Article: Metrology for additive manufacturing (3D printing) technologies Journal: International Journal of Additive and Subtractive Materials Manufacturing (IJASMM) 2018 Vol.2 No.1 pp.74 - 95 Abstract: The findings presented in this paper stem from the survey of unclassified literature on additive manufacturing (AM)/3D printing technologies and their metrology (science of measurements). AM technologies allow engineers to design and build parts more freely than ever before. They also help to make production more distributed and eliminate obsolescence. This paper introduces different types of AM, as well as metrology challenges that NSWC Corona, the leading agency for the US Navy's Metrology and Calibration (METCAL) program, needs to address. It discusses potential uses, process limitations and metrology related to three popular categories of AM technologies; material extrusion (e.g., fused deposition modelling), powder bed fusion (e.g., selective laser melting) and directed energy deposition (e.g., laser-engineered net shaping). Powder bed fusion and directed energy deposition have proved capable of firearm and aerospace-grade manufacturing. AM technologies demonstrate huge promise and may revolutionise design, manufacturing, logistics, maintenance and acquisition in the Navy. However, there are still multiple hurdles to overcome before AM becomes an effective component in the military toolset. As AM continues to advance, the only way to ensure these new technologies fit as reliable pieces of the warfighter arsenal is to prioritise the development of corresponding measurement techniques and calibration schedules. Inderscience Publishers - linking academia, business and industry through research

Title: Metrology for additive manufacturing (3D printing) technologies

Authors: Tyler Musgraves; Hitesh D. Vora; Subrata Sanyal

Addresses: Space and Naval Warfare (SPAWAR) Systems Center Pacific, SSC Pacific, 53560 Hull Street San Diego, CA 92152, USA ' Mechanical Engineering Technology, Division of Engineering Technology, College of Engineering, Architecture and Technology, Oklahoma State University, 559 Engineering North, Stillwater, OK 74078, USA ' Measurement Science and Engineering Department, Naval Surface Warfare Center, Corona Division (NSWC Corona), MS35, P.O. Box 5000, Corona, CA 92878, USA

Abstract: The findings presented in this paper stem from the survey of unclassified literature on additive manufacturing (AM)/3D printing technologies and their metrology (science of measurements). AM technologies allow engineers to design and build parts more freely than ever before. They also help to make production more distributed and eliminate obsolescence. This paper introduces different types of AM, as well as metrology challenges that NSWC Corona, the leading agency for the US Navy's Metrology and Calibration (METCAL) program, needs to address. It discusses potential uses, process limitations and metrology related to three popular categories of AM technologies; material extrusion (e.g., fused deposition modelling), powder bed fusion (e.g., selective laser melting) and directed energy deposition (e.g., laser-engineered net shaping). Powder bed fusion and directed energy deposition have proved capable of firearm and aerospace-grade manufacturing. AM technologies demonstrate huge promise and may revolutionise design, manufacturing, logistics, maintenance and acquisition in the Navy. However, there are still multiple hurdles to overcome before AM becomes an effective component in the military toolset. As AM continues to advance, the only way to ensure these new technologies fit as reliable pieces of the warfighter arsenal is to prioritise the development of corresponding measurement techniques and calibration schedules.

Keywords: metrology; additive manufacturing; 3D printing; calibration.

DOI: 10.1504/IJASMM.2018.093323

International Journal of Additive and Subtractive Materials Manufacturing, 2018 Vol.2 No.1, pp.74 - 95

Received: 09 Dec 2017
Accepted: 02 Apr 2018
Published online: 24 Jul 2018 *

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Title: Metrology for additive manufacturing (3D printing) technologies

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