Methods for crack opening load and crack tip shielding determination: a review

and, S. Stoychev; Kujawski, Daniel

doi:10.1046/j.1460-2695.2003.00691.x

Cited by 66 publications

(46 citation statements)

References 118 publications

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“…At this time, the value P RCPG is in the high load region, but the values P RPG , P cl and P CF are in the low load region as shown in Figure 7(b), and the hysteresis loop tail is not formed as shown in Figure 7(a) (1). When the value P RPG , P cl and P CF rise gradually, the hysteresis loop tail enlarges gradually as shown in Figure 7(a) (2) and (3), and the fatigue crack begins to propagate. When each of the value P RCPG , P RPG , P cl , and P CF tends to constants, the ε'/dp 2 dε'/dp Change of compliance on loading process dε'/dp d 2 ε'/dp .…”

Section: 1mentioning

confidence: 85%

“…The crack propagation decelerates in the absence of a sufficient compressive plastic zone at the crack tip. (2) The route of fatigue crack propagation P RPG~Pmax and P RCPG~PCF plays an important effect in the crack opening/closure behavior, and is also a fundamental reason for causing the acceleration, deceleration and non-propagation phenomena under variable amplitude loading.…”

Section: Resultsmentioning

confidence: 99%

“…An effective stress intensity factor range ΔK eff (=K max -K op ) was defined by an opening stress intensity factor K op , and the opening load P op was often measured by ASTM 2% offset method or curve fitting method [2], as well as an unloading elastic compliance method brought by Kikukawa et al [3]. Otherwise, Nisitani and Chen [4] defined an effective stress intensity factor range ΔK eff (=K max -K cl ) by means of a closure stress intensity factor K cl , and the closure load P cl was determined based on the inflexion point on the unloading compliance.…”

Section: Introductionmentioning

confidence: 99%

See 2 more Smart Citations

The Effects of Elasto-Plastic Behavior at the Crack Tip on Fatigue Crack Propagation

Xiong¹,

Katsuta²,

Kawano³

et al. 2005

Volume 1 Number 2

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Emphasis on physical meanings of the hysteresis loop denoting the relationship between loads and strains near the crack tip, variations of the loading tensile plastic load zone and the unloading compressive plastic load zone are studied respectively under various fatigue test conditions, and the effects on acceleration, deceleration and non-propagation during fatigue crack propagation are also studied. Two types of crack closure are obtained from tests, and the influence of each load zone of the hysteresis loop on fatigue crack propagation is evaluated. Result shows that load zones P RPG~Pmax and P RCPG~PCF play an important role in the crack opening/closure behavior, and the fatigue crack propagates difficultly if the compressive plastic zone at the crack tip is not enough. Keywords:Fatigue crack propagation, Crack tip, Opening/closure, Hysteresis loop, compressive plastic zone, Variable amplitude loading. INTRODUCTIONThe effect of elasto-plastic behavior at the crack tip on fatigue crack propagation has been known since Elber [1] affirmed crack closure phenomenon during fatigue crack propagation by experiment. An effective stress intensity factor range ΔK eff (=K max -K op ) was defined by an opening stress intensity factor K op , and the opening load P op was often measured by ASTM 2% offset method or curve fitting method [2], as well as an unloading elastic compliance method brought by Kikukawa et al. [3]. Otherwise, Nisitani and Chen [4] defined an effective stress intensity factor range ΔK eff (=K max -K cl ) by means of a closure stress intensity factor K cl , and the closure load P cl was determined based on the inflexion point on the unloading compliance. But, loads P op and P cl were dependent on geometric criterion of the compliance curve obtained by global measurement techniques, and the method neglects the physical meaning of compliance change caused by plastic deformation at the crack tip. Recently, Toyosada and Niwa [5] investigated the physical change of the compliance during a load cycle by local measurement techniques, presented a concept of Re-tensile plastic zone's generated load P RPG and established ΔK RPG (=K max -K RPG ). He also presented a method for determining the special loads such as opening/closure loads through overlapping the original hysteresis loop near the crack tip on the loop which rotates at the coordinate origin by 180º. However, the above parameters cannot evaluate the effect of the compressive plastic zone at the crack tip on fatigue crack propagation, and there was an inaccuracy caused by the manual operation after experiment.In this paper, by using global measurement techniques, the hysteresis loop of strains via loads denoting elasto-plastic behavior near the crack tip is obtained. Loads at inflexions on the hysteresis loop are calculated by differential and the hysteresis loop is divided into several physical load zones. Fatigue tests of CT specimen are carried out under variable amplitude loading. Emphasis on variations of the loading tensile and the unlo...

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Section: 1mentioning

confidence: 85%

Section: Resultsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

See 1 more Smart Citation

The Effects of Elasto-Plastic Behavior at the Crack Tip on Fatigue Crack Propagation

Xiong¹,

Katsuta²,

Kawano³

et al. 2005

Volume 1 Number 2

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show abstract

“…The crack closure phenomenon is an important variable in fatigue crack propagation and has been extensively studied through different methods [1,2]. The effect of crack closure is also important for ultrasonic measurement of crack depth [3], structural health monitoring techniques [4,5] and for methods of crack growth detection [6,7], as closed cracks can be erroneously evaluated.…”

Section: Introductionmentioning

confidence: 99%

A Piezoelectric Technique for Evaluation of Crack Closure

Gama

Morikawa

2009

Exp Mech

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The ability of the piezoelectric materials to work as sensors and actuators was employed in a technique for monitoring the degree of crack closure and to detect the crack opening load. The technique is demonstrated through experiments with a cracked beam. It consists in exciting the specimen with a piezoelectric actuator and recording the electromechanical response of piezoelectric sensors placed near the crack mouth, while applying a bending moment to open the crack. The sensors in the neighborhood of the crack present a reduction in the amplitude response signal due to the progressive decrease of the dynamic strains near the crack, as the bending load causes the crack to open, reducing the contact between the surfaces of the fatigue crack and the load transmission through the contact area. The results show that the method has a high sensitivity to the state of crack closure, allowing for the direct determination of the crack opening load.

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“…Then, the machine can work continuously for the longest possible time, before any intervention for repair. The crack closure phenomenon is an important variable in fatigue crack propagation and has been extensively studied through different methods [11,14,15]. Usually, in industrial applications the cracked shafts can be kept under operation for many years, if correctly monitored and operated before being replaced.…”

Section: Introductionmentioning

confidence: 99%

Control of the breathing mechanism of a cracked rotor by using electro-magnetic actuator: numerical study

Morais

Steffen

Mahfoud

2012

Lat. Am. j. solids struct.

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This paper presents a numerical study devoted to the evaluation of the possibility of monitoring and controlling the dynamic behavior of a rotating machine with a cracked shaft by using an Electro-Magnetic Actuator (EMA). The EMA is located at the mid-span of the rotor to provide active control. The opening and closure (breathing) of the crack is determined by the stress field over its cross section resulting from the dynamic bending moment. The system is nonlinear due to the fact that the crack parameters must be determined for each time step and the EMA introduces forces that are inversely proportional to the square of the gap value between the stator and the rotor. The model developed takes into account the behavior of the crack and the influence of the EMA. Simulations were carried out to access the possibility of controlling the breathing mechanism. The results obtained demonstrate the possibility of using the EMA in order to keep the crack closed along the rotation of the rotor, thus forming a self-healing scheme for the cracked rotor.

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Methods for crack opening load and crack tip shielding determination: a review

Cited by 66 publications

References 118 publications

The Effects of Elasto-Plastic Behavior at the Crack Tip on Fatigue Crack Propagation

The Effects of Elasto-Plastic Behavior at the Crack Tip on Fatigue Crack Propagation

A Piezoelectric Technique for Evaluation of Crack Closure

Control of the breathing mechanism of a cracked rotor by using electro-magnetic actuator: numerical study

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