V.M. Uchanin scite author profile

V.M. Uchanin

4Publications

50Citation Statements Received

11Citation Statements Given

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Affiliations

G.V. Karpenko Physical-Mechanical Institute, National Academy of Sciences of Ukraine, Ukrainian Academy of Agrarian Sciences

Publications

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Deep Penetrating Eddy Currents and Probes

Mook

Hesse

Uchanin³

2007

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The eddy current skin-effect limits the detection of subsurface defects and the range of thickness measurement. Traditional concepts to estimate the penetration depth basing on plane wave propagation into a conducting halfspace cannot describe the real depth of inspection achievable by state-of-the-art sensors and instruments. The paper presents a more fruitful concept for estimating the noise limited inspection depth. Here, the traditional parameters like frequency, probe dimensions, conductivity and permeability are analysed in combination with all sources of noise and disturbances in eddy current technique. New low frequency eddy current probes of inductive and magneto-resistive type are presented and characterised. These probes combine deep penetration with comparatively small size and good spatial resolution.

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Detection of the Fatigue Cracks Initiated near the Rivet Holes by Eddy Current Inspection Techniques

Uchanin

2020

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Eddy current (EC) method is considered as most applicable for in-service detection of fatigue subsurface cracks initiated in aircraft multilayer structures near the rivet holes. At the same time, the successful solution of this problem is obstructed by additional noise created by defect-free rivets. All EC inspection techniques for the detection of subsurface cracks around the rivets can be classified into three main groups: 1) static mode – carried out by placing the EC probe concentrically on the rivet head; 2) rotational mode – when the EC probe is rotated around the rivet axle and 2) sliding mode – performed by the movement of EC probe along the rivet line or near it. All these approaches have some advantages and limitations. In this study, known EC techniques for the detection of cracks in multilayer aircraft structures are analyzed. New advanced EC techniques for the detection of fatigue cracks in internal layers of the riveted structures based on different types (ring, sliding, and rotational) probes are presented. The static EC method with developed low-height ring-type probe creates the possibility to detect cracks in the difficult of access areas. The possibility to estimate the length of detected cracks by a ring-type probe is shown. The proposed rotational remote field EC probe can detect as small as 1.0 mm long cracks under the button-head rivet and 2 mm thick upper skin with a high signal-to-noise ratio. Therefore, in many aircraft structures, fatigue cracks will be detected before a critical threshold achieved. New EC sliding techniques based on remote field and double differential probes were proposed for the rapid detection of cracks in internal layers of riveted aircraft structures. Remote-field EC probe for reliable detection of fatigue cracks in third and fourth layers of five-layer units was proposed. Another sliding technique based on a double differential EC probe gives the possibility to detect transverse cracks in the second layer without the rivet row area access. The main advantage of developed techniques is high inspection reliability due to the possibility to discriminate the signals created by cracks and defect-free rivets. Presented inspection procedures include the selective signal analysis in the complex plane diagram. Proposed EC inspection techniques were successfully implemented into the aircraft maintenance practice.

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Evaluation of Aluminium Alloys Degradation in Aging Aircraft

Ostash

Uchanin

Semenets³

et al. 2017

Research in Nondestructive Evaluation

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Development of electromagnetic NDT methods for structural integrity assessment

Uchanin

Ostash

2019

Procedia Structural Integrity

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V.M. Uchanin

Deep Penetrating Eddy Currents and Probes

Detection of the Fatigue Cracks Initiated near the Rivet Holes by Eddy Current Inspection Techniques

Evaluation of Aluminium Alloys Degradation in Aging Aircraft

Development of electromagnetic NDT methods for structural integrity assessment

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