TY - JOUR
T1 - Influence of Loading Rate on the Calibration of Instrumented Charpy Strikers
AU - Lucon, Enrico
AU - Scibetta, Marc
AU - McColskey, J. David
AU - McCowan, Chris N.
N1 - Score = 10
PY - 2009/11
Y1 - 2009/11
N2 - One of the key factors for obtaining reliable instrumented Charpy results is the calibration of the instrumented striker. The conventional approach for establishing an analytical relationship between strain gage output and force applied to the transducer is the static calibration, which is preferably performed with the striker installed in the pendulum assembly. However, the response of an instrumented striker under static force application may sometimes differ significantly from its dynamic performance during an actual Charpy test. This is typically reflected in a large difference between absorbed energy returned by the pendulum encoder (KV) and calculated under the instrumented force/displacement test record
(Wt). Such difference can be either minimized by optimizing the striker design or analytically removed by adjusting forces and displacements until KV=Wt (the so-called “dynamic force adjustment”). This study investigates the influence of increasing force application rates on the force/voltage characteristics of two instrumented strikers, one at NIST in Boulder, Colorado and one at SCK•CEN in Mol, Belgium. Force was applied to the strikers using servohydraulic testing machines up to maximum loading rates of around 3,000 kN/s, approximately 60 times lower than the typical loading rate during the elastic portion of an instrumented Charpy test (180,000 kN/s).
AB - One of the key factors for obtaining reliable instrumented Charpy results is the calibration of the instrumented striker. The conventional approach for establishing an analytical relationship between strain gage output and force applied to the transducer is the static calibration, which is preferably performed with the striker installed in the pendulum assembly. However, the response of an instrumented striker under static force application may sometimes differ significantly from its dynamic performance during an actual Charpy test. This is typically reflected in a large difference between absorbed energy returned by the pendulum encoder (KV) and calculated under the instrumented force/displacement test record
(Wt). Such difference can be either minimized by optimizing the striker design or analytically removed by adjusting forces and displacements until KV=Wt (the so-called “dynamic force adjustment”). This study investigates the influence of increasing force application rates on the force/voltage characteristics of two instrumented strikers, one at NIST in Boulder, Colorado and one at SCK•CEN in Mol, Belgium. Force was applied to the strikers using servohydraulic testing machines up to maximum loading rates of around 3,000 kN/s, approximately 60 times lower than the typical loading rate during the elastic portion of an instrumented Charpy test (180,000 kN/s).
KW - instrumented Charpy tests
KW - instrumented Charpy striker
KW - static calibration
KW - dynamic force adjustment
KW - force application rate
UR - http://ecm.sckcen.be/OTCS/llisapi.dll/open/ezp_103075
UR - http://knowledgecentre.sckcen.be/so2/bibref/6603
U2 - 10.1520/JTE102330
DO - 10.1520/JTE102330
M3 - Article
SN - 0090-3973
VL - 37
SP - 520
EP - 530
JO - Journal of Testing and Evaluation
JF - Journal of Testing and Evaluation
IS - 6
ER -