Varied spatial resolution of isochromatic fringes over the domain influences the accuracy of fringe order estimation using TFP/RGB photoelasticity. This has been brought out in the first part of the work. The existing scanning schemes do not take this into account, which leads to the propagation of noise from the low spatial resolution zones. In this paper, a method is proposed for creating a whole field map which represents the spatial resolution of the isochromatic fringe pattern. A novel scanning scheme is then proposed whose progression is guided by the spatial resolution of the fringes in the isochromatic image. The efficacy of the scanning scheme is demonstrated using three problems – an inclined crack under bi-axial loading, a thick ring subjected to internal pressure and a stress frozen specimen of an aerospace component. The proposed scheme has use in a range of applications. The scanning scheme is effective even if the model has random zones of noise which is demonstrated using a plate subjected to concentrated load. This aspect is well utilised to extract fringe data from thin slices cut from a stereo-lithographic model that has characteristic random noise due to layered manufacturing. © 2016 Elsevier Ltd

Krishnamurthi Ramesh

Department of Applied Mechanics

ELASTICITY

Image processing

Image resolution

Photoelasticity

Physical optics

Scanning

Stress analysis

Aerospace components

DIGITAL PHOTOELASTICITY

ISOCHROMATIC FRINGES

ISOCHROMATIC IMAGES

ISOCHROMATICS

LITHOGRAPHIC MODELS

RGB PHOTOELASTICITIES

spatial resolution

Stereo image processing

IIT Madras is a public technical and research university located in Chennai, Tamil Nadu. Founded in 1959, it is recognised as an Institute of National Importance.

IIT Madras has been ranked as the top engineering institute in India for four years in a row by the National Institutional Ranking Framework of the MHRD

It currently offers undergraduate, postgraduate and research degrees across 16 disciplines in Engineering, Sciences, Humanities and Management. About 596 faculty belonging to science and engineering departments and centres of the Institute are engaged in teaching, research and industrial consultancy.

IIT Madras

Optics and Lasers in Engineering

Colour adaptation techniques are useful in extending the method of Twelve fringe photoelasticity (TFP) to solve problems in industries as one can minimise the generation of specific calibration tables for each experiment. Image artefacts affect the functioning of existing colour adaptation techniques affecting the fringe order demodulation. Colour transfer is a popular technique in the field of image processing to tackle colour mismatch between images. In this paper, the applicability of two colour transfer strategies in the context of TFP is explored, of which one is selected for implementation. A comparative study on the performance of the novel colour transfer method with the existing colour adaptation techniques is carried out. © 2019 Elsevier Ltd

Applicability of colour transfer techniques in Twelve fringe photoelasticity (TFP)

The effect of an interacting internal crack on the edge crack in a transient thermal stress field is evaluated using digital photothermoelastic experiments and finite element (FE) analysis. Initially, a transient thermal stress field is simulated using FE analysis for which the thermal boundary conditions are set based on the experimental isochromatic fringes. In this simulated thermal stress field, single edge crack with and without an internal short crack interacting at different configurations are modeled and the non-dimensional Stress Intensity Factor (SIF) values are evaluated at different time intervals. It is observed that the asymmetric and collinear configurations tend to increase the SIF of the edge crack whereas a parallel crack tends to decrease the SIF of the edge crack. For experimental evaluation, specimens with a single edge crack and asymmetric configuration of interacting cracks are considered and the non-dimensional SIF values are evaluated under a thermal stress field generated by edge heating and cooling. The results are compared with those obtained using the FE analysis. © 2019, Society for Experimental Mechanics.

Experimental Mechanics

Study of Crack Interaction Effects Under Thermal Loading by Digital Photoelasticity and Finite Elements

This paper discusses the method for evaluating the unknown contact parameters by post processing the whole field fringe order data obtained from reflection photoelasticity in a nonlinear least squares sense. Recent developments in Twelve Fringe Photoelasticity (TFP) for fringe order evaluation from single isochromatics is utilized for the whole field fringe order evaluation. One of the issues in using TFP for reflection photoelasticity is the smudging of isochromatic data at the contact zone. This leads to error in identifying the origin of contact, which is successfully addressed by implementing a semi-automatic contact point refinement algorithm. The methodologies are initially verified for benchmark problems and demonstrated for two application problems of turbine blade and sheet pile contacting interfaces. © 2018 Elsevier Ltd

Analysis of contact zones from whole field isochromatics using reflection photoelasticity

In white light photoelasticity, the fringe order at a point of interest is resolved by comparing the colour data with a calibration table recorded experimentally. Recently, some researchers have proposed the idea of using a theoretical calibration table if the application image is normalized. In this paper, a systematic study is carried out on the applicability of the theoretical calibration table for fringe demodulation. A novel normalization methodology is developed to improve the dynamic range in both low and high fringe density areas. It is demonstrated that while applying normalization for stretching the dynamic range, one has to use only an experimentally recorded calibration table that is normalized. Specific advantages of using colour adaptation or fringe demodulation by normalization in certain practical situations is discussed. © 2018 Elsevier Ltd

An improved normalization technique for white light photoelasticity

Experimental studies to exploit photoelastic data of conformal geometries to extract contact parameters are non-existent because closed-form stress field equations were not available until recently. In this paper, the explicit equations recently reported in the literature for a flat punch with rounded edges are generalized so that a single set of equations can be used for a flat punch with rounded edges and Hertzian contacts with arbitrary radii of curvatures. The generality of the governing equations is verified by plotting isochromatics for conformal and non-conformal contact situations. A generic method to evaluate unknown contact parameters from the whole-field isochromatic data for conformal and non-conformal geometries is implemented. The methodology is initially verified using theoretically generated isochromatic data and is then used to experimentally evaluate two contact situations. In view of high-fringe gradient zones, the suitability of various digital photoelastic methods is compared. A novel four-step phase shifting technique is proposed in which isochromatic and isoclinic data can be evaluated using the minimum number of images. © 2018, Society for Experimental Mechanics.

Evaluation of Conformal and Non-Conformal Contact Parameters Using Digital Photoelasticity

In this work, we implement and examine a new flow reconstruction methodology using cubic-splines for interpolations in the gas kinetic method (GKM). We compare this version of GKM with the existing WENO based interpolation method. The comparisons are made in terms of accuracy and computational speed. We find that at low to intermediate range of Mach number (Mt &lt; 0.7), cubic-splines based interpolations are superior in terms of reduced numerical dissipation and higher computational speed (7x faster) as compared to the WENO interpolation method. © 2019 Journal of Applied Fluid Mechanics.

Fulltext

Journal of Applied Fluid Mechanics

Evaluation of cubic-spline based gas kinetic method for simulating compressible turbulence

The Indian construction industry faces increasing challenges amidst serious performance shortfalls. Confronting similar issues in past decades, other countries such as the UK, USA, and Singapore commissioned high-powered studies and set up industry development bodies to address their own priorities. Initiatives in other countries are briefly reviewed before outlining the launch of the "Construction Industry Improvement Initiative India" (Ci3 India) that aims to address our own challenges. This paper focuses on identifying and launching a platform to address the current and imminent critical issues in the Indian Construction Industry. Nineteen critical issues were identified, verified, and validated through four focus group sessions at two Regional Roundtables with 54 high calibre large building construction clients, academicians, and other invited experts. The identified issues were consolidated to 10 Action Items. Seven Action Teams were then mobilized to work on the 10 Action Items. Having consolidated a base consensus of clients on the way forward, it was also proposed to develop a "Construction Clients' Charter" that will set out basic principles, protocols, and targeted good practices by lead clients, who by voluntarily agreeing and implementing these together, could catalyse significant industry improvements. © Penerbit Universiti Sains Malaysia, 2017.

Journal of Construction in Developing Countries

Identifying and addressing critical issues in the Indian construction industry: Perspectives of large building construction clients

Development of improved designs of implant systems in dentistry have necessitated the study of stress fields in the implant regions of the mandible/maxilla for better understanding of the biomechanics involved. Photoelasticity has been used for various studies related to dental implants in view of whole field visualization of maximum shear stress in the form of isochromatic contours. The potential of digital photoelasticity has not been fully exploited in the field of implant dentistry. In this paper, the fringe field in the vicinity of the connected implants (All-On-Four® concept) is analyzed using recent advances in digital photoelasticity. Initially, a novel 3-D photoelastic model making procedure, to closely mimic all the anatomical features of the human mandible is proposed. By choosing appropriate orientation of the model with respect to the light path, the essential region of interest were sought to be analysed while keeping the model under live loading conditions. Need for a sophisticated software module to carefully identify the model domain has been brought out. For data extraction, five-step method is used and isochromatics are evaluated by twelve fringe photoelasticity. In addition to the isochromatic fringe field, whole field isoclinic data is also obtained for the first time in implant dentistry, which could throw important information in improving the structural stability of the implant systems. Analysis is carried out for the implant in the molar as well as the incisor region. In addition, the interaction effects of loaded molar implant on the incisor area are also studied. © 2016 Elsevier Ltd

Digital photoelastic analysis applied to implant dentistry

The use of single-colour image for determining the fringe orders in digital photoelasticity has gained importance in recent years, and in this, the fringe orders are obtained by comparing the colour information at each pixel of the model image using a calibration table. They were originally used for identifying fringe orders of up to 3, and there have been attempts to extend this to higher fringe orders. The methods proposed were tested only for the special case of the application specimen where the fringe signature is similar to that in the calibration specimen for fringe orders beyond 3. In this article, various colour difference formulae are studied, and a new colour difference formula is proposed to handle fringes beyond 3. The advantage of the new colour difference formula is illustrated for the problem of a thick ring subjected to internal pressure and a finite plate with a hole. A new multi-directional smoothing methodology is proposed to smooth the fringe order obtained. The results are compared with those obtained by 10-step phase shifting technique. Advancing front scanning approach coupled with multiple seed points is used to solve a variety of problems in which both the geometry and the fringe signature are quite different from the calibration specimen. The influence of seed point selection is brought out by solving the problem of a plate with a hole having up to 15 fringe orders. New approaches to handle noisy industrial images are also dealt with. © Institution of Mechanical Engineers 2015.

Journal of Strain Analysis for Engineering Design

New initiatives in single-colour image-based fringe order estimation in digital photoelasticity

Masonry being a composite system is very complex to study with analytical methods alone. Quantitative digital photoelastic analysis using Three Fringe Photoelasticity (TFP) is carried out on a model of a dry masonry wall with bricks made up of epoxy, loaded with a concentrated load. The result obtained provides insight into the micromechanics of force transmission and interactions between bricks in masonry. The result shows that force transmission through the wall occurs at discrete points. A tree like hierarchical pattern of stress flow is observed. It is also observed that the stress percolation results in the existence of stress-free zones in the model domain. © 2015 SPIE.

Journal	Data powered by TypesetOptics and Lasers in Engineering
Publisher	Data powered by TypesetElsevier Ltd
ISSN	01438166
Open Access	No