code | ABSTRACT
includes links to Full-Text and Options | MAGNETIC TECHNIQUES | FULL-TEXT
and Options |
|
11 |
EFFECTS OF ACCUMULATED TORSIONAL STRAIN AND DAMAGE ON THE MAGNETIC PROPERTIES OF STEEL | Edward Gorkunov, Institute Of Engineering Science, Russia | 271
 |
170 |
MAGNETIC PARTICLE PATTERN IN RADIATING FROM NEAR CORNERS OF A KEYSLOT ON WORKPIECE SURFACE | Ya Qing Zhu, Nanjing Gas Turbine Research Institute, China | 320
|
171 |
MAGNETIC LEAKAGE FIELD CAUSED BY A RECTANGULAR SLOT ON THE WORKPIECE SURFACE | Ya Qing Zhu, Nanjing Gas Turbine Research Institute, China | 306
|
178 |
METHODS OF IMPROVEMENT OF TESTING RELIABILITY IN CASE OF AUTOMATED EXAMINATION OF MASS PRODUCTION METAL PRODUCTS BY ELECTROMAGNETIC FLAW DETECTORS | Yuriy K. Fedosenko, JSC "Spectrum" - RII", Russia | |
220 |
ROPE NDT AS MEANS TO RAISE SAFETY OF CRANE AND ELEVATOR USE | Vasily Sukhorukov, Intron Plus, Ltd, Russia | 275
|
292 |
MAGNETIC FLUX LEAKAGE INVESTIGATION OF INTERACTING DEFECTS: COMPETITIVE EFFECTS OF STRESS CONCENTRATION AND MAGNETIC SHIELDING | Catalin Mandache, Queen's University, Canada | 408
|
359 |
PRINCIPAL FEATURES OF METAL MAGNETIC MEMORY METHOD AND INSPECTION TOOLS AS COMPARED TO KNOWN MAGNETIC NDT METHODS | Anatoli Dubov, Energodiagnostika Co. Ltd, Russia | 193
|
481 |
EFFECTS OF STRESS CYCLES ON SURFACE MAGNETIC FIELD | Chen Xing, Tsinghua Univ., China | |
613 |
ESTIMATION OF STRESS, FATIGUE AND CAPACITY OF WELDS BY MEASUREMENTS OF MAGNETIC CHARACTERISTIC – COERCIVE FORCE (HC) | Roman Solomakha, Special Scientific Projects Development, Ukraine | 400
|
631 |
FLUORESCENCE MAGNETIC PARTICLE FLAW DETECTING SYSTEM BASED ON LOW LIGHT LEVEL CCD | Ma Yukuan , Jilin University, China | 159
|
704 |
THE MFL TECHNIQUE FOR SURFACE FLAWS USING RESIDUAL MAGNETIZATION METHOD WITH THE MI (MAGNETO-IMPEDANCE) SENSOR | Naoya Kasai, Yokohama National University, Japan | 281
|
743 |
MAGNETIC MEMORY METHOD (MMM): A CRITICAL REVIEW | John Zirnhelt, Canspec Group Inc., Canada | |
780 |
TESTING OF MECHANICAL PROPERTIES OF THE LIGHT-GAUGE ROLLED PRODUCTS OF LOW-CARBON STEELS IN THE ZINC GALVANIZING LINE BY THE PULSE MAGNETIC METHOD | Vladimir Fedorovich Matyuk, Institute of Applied Physics, Belarus | 442
|