PlumX Metrics
Embed PlumX Metrics

Correction: AM Bench 2022 Macroscale Tensile Challenge at Different Orientations (CHAL-AMB2022-04-MaTTO) and Summary of Predictions(Integrating Materials and Manufacturing Innovation, 10.1007/s40192-023-00333-3)

Integrating Materials and Manufacturing Innovation, ISSN: 2193-9772, Vol: 13, Issue: 1, Page: 360-361
2024
  • 0
    Citations
  • 0
    Usage
  • 0
    Captures
  • 0
    Mentions
  • 0
    Social Media
Metric Options:   Counts1 Year3 Year

Correction Description

Correction to: Integrating Materials and Manufacturing Innovation: https://doi.org/10.1007/s40192-023-00333-3 The authors have discovered an error in Table 1 of the above in-print article, titled “AM Bench 2022 Macroscale Tensile Challenge at Different Orientations (CHALAMB2022-04-MaTTO) and Summary of Predictions” [1]. Regrettably, Table 1 in the original article describes the chemical compositions of the powder feedstock and solid material for a different build of nickel alloy IN625 parts, used elsewhere in the 2022 NIST Additive Manufacturing Benchmarks. While minor differences technically exist, it is worth emphasizing that both powder lots and builds of IN625 are within specification of ASTM B564-22 As stated in the original article [1], the IN625 build plate used for this benchmarking challenge was named AMB2022-625-CBM-B2. The corrected chemical composition of the powder feedstock used for this additively manufactured build plate, as well as the chemical composition of the solid material (after manufacturing), are provided below in Table 1. (Table presented.) Elemental composition of powder feedstock and solid material for build plate, AMB2022-625-CBM-B2 Element Standard Powder Solid Ni 58.0 Min Cr 20.0—23.0 20.86 20 Fe 5.0 0.62 0.8 Mo 8.0—10.0 9.03 8.8 Nb 3.15—4.15 3.95 3.8 Co – 0.17 n/a Ti 0.4 0.35 0.37 Al 0.4 0.31 0.32 Si 0.5 0.07 0.1 Mn 0.5 0.04 0.05 P 0.015 < 0.01 0.006 Ta – < 0.01 n/a C 0.1 0.01 0.01 S 0.015 < 0.005 < 0.001 O n/a 0.022 n/a N n/a 0.008 0.0001 All composition measurements are in mass percent. Standard composition is defined by ASTM B564-22, UNS N06625 [2] (maximum values, unless a range is provided or minimum is noted)

Bibliographic Details

Newell Moser; Jake Benzing; Orion L. Kafka; Nicholas Derimow; Ross Rentz; Nikolas Hrabe; Jordan Weaver

Springer Science and Business Media LLC

Materials Science; Engineering

Provide Feedback

Have ideas for a new metric? Would you like to see something else here?Let us know