A new method, designated as Spiral Notch Torsion Test (SNTT), is developed recently to measure the intrinsic fracture toughness KIC of structural materials. The SNTT overcomes many of the limitations inherent in traditional techniques and makes it possible to standardize fracture toughness testing. It is uniquely suitable for testing a wide variety of materials used extensively in pressure vessel and piping structural components and weldments, including others such as ceramics, their composites, and concrete. The SNTT system operates by applying pure torsion to uniform cylindrical specimens with a notch line that spirals around the specimen at a 45 deg pitch. The KIC values are obtained with the aid of a three-dimensional finite-element computer code, TOR3D-KIC, developed at Oak Ridge National Laboratory (ORNL). The fundamental mechanism of SNTT approach is also described in the paper.

Issue Section:
Research Paper
Keywords:
pressure vessels, fracture toughness, notch testing, ceramics, concrete, torsion, finite element analysis
Topics:
Ceramics, Fracture (Materials), Fracture toughness, Stress, Testing, Torsion, Finite element analysis
1.
ASTM, 2004, “Test Method for Plane-Strain Fracture Toughness of Metallic Materials, ASTM E 399-90, ASTM International, Philadelphia, PA.”
2.
Chung
,
H. S.
,
Takahashi
,
T.
, and
Suzuki
,
M.
,
1978
, “
A Microstructural Gradient in HAZ and Its Influence Upon the HAZ Fracture Toughness
,”
Weld. World
,
16
, pp.
248
261
.
3.
Koo, J. Y., and Ozekcin, A., 1987, “A Local Brittle Zone Microstructure and Toughness in Structure Steel Weldments,” in Proceedings of an International Symposium on Welding Metallurgy of Structural Steels, J. Y. Koo, ed., Denver, Colorado.
4.
Lundin, C. D., 1986, “A Fundamental of Weld Discontinuities and Their Significance,” Welding Research Bulletin, No. 295.
5.
Dolby, R. E., and Archer, G. L., May 1971, “The Assessment of Heat-Affected Zone Fracture Toughness,” Proceedings of the Practical Applications of Fracture Mechanics to Pressure Vessel Technology Conference.
6.
Hobson, D. O., and Nanstad, R. K., 1983, “Effects of Off-Specification Procedures on the Mechanical Properties of Half-Bead Weld Repairs,” Oak Ridge National Laboratory Report NUREG/CR-3265, ORNL/TM-8661.
7.
Tronskar
,
J. P.
,
1995
, “
An Evaluation of Methods to Predict Safe Welding Conditions and Maximum HAZ Hardness in Steel Welding
,”
ASME J. Offshore Mech. Arct. Eng.
,
117
, pp.
46
56
.
8.
Wang, J. A., Liu, K. C., McCabe, D. E., and David, S. A., 1999, “An Innovative Small Specimen Testing Technique for the Determination of Fracture Toughness,” Oak Ridge National Laboratory Report, ORNL/M-6366.
9.
Wang
,
J. A.
,
Liu
,
K. C.
,
McCabe
,
D. E.
, and
David
,
S. A.
,
2000
, “
Using Torsion Bar Testing to Determine Fracture Toughness, KIC,
Fatigue Fract. Eng. Mater. Struct.
,
23
, pp.
45
56
.
10.
Wang, J. A., Liu, K. C., and McCabe, D. E., 2002, “An Innovative Technique for Measuring Fracture Toughness of Metallic and Ceramic Materials,” in Fatigue and Fracture Mechanics, 33, W. G. Reuter and R. S. Piascik, eds., ASTM STP 1417, pp. 757–770.
11.
Wang, J. A., Liu, K. C., and Joshi, G. A., 2002, “Using Torsion Bar Testing to Determine Fracture Toughness of Ceramic Materials,” ASME Proceedings of ETCE 2002 Conference on Composite Materials Design & Analysis, ASME, New York.
12.
Wang, J. A., 2001, “TOR3D-KIC: A 3-D Finite Element Analysis Code for Determination of Fracture Toughness, KIC, for Spiral Notch Torsion Fracture Test (SNTT),” Oak Ridge National Laboratory Report ORNL LTR Report.
13.
Sih
,
G. C.
,
1974
, “
Strain Energy Density Factor Applied to Mixed Mode Crack Problem
,”
Int. J. Fract.
,
10
, pp.
305
321
.
14.
Hartranft
,
R. J.
, and
Sih
,
G. C.
,
1977
, “
Stress Singularity for a Crack With an Arbitrarily Curved Front
,”
Eng. Fract. Mech.
,
9
, pp.
705
718
.
15.
Barsoum
,
R. S.
,
1977
, “
Triangular Quarter-Point Elements as Elastic and Perfectly-Plastic Crack Tip Elements
,”
Int. J. Numer. Methods Eng.
,
11
, pp.
85
98
.
16.
Li
,
H.-X.
,
Jones
,
R. H.
,
Hirth
,
J. P.
, and
Gelles
,
D. S.
,
1998
, “
Fracture Toughness of the F-82H Steel-Effect of Loading Modes, Hydrogen, and Temperature
,”
J. Nucl. Mater.
,
233
, pp.
258
263
.
17.
Lackey, W. J., Stinton, D. P., Cerny, G. A., Fehrenbacher, L. L., and Schaffhauser, A. C., 2004, “Ceramic Coating for Heat Engine Materials—Status and Future Needs,” Oak Ridge National Laboratory report, ORNL/TM-8959, Oak Ridge National Laboratory.
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