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Structure/property (constitutive and spallation response) of additively manufactured 316L stainless steel

Journal Article · · Acta Materialia
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  1. Los Alamos National Lab. (LANL), Los Alamos, NM (United States)
  2. Washington State Univ., Pullman, WA (United States). Inst. for Shock Physics
+ Show Author Affiliations
For additive manufacturing (AM) of metallic materials, the certification and qualification paradigm needs to evolve as there is currently no broadly accepted “ASTM- or DIN-type” additive manufacturing certification process or AM-produced material specifications. Accordingly, design, manufacture, and subsequent implementation and insertion of AM materials to meet engineering applications requires detailed quantification of the constitutive (strength and damage) properties of these evolving materials, across the spectrum of metallic AM methods, in comparison/contrast to conventionally-manufactured metals and alloys. For this paper, cylindrical samples of 316L SS were produced using a LENS MR-7 laser additive manufacturing system from Optomec (Albuquerque, NM) equipped with a 1 kW Yb-fiber laser. The microstructure of the AM-316L SS was characterized in both the “as-built” AM state and following a heat-treatment designed to obtain full recrystallization to facilitate comparison with annealed wrought 316L SS. The constitutive behavior as a function of strain rate and temperature was characterized and is compared to that of annealed wrought 316L SS plate material. The dynamic shock-loading-induced damage evolution and failure response of all three 316L SS materials was quantified using flyer-plate impact driven spallation experiments at peak stresses of 4.7 and 6.5 GPa. The spall strength of AM-produced 316L SS and the recrystallized-AM-316L SS were found to decrease with increasing peak shock stress while the annealed wrought 316L SS spall strength remained essentially constant. Finally, the damage evolution, characterized using optical metallography and electron-backscatter diffraction (EBSD), was found to vary significantly across the three 316L SS microstructures while the three samples loaded to a peak shock stress of 6.5 GPa displayed only ~12% differences in spall strength.
Research Organization:
Los Alamos National Lab. (LANL), Los Alamos, NM (United States)
Sponsoring Organization:
Dept. of Defense (DoD) (United States); USDOE National Nuclear Security Administration (NNSA)
Grant/Contract Number:
AC52-06NA25396
OSTI ID:
1463491
Alternate ID(s):
OSTI ID: 1549633
OSTI ID: 22695971
Report Number(s):
LA-UR--18-21099
Journal Information:
Acta Materialia, Journal Name: Acta Materialia Vol. 138; ISSN 1359-6454
Publisher:
ElsevierCopyright Statement
Country of Publication:
United States
Language:
English

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Anomalous Annealing Response of Directed Energy Deposited Type 304L Austenitic Stainless Steel journal January 2018
Microstructure and Corrosion Characteristics of Selective Laser-Melted 316L Stainless Steel: The Impact of Process-Induced Porosities journal July 2019
Spall fracture in additive manufactured tantalum journal December 2018
Printability of 316 stainless steel journal April 2019
Response of solidification cellular structures in additively manufactured 316 stainless steel to heavy ion irradiation: an in situ study journal April 2019
Influence of plasma sprayed zirconia coating on surface properties of additive manufactured austenitic stainless steel 316 L journal November 2019
Assumption of Constraining Force to Explain Distortion in Laser Additive Manufacturing journal November 2018
Microstructure, Solidification Texture, and Thermal Stability of 316 L Stainless Steel Manufactured by Laser Powder Bed Fusion journal August 2018
Printability of 316 stainless steel text January 2019

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Related Subjects

316L SS
36 MATERIALS SCIENCE
42 ENGINEERING
additive manufacturing
damage evolution
microstructure
spallation