Abstract

Small specimen test techniques are becoming ever more popular as the need increases to characterize mechanical properties by the use of the smallest possible amount of material, because of various restrictions on material availability, irradiation, testing space, and other factors. The National Institute of Standards and Technology (NIST) is currently developing certified miniaturized Charpy V-notch (MCVN) specimens for the indirect verification of small-scale impact testing machines. The same materials used for NIST standard verification specimens are being evaluated at three energy levels (low, high, and super-high). Two specimen types are being investigated, denominated KLST (from the German Kleinstprobe, or “small specimen”) and RHS (reduced half-size). Several instrumented impact tests on miniaturized KLST and RHS specimens of low, high, and super-high energy have been performed and analyzed. The variability of MCVN data has been compared to that of full-size Charpy data from the same lots of test specimens. Although this can be considered as just the preliminary phase of this project, the results indicate that MCVN verification specimens can be used for the indirect verification of small-scale instrumented impact testers, both in terms of absorbed energy and maximum force.

Issue Section:
Research Papers
Keywords:
indirect verification, KLST, MCVN, miniaturized Charpy specimens, RHS, small specimens, small-scale impact tester

References

1.
Driscoll
,
D. E.
, “
Reproducibility of Charpy Impact Test
,”
Symposium on Impact Testing, ASTM STP 176
,
F. G.
Tatnall
, Ed.,
ASTM International
,
West Conshohocken, PA
,
1955
, pp.
70
75
.
Google Scholar
Crossref
Search ADS
 
2.
Siewert
,
T. A.
,
Manahan
,
M. P.
,
McCowan
,
C. N.
,
Holt
,
J. M.
,
Marsh
,
F. J.
, and
Ruth
,
E. A.
, “
The History and Importance of Impact Testing
,”
Pendulum Impact Testing: A Century of Progress, ASTM STP 1380
,
T. A.
Siewert
 and
M. P.
Manahan
, Sr., Eds.,
ASTM International
,
West Conshohocken, PA
,
1999
, pp.
3
16
.
Google Scholar
Crossref
Search ADS
 
3.
McCowan
,
C. N.
,
Siewert
,
T. A.
, and
Vigliotti
,
D. P.
, “
Charpy Verification Program: Reports Covering 1989–2002
,”
NIST Technical Note 1500-9
,
National Institute of Standards and Technology
,
Gaithersburg, MD
,
2003
.
4.
Lucon
,
E.
,
Chaouadi
,
R.
,
Fabry
,
A.
,
Puzzolante
,
J.-L.
, and
van Walle
,
E.
, “
Characterization of Materials Properties by Use of Full Size and Subsize Charpy Tests: An Overview of Different Correlation Procedures
,”
Pendulum Impact Testing: A Century of Progress, ASTM STP 1380
,
T. A.
Siewert
, Ed.,
ASTM
,
West Conshohocken, PA
,
2000
, pp.
146
163
.
5.
ISO 14556,
2000
, “
Steel–Charpy V-Notch Pendulum Impact Test–Instrumented Test Method
,”
International Organization for Standardization
,
New York
.
6.
Manahan
,
M. P.
 and
Charles
,
C.
, “
A Generalized Methodology for Obtaining Quantitative Charpy Data from Test Specimens of Nonstandard Dimensions
,”
Nucl. Technol.
, Vol.
90
,
1990
, pp.
245
259
.
Google Scholar
Crossref
Search ADS
 
7.
ASTM E2248-12:
Standard Test Method for Impact Testing of Miniaturized Charpy V-Notch Specimens
,
Annual Book of ASTM Standards
,
ASTM International
,
West Conshohocken, PA
,
2012
.
8.
Generation IV International Forum,
2013
, http://www.gen-4.org.
10.
Manahan
,
M. P.
,
Martin
,
F. J.
, and
Stonesifer
,
R. B.
, “
Results of the ASTM Instrumented/Miniaturized Round Robin Test Program
,”
Pendulum Impact Testing: A Century of Progress, ASTM STP 1380
,
T. A.
Siewert
 and
M. P.
Manahan
, Sr., Eds.,
ASTM International
,
West Conshohocken, PA
,
1999
, pp.
223
241
.
Google Scholar
Crossref
Search ADS
 
11.
ASTM E23: Standard Test Methods for Notched Bar Impact Testing of Metallic Materials
,
Annual Book of ASTM Standards
,
ASTM International
,
West Conshohocken, PA
,
2012
.
12.
ISO 148-2,
2008
, “
Metallic Materials – Charpy Pendulum Impact Test – Part 2: Verification of Testing Machines
,”
International Organization for Standardization
,
Geneva, Switzerland
.
13.
Lucon
,
E.
,
Roebben
,
G.
,
Puzzolante
,
J.-L.
, and
Lamberty
,
A.
, “
Impact Characterization of Sub-Size Charpy V-Notch Specimens Prepared from Full-Size Certified Reference Charpy V-Notch Test Pieces
,”
J. ASTM Int.
, Vol.
2
, No.
7
,
2005
. https://doi.org/10.1520/JAI12873
14.
D. J.
Alexander
,
W. R.
Corwin
, and
T. D.
Owings
, “
The Production of Calibration Specimens for Impact Testing of Subsize Charpy Specimens
,” in Pendulum Impact Machines: Procedures and Specimens for Verification, ASTM STP 1248,
T. A.
Siewert
 and
A. K.
Schmieder
, Eds.,
American Society for Testing and Materials
,
Philadelphia, PA
,
1995
, pp.
32
38
.
Google Scholar
Crossref
Search ADS
 
15.
C. N.
McCowan
,
J. D.
Splett
, and
E.
Lucon
, “
Dynamic Force Measurement: Instrumented Charpy Impact Testing
,” NISTIR 6652,
National Institute of Standards and Technology
, Jan
2008
.
16.
C. N.
McCowan
,
E.
Lucon
, and
R. L.
Santoyo
, “
Evaluation of Bias for Two Charpy Impact Machines with the Same Instrumented Striker
,”
J. ASTM Int.
, Vol.
8
, No.
5
,
2011
.
17.
C. N.
McCowan
,
T. A.
Siewert
, and
D. P.
Vigliotti
, “
The NIST Charpy V-notch Verification Program: Overview and Operating Procedures
,” in Charpy Verification Program: Reports Covering 1989–2002, NIST Technical Note 1500-9, Sept
2003
.
18.
F.
Grubbs
, “
Procedures for Detecting Outlying Observations in Samples
,”
Technometrics
, Vol.
11
, No.
1
,
1969
, pp.
1
21
. https://doi.org/10.1080/00401706.1969.10490657
Google Scholar
Crossref
Search ADS
 
19.
ASTM E691-12: Standard Practice for Conducting an Interlaboratory Study to Determine the Precision of a Test Method
,
Annual Book of ASTM Standards
,
ASTM International
,
West Conshohocken, PA
,
2012
.
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