Technology and Equipment for Determination of Residual Stresses in Welded Structures Based on the Application of Electron Speckle-Interferometry

2016

Residual Stresses 2016

Abstract. The electron speckle-interferometry hole-drilling (ESPI-HD) method for determination of residual stresses (RS) is based on drilling of a blind hole with a diameter of 0.5-1.0 mm and calculating stresses using displacements data measured by a speckle-interferometer. According to the standard procedure, calculations are made under the assumption of linear elastic behavior of the material. However, if the RS level is high, then plastic deformations caused by the stress concentration induced by the hole could lead to a stress calculation error. Unlike strain-gage holedrilling (SG-HD) method which records strains only by three (six) strain gauges and elaborates in order to find the RS, the ESPI-HD method allows taking into account the displacements data at all points of the surface around the hole. Analysis of the displacements' variation across the circumference around the hole reveals local features related with plastic deformations. In this paper, a new approach for determination of RS by the hole drilling method that considers the plastic deformations has been proposed. This approach assumes determination of the plasticity effect by calculating stresses using displacements data at various sectors relative to the hole. Analysis of stresses variations calculated using values of displacements at different sectors allows retrieving the real stress state. IntroductionOne of the most widely used technique for determination of residual stresses (RS) is the strain-gage hole-drilling method (SG-HD method). There is an international standard [1] for determination of RS that is based on drilling of a small hole on the materials surface and measuring the surface strains using a special strain gauge rosette attached concentrically around the drilled hole. This method is applied in cases where material behavior is linear-elastic and plasticity effects are neglected. It is known that a hole is the stress concentrator that can result in significant plastic deformations around the drilled holes, if the nearby RS are high. It was shown that if the stressed state does not exceeds about 60% of the material yield stress 02 the errors induced by yielding around the hole are less than 3% but the plasticity error increases with increasing RS [2,3]. This is connected with the fact, that elastic deformations, which for stresses should be calculated, are added to unknown plastic deformation. It is known that deformation data at the three points measured around the hole are not enough to determine a presence or absence of plastic deformation. In the paper [3] the use of a fourelement strain-gauge rosette has been considered to find "effect of plasticity" and real values of RS. Another extension of the hole drilling method is application of a non-contact speckle-interferometry technique to measure displacements around the hole [4][5][6]. The ESPI-HD method possesses such an important advantage as possibility of displacement data obtaining at a large amount of points near the hole. The analysis of the data allows determining of a pr...

Section: ⁄ On the Accuracy Of Rs Determination By The Espi-hd Methodsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Residual Stresses Determination with Plasticity Effects by Electron Speckle-Interferometry Hole-Drilling Method

2016

Residual Stresses 2016

“…In recent works other researchers also used holographic interferometry [5][6][7]. The progress of computer engineering allowed developing high-efficient methods for residual stresses determination using electron speckle-interferometry (ESPI) and blind hole drilling [8][9][10]. They provide sufficiently wide opportunities for revealing local features of residual stress distribution.…”

Section: Introductionmentioning

confidence: 99%

“…The data of the displacements, measured in the points along the circle with diameter AB (Fig. 2, a) and located at a certain distance (2.5r0) from the center of the drilled hole of radius r0, are used for determination of residual stresses using derived formula [10]. a) b) Fig.…”

Section: Introductionmentioning

confidence: 99%

“…The electron speckle-interferometry in the combination with the hole-drilling method can be used for fast and accurate determination of residual stresses [9,10]. The ESPI method for residual stresses determination is based on the application of the optical scheme of the speckleinterferometer in which the investigated object section is illuminated under the same angle symmetrically from two directions, so that it is possible to determine the in-plane components of the displacement vector, which characterize the deformation of the object.…”

Section: Introductionmentioning

confidence: 99%

See 1 more Smart Citation

Application of Local Current Pulses for Determination and Control of Residual Stresses

Pivtorak

Paschin

et al. 2014

AMR

Self Cite

Abstract. An electrode system for inducing a high density pulsed electric current (PEC) into the material for residual stresses (RS) relaxation has been proposed. A new non-destructive technology for determination of RS using electron speckle interferometry in combination with a local PEC treatment has been developed. Application of PEC at increased power parameters was investigated for control of stressed state of welded structures used in aircraft engineering. Results of practical application of the developed technologies and equipment are presented.

A Procedure for Plasticity Error Correction for Determination of Residual Stresses by the ESPI-HD Method

Fernandes

Savitsky

Materials Research Proceedings

2018