Crack Length Measurement, Fatigue Crack Growth Rates and Life Prediction Books & Publications
Advances in Crack Length Measurement
Advances in Crack Length Measurement
€42 + €10 p&p UK / €20 p&p Worldwide
DIRECT OBSERVATIONS
The Determination of Fatigue Crack History from Fracture Surface Analysis
P. J. E. FORSYTH.
A Two Stage Plastic Replication Technique forMonitoring Fatigue Crack Iniation and Early Fatigue
Crack Growth
C. W. BROWN & G. C. SMITH
Evaluation of Fatigue Damage by Optical Holography
D. SIGLER & W. L. HAWORTH.
Characterisation of Fatigue Crack Extension under High Resolution and Dynamic Cycling Conditions
J. LANKFORD & D. L. DAVIDSON.
d. c. POTENTIAL DIFFERENCE
Crack Length Determination using the d. c. ElectricalP. D. Technique - A Comparison of Calibration Methods
A. C. PICKARD & M. A. HICKS.
A Computer Programme for the Calibration of the d. c. P. D. Method of Crack Length Measurement
C. D. INGELBRECHT & C. M. WARD-CLOSE.
A Pulsed d. c. Method for the Measurement of Low Fatigue Rates of Crack Growth
E. BARDAL, T. BERGE, M. GRØVLEN, P. J. HAAGENSEN & B. M. FØRRE.
A Pulsed d. c. P. D. Technique - Applications to Three-Dimensional Crack Fronts
G. BAUDIN & H. POLICELLA.
Electrical Potential Monitoring of the Formation and Growth of Small Fatigue Cracks in Embrittling Environment
H. P. GANGLOFF.
Application of the d. c. P. D. Technique in the High Temperature Regime
K. KROMPHOLZ, E. D. GROSSER, K. EWART & E. MORITZ.
a.c. POTENTIAL DIFFERENCE
Some Aspects of Crack Detection and Sizing using a. c. Field Measurements
F. D. W. CHARLESWORTH & W. D. DOVER.
Induction Effects During Crack Measurement by the a. c. Field Technique
D. MIRSHEKAR-SYHKAL & R. COLLINS.
An a. c. P. D. Method for Detection and Measurement of Surface Microcracks during Fatigue
Testing of Wires
I. VERPOEST, E. AERNOUDT, A. DERUYTTERE & M. NEYRINCK.
AUTOMATED METHODS
Automatic Crack Length Measurement by the Electrical
P. D. Method with Computer Control - A. BURGERS & P. D. KEMPEN.
A Micro Computer Based Crack Measurement and Test Control System
C. M. WARD-CLOSE
COMPLIANCE TECHNIQUES
The Measurement of Fatigue Crack Closure at Elevated Temperature
M. S. CHANA & C. J. BEEVERS
Control for Fatigue Crack
K. & R. A. SMITH.
ACOUSTIC METHODS
The Ultrasonic Characterisation of Fatigue Cracks
0. BUCK & B. R. TITTMANN.
Acoustic Microscopy - A Prospectus
G. A. D. BRIGGS.
Surface Acoustic Wave Monitoring of Growth of Small Fatigue Cracks
M. T. RESCH, D. V. NELSON, J. C. SHYNE & G. S. KINO.