Nonlinear ultrasonic characterization of thermal degradation in ferritic 2.25Cr–1Mo steel

Kim, C.S.; Park, Ik Keun; Jhang, Kyung-Young

doi:10.1016/j.ndteint.2008.09.002

Cited by 57 publications

(20 citation statements)

References 19 publications

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“…Mutual relationships between parameters of ultrasonic waves and creep damage were observed [13,14]. Variations of nonlinear acoustic parameters were investigated in the course of creep [15]. In late creep stages, when numerous voids have been created in the bulk steel specimens, an ultrasonic technique based on acoustic birefringence was used to detect material damage [16].…”

Section: Introductionmentioning

confidence: 99%

Prediction of the Mechanical Properties of P91 Steel by Means of Magneto-acoustic Emission and Acoustic Birefringence

2017

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The paper describes an application of nondestructive volumetric magnetic and ultrasonic techniques for evaluation of the selected mechanical parameter variations of P91 steel having direct influence on its suitability for further use in critical components used in power plants. Two different types of deformation processes were carried out. First, a series of the P91 steel specimens was subjected to creep and second, one to plastic deformation in order to achieve the material with an increasing strain level up to 10%. Subsequently, non-destructive and destructive tests were performed. Magnetic methods based on measurements of magnetoacoustic emission and magnetic hysteresis loop changes as well as the ultrasonic method based on acoustic birefringence measurements, were applied. Finally, the static tensile tests were carried out in order to evaluate the mechanical parameters. It is shown that some relationships between the selected parameters coming from the non-destructive and destructive tests may be formulated.

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Section: Introductionmentioning

confidence: 99%

Prediction of the Mechanical Properties of P91 Steel by Means of Magneto-acoustic Emission and Acoustic Birefringence

2017

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“…The strain field resulting from the precipitate-matrix lattice misfit may increase the stress, which can be given by σ % 2μεf p [30], where f p is the volume fraction of the dispersed precipitate phase and ε is the coherency strain. For assuming the precipitates to be spherical and elastically isotropic, the coherency strain resulting from a spherical precipitate embedded in a finite matrix is presented as ε ¼ 3Kδ=3K þ 2Eð1 þ νÞ, where K is the bulk modulus of the precipitate, and E and ν are the Young's modulus and Poisson's ratio in the matrix.…”

Section: Comparison Of Theoretical Calculations To Experimentsmentioning

confidence: 99%

Creep degradation characterization of titanium alloy using nonlinear ultrasonic technique

Xiang

Zhu

Liu

et al. 2015

NDT & E International

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“…The nonlinear stressstrain (·¾) relation can be expressed up to secondorder term, · = E¾(1 + ¢¾ + +), for the simple one-dimensional case where E is second-order elastic constant and ¢ is second-order nonlinear coefficient. If we consider the one dimensional wave propagation of a pure longitudinal wave in a lossless solid, the nonlinear wave equation and its solution can be obtain by perturbation process as follows: 20) uðx; tÞ ¼ A cosðkx À ½tÞ þ A 2 k 2 ¢x…”

Section: Ultrasonic Nonlinearitymentioning

confidence: 99%

Creep Characterization in Advanced Heat-Resistant Steel Using Ultrasonic Nonlinearity Technique

Kim

2012

Mater. Trans.

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The creep of heat-resistant steel (12Cr3.45W alloy) is experimentally characterized to estimate damages using a nonlinear ultrasonic technique. The finite amplitude method has been used to measure the ultrasonic nonlinearity parameter in all creep damaged specimens by through transmitted longitudinal wave. The microstructure showed significant changes in precipitate size and dislocation density during creep. The normalized ultrasonic nonlinearity decreases significantly in stage I and decreases monotonously in stage II and stage III. However, the ultrasonic nonlinearity increase due to the formation of creep voids in the vicinity of the creep failure region. The correlation between the microstructural changes and ultrasonic nonlinearity is discussed.

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Nonlinear ultrasonic characterization of thermal degradation in ferritic 2.25Cr–1Mo steel

Cited by 57 publications

References 19 publications

Prediction of the Mechanical Properties of P91 Steel by Means of Magneto-acoustic Emission and Acoustic Birefringence

Prediction of the Mechanical Properties of P91 Steel by Means of Magneto-acoustic Emission and Acoustic Birefringence

Creep degradation characterization of titanium alloy using nonlinear ultrasonic technique

Creep Characterization in Advanced Heat-Resistant Steel Using Ultrasonic Nonlinearity Technique

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