing and/or special needs use. Areas of focus for this technology area include NIST Measurement Science for additive manufacturing initiatives, standards/schema/protocol development, coordination with the work of standards development organizations, etc. related open production initiatives.
The AMSC Charter does not include standards or specifications to coordinate and accelerate the development of production standards and specifications that meet the needs of stakeholders and thereby facilitate the development of the additive manufacturing industry; rather, the hope is to facilitate coordinated activities among SDOs
Objectives for Phase 7 Discuss the needs of other industries (e.g. automotive/heavy equipment, energy, industrial and commercial equipment) Expand the discussion of other materials (e.g. polymers) Identify potential gaps Print expected dates Identified gaps provide updates on the Plan Version 2.0 Direction in late June 2018
We log and share user data with processors to operate this website. To use this website, you must accept our Privacy Policy, including our Cookie Policy. This plastic model of the post office in Charleston, West Virginia was 3D printed and exhibited at America Makes, the National Additive Manufacturing Innovation Institute in Youngstown, Ohio. , March 5, 2014. On the banks of the Mahoning River in the Ohio steel town of Youngstown is an abandoned furniture warehouse that has been transformed into a new workshop. Inside, it’s a Silicon Valley-style workspace complete with open meeting spaces and colorful chairs. In the background, some 3D printers write computer code that tells the machine how to make them
Will Government Aid Really Boost Us Additive Manufacturing?
This plastic model of a post office in Charleston, West Virginia was 3D printed and displayed at America Makes, the National Additive Manufacturing Innovation Institute in Youngstown, Ohio on March 5, 2014. Steel City Youngstown is located in an abandoned furniture warehouse. which has been converted into a new workshop. Inside, it’s a Silicon Valley-style workspace complete with open meeting spaces and colorful chairs. Some 3D printers work in the background while engineers write computer code that tells them how to create objects by layering materials. Photo taken on March 5, 2014.
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Additive manufacturing leads to significant changes in the production of parts. By cutting or shaping traditional manufacturing materials, digital design in additive manufacturing enables the creation of complex three-dimensional products built in layers.
As the field matures, making it more of an art than a science will be key to expanding its use by industry. This shift depends on metrics and eventually standards. It drives this change with US industry through its core functions of measurement science research and standards development.
Global Aerospace Additive Manufacturing Market To Reach $1.9 Billion By 2026
The Engineering Laboratory’s Measurement Science for Additive Manufacturing (MSAM) program examines barriers to adopting additive manufacturing, including surface quality, part accuracy, production speed, material properties and computational requirements. To mitigate these challenges, the program focuses on material characterization, real-time monitoring of additive manufacturing processes, manufacturing methodologies and system integration.
The Materials Measurement Laboratory investigates problems related to additive manufacturing for metals and polymers. Ongoing projects include fracture and fatigue properties of additive manufacturing materials, nanomechanical properties of surfaces and defects of these materials, modeling the evolution of microstructures and studying the relationship between raw materials and final product quality.
The Physical Measurement Laboratory studies improved methods for real-time temperature measurement to support better understanding and modeling of the emissive properties of materials in solid, powder and liquid states and in additive manufacturing processes.
High-level overview of the structure of the Additive Manufacturing Measurement Science program and the Engineering Laboratory Additive Manufacturing program.
Manufacturing Innovation Institutes: Putting America At The Forefront Of 21st Century Manufacturing
The ICME (Integrated Computational Materials Engineering) approach is used to link experimental and computational models over time and duration.
This project aims to enable the use of metal additive manufacturing (AM) in fatigue and fracture critical applications through two main approaches.
Additive manufacturing (AM), the layer-by-layer construction of 3D objects from metals, polymers or biological materials, offers enormous potential.
Critical components for defense, aerospace and medical applications must be formally qualified before use. A comprehensive empirical test is underway
The National Security Implications Of Additive Manufacturing
Today there is great interest in using additively manufactured parts in high performance applications. However, because it is not available to the public
With an electron microscope at his side, an NRC postdoctoral fellow created such scans for 3D-printed cubes made of various metal alloys. The cubes come from a process known as additive manufacturing, each creating a 3D shape from fine metal powders fused together by a laser or electron beam. Engineers want to control and understand as much of the additive manufacturing process as possible so they can handle the real-world stresses their products have to endure.
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The president wants you to learn about the National Additive Manufacturing Innovation Institute in Youngstown, Ohio, and its plans for the future of printing.
America Makes Celebrates 10 Years
Contributing editor Eric Mack covers all things space, science, climate change and the future. Encrypted email for tips: ericcmack@protonmail.com.
A little over a year ago, 3D printing was a ridiculous new technology that you could find at CES in a mid-sized booth in the basement of the Las Vegas Convention Center. Tonight, President Obama mentioned the likes of Apple and Intel in his State of the Union address as he talked about ways to create new jobs and industries in the United States. Here is an excerpt of the transcript:
After more than 10 years of layoffs, our manufacturers have added nearly 500,000 jobs in the past three years. Caterpillar brings jobs back from Japan. Ford brought jobs back from Mexico. After locating factories in other countries such as China, Intel opened its state-of-the-art factory here at home. This year, Apple will start making Macs in America again. There are things we can do now to accelerate this trend. Last year, we launched our first Manufacturing Innovation Institute in Youngstown, Ohio. What was once a closed warehouse is now a state-of-the-art lab, where new employees are mastering 3D printing, which has the potential to change the way we make almost everything. There is no reason this cannot happen in other cities.
The idea that Stanstown, Ohio is at the center of the 3D printing revolution may come as news to many who haven’t heard of the National Additive Manufacturing Innovation Institute, which the president referred to. Additive manufacturing is the industry term for 3D printing and NAMII, as it is known, has gathered some important research in recent years to become a hub to push 3D printing beyond the field of chess to create a series of themed chess sets.
This Plastic Model Of The Charleston, West Virginia Post Office, Was 3d Printed And Is On Display At America Makes, The National Additive Manufacturing Innovation Institute In Youngstown, Ohio, March 5, 2014
The Department of Defense has committed $30 million to help roll out NAMII, which will match a consortium of major companies, universities and nonprofits including Boeing, IBM and Carnegie Mellon University. NASA (already a big fan of 3D printing), the National Science Foundation and other big funders are also expected to contribute several million.
NAMII was only officially established in August 2012 and the institute had an early deadline for project proposals.
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