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1 – 10 of over 9000I. Lombillo, L. Villegas and J. Elices
The analysis of ancient buildings presents professionals with important challenges, so it is necessary to have a rational methodology of analysis of these constructions. From the…
Abstract
Purpose
The analysis of ancient buildings presents professionals with important challenges, so it is necessary to have a rational methodology of analysis of these constructions. From the point of view of the technology of structures it is imperative to know the mechanical characteristics of the structural elements involved, as well as the existing stress levels. Currently the tendency is to obtain such knowledge in a non‐destructive way, producing minimal damage. The purpose of this paper is to provide a vision of some of the minor‐destructive techniques (MDT) applied to the diagnosis of historical rubble stone masonry structures.
Design/methodology/approach
The paper focuses attention on the employment of techniques based on mechanical stress aspects: flat jack, hole‐drilling and dilatometer, conducted on rubble stone masonry structures. Several computational models were made of parts of the building. These models were used to obtain experimental data (modulus of elasticity and Poisson's ratio). The accuracy of the models was contrasted through the comparison with compression stress levels obtained experimentally.
Findings
The paper provides a brief description of these MDT, and exposes the flat jack tests results obtained on several historical masonry walls in the Major Seminary of Comillas (Spain): Compression stress levels, modulus of elasticity and Poisson's ratio of several masonries of this building.
Practical implications
These techniques improve the computational models of constructions, because they can obtain a better knowledge of their mechanical properties, from experimental ways, and the calibration of models through experimental data.
Originality/value
This paper describes one of the first applications of these techniques in Spain.
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Giovanna Concu, Barbara De Nicolo and Luisa Pani
This paper aims to report a case study regarding the combined use of several non‐destructive techniques (NDTs) as a tool in the management of diagnosis and refurbishment of a…
Abstract
Purpose
This paper aims to report a case study regarding the combined use of several non‐destructive techniques (NDTs) as a tool in the management of diagnosis and refurbishment of a damaged reinforced concrete building.
Design/methodology/approach
Four types of NDTs have been selected and carried out on the pillars of the building: visual inspection, electromagnetic rebar location, sonic test and rebound hammer test. The campaign has been planned and run in order to get the highest amount of reliable data about materials degradation and structural safety with limited costs and limited interference with the functionality of the building.
Findings
The diagnostic campaign highlighted the usefulness of the selected techniques in the diagnosis of the type and the amount of degradation, thus permitting a plan of refurbishments to be defined, and to get a realistic estimation of restoration costs.
Practical implications
NDTs' ability to specifically identify a type of damage may be viewed as a reliable tool in assessing and managing the structural life‐cycle cost.
Originality/value
The presented case study highlighted that NDTs are very likely to locate and quantify the damage of materials and buildings, so that they can be considered as one of the most important parts of health monitoring of civil structures and infrastructures.
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Surface insulation resistance (SIR) testing is mainly used as a qualification procedure to determine the‘best’ combination of materials and processes for a given application. The…
Abstract
Surface insulation resistance (SIR) testing is mainly used as a qualification procedure to determine the ‘best’ combination of materials and processes for a given application. The usual tests are destructive and last generally from ten to 56 days, 28 days being very common. It is clear that such tests are unsuitable for production quality control. With cleaned boards, ionic contamination testing is current and is specified in many standards. Even so, the presence of non‐ionic hygroscopic contaminants, such as residues from many fluxes and solder pastes, remains undetected. Their presence may cause functional failures, especially if there is some ionic contamination, even within acceptable limits, as well. When using ‘no‐clean’ fluxes and pastes, ionic contamination testing is sometimes used to determine whether a process is constant, although it may be extremely difficult or even impossible to interpret the results into a function of reliability. SIR testing is the only easy way of forecasting a loss of reliability. A method is described of non‐destructive SIR testing in a few hours and correlating the results to reliability as determined by long‐term qualification testing. This method is valid for PCB assemblies which have or have not been cleaned.
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Preeti Wanti Srivastava, Manisha Manisha and Manju Agarwal
Degradation measurement of some products requires destructive inspection; that is, the degradation of each unit can be observed only once. For example, observation on the…
Abstract
Purpose
Degradation measurement of some products requires destructive inspection; that is, the degradation of each unit can be observed only once. For example, observation on the mechanical strength of interconnection bonds or on the dielectric strength of insulators requires destruction of the unit. Testing high-reliability items under normal operating conditions yields a small amount of degradation in a reasonable length of time. To overcome this problem, the items are tested at higher than normal stress level – an approach called an accelerated destructive degradation test (ADDT). The present paper deals with formulation of constant-stress ADDT (CSADDT) plan with the test specimens subject to stress induced by temperature and voltage.
Design/methodology/approach
The stress–life relationship between temperature and voltage is described using Zhurkov–Arrhenius model. The fractional factorial experiment has been used to determine optimal number of stress combinations. The product's degradation path follows Wiener process. The model parameters are estimated using method of maximum likelihood. The optimum plan consists in finding out optimum allocations at each inspection time corresponding to each stress combination by using variance optimality criterion.
Findings
The method developed has been explained using a numerical example wherein point estimates and confidence intervals for the model parameters have been obtained and likelihood ratio test has been used to test for the presence of interaction effect. It has been found that both the temperature and the interaction between temperature and voltage influence the quantile lifetime of the product. Sensitivity analysis is also carried out.
Originality/value
Most of the work in the literature on the design of ADDT plans focusses on only a single stress factor. An interaction exists among two or more stress factors if the effect of one factor on a response depends on the levels of other factors. In this paper, an optimal CSADDT plan is studied with one main effect and one interaction effect. The method developed can help engineers study the effect of elevated temperature and its interaction with another stress factor, say, voltage on quantile lifetime of a high-reliability unit likely to last for several years.
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Introduction Much‐publicised court cases during the past few years have highlighted the legal aspects of professional competence, while formal responsibility for poor judgments in…
Abstract
Introduction Much‐publicised court cases during the past few years have highlighted the legal aspects of professional competence, while formal responsibility for poor judgments in the field of structural surveying has in particular been strongly affirmed.
Eight axioms, usually implicitly assumed, are formulated. They concern the correlation between non‐destructive and destructive testing, the constitution of a lot, the…
Abstract
Eight axioms, usually implicitly assumed, are formulated. They concern the correlation between non‐destructive and destructive testing, the constitution of a lot, the specification of the maximal permissible fraction of parts having a defect larger than a maximal permissible size, the monitoring of the adjustments of NDT equipments by control charts, the determination of the rejection measurement taking the lack of precision of equipments into account, and the acceptance inspection by the consumer.
Qingxiang Zhou, Fang Liu, Jingming Li, Jiankui Li, Shuangnan Zhang and Guixi Cai
This study aims to solve the problem of weld quality inspection, for the aluminum alloy profile welding structure of high-speed train body has complex internal shape and thin…
Abstract
Purpose
This study aims to solve the problem of weld quality inspection, for the aluminum alloy profile welding structure of high-speed train body has complex internal shape and thin plate thickness (2–4 mm), the conventional nondestructive testing method of weld quality is difficult to implement.
Design/methodology/approach
In order to solve this problem, the ultrasonic creeping wave detection technology was proposed. The impact of the profile structure on the creeping wave detection was studied by designing profile structural test blocks and artificial simulation defect test blocks. The detection technology was used to test the actual welded test blocks, and compared with the results of X-ray test and destructive test (tensile test) to verify the accuracy of the ultrasonic creeping wave test results.
Findings
It is indicated that that X-ray has better effect on the inspection of porosities and incomplete penetration defects. However, due to special detection method and protection, the detection speed is slow, which cannot meet the requirements of field inspection of the welding structure of aluminum alloy thin-walled profile for high-speed train body. It can be used as an auxiliary detection method for a small number of sampling inspection. The ultrasonic creeping wave can be used to detect the incomplete penetration welds with the equivalent of 0.25 mm or more, the results of creeping wave detection correspond well with the actual incomplete penetration defects.
Originality/value
The results show that creeping wave detection results correspond well with the actual non-penetration defects and can be used for welding quality inspection of aluminum alloy thin-wall profile composite welding joints. It is recommended to use the echo amplitude of the 10 mm × 0.2 mm × 0.5 mm notch as the criterion for weld qualification.
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Maurizio Bevilacqua, Filippo Emanuele Ciarapica, Giancarlo Giacchetta and Barbara Marchetti
The purpose of this paper is to present the application of a procedure for the quality control of stainless steel tubes produced for automotive exhaust systems from a leading…
Abstract
Purpose
The purpose of this paper is to present the application of a procedure for the quality control of stainless steel tubes produced for automotive exhaust systems from a leading company in the steel sector, based on the Delphi method in accordance with the ISO/TS 16949:2009 and the ISO 9000:2008. Using Delphi methodology, it was possible to identify the main problems in the production lines object of the study, the main defects and their causes. Statistical methods were used to monitor process compliance and capacity. The panel of experts involved in Delphi method was able to identify causes of non‐compliance and suggest corrective actions.
Design/methodology/approach
The quality procedure implemented involves the application of the Delphi method and the ISO/TS 16949:2009 standard in conjunction with ISO 9000:2008 to the production line of welded tubes for exhaust systems. The statistical methods used to monitor the process were mainly control charts. Capability index, Cp and Cpk, were used to measure the process attitude to produce compliant outputs. Dimensional data were acquired by non‐destructive testing on diameters and X‐R charts were used to graphically represent the process state of control. Destructive tests were performed to monitor the welding quality and P‐chart were used to assess the proportion of nonconforming units.
Findings
In this work, a procedure was developed in order to characterize the production process of TXM tubes realized in the line 31 of the leader company plant. The use of Delphi methodology, in order to incorporate experts opinions in the quality control of stainless steel tubes, was one of the main points of this work. The panel of experts worked together to identify process issues, define their causes and propose corrective actions. The paper provides an overview about the quality approach of one of the world's largest companies in the production of steel and shows also how the statistical tools are used in order to manage process behavior.
Originality/value
The value of this paper is to illustrate an innovative approach to a real life quality problem; it demonstrates how the application of qualitative and quantitative quality instruments in accordance with technical specification can help in increasing and maintaining product compliance and in optimizing the management of resources.
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A. Saboktakin, T. Vu-Khanh and Y. Bonnefon
The purpose of this paper is to experimentally investigate the capability of four non-destructive testing (NDT) techniques to detect the layer orientation in textile composite…
Abstract
Purpose
The purpose of this paper is to experimentally investigate the capability of four non-destructive testing (NDT) techniques to detect the layer orientation in textile composite laminates. The aerospace industry has been the primary driving force in the use of textile composites.
Design/methodology/approach
Woven glass fiber composite samples were inspected using C-scan ultrasonic, vibration analyzer, X-ray micro-tomography and ultraviolet technique. In a complementary study, mechanical testing was carried out to investigate the effect of mid-layer orientation on in-plane tensile strength and their failure modes using microscopic imagining.
Findings
During C-scan ultrasonic, the high attenuation and scattering of ultrasonic waves caused by the textile fabric layers limited its application to only detect the first layer of samples. Frequency response tests of composite samples were also conducted to investigate the effect of mid-layer orientation on dynamic responses. The same trend was observed in the finite element modeling results with a clear effect of the fiber orientation defect seen in frequency response function response and higher mode shapes. Moreover, the results of micro computed tomography demonstrate that this technique could definitely detect the orientation of each layer; however, X-ray imaging at small scales introduced some challenges. Images obtained from ultraviolet technique did not reveal mid-layer orientation.
Originality/value
In this paper, the application of different NDT techniques along with finite element modeling to inspect two-dimensional textile composites was presented. Hopefully, the research results presented here will lead to much published papers in inspection of textile composites.
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A high percentage of circuit boards manufactured in the electronics industry are of an irregular shape and are produced on a standard panel outline to facilitate assembly…
Abstract
A high percentage of circuit boards manufactured in the electronics industry are of an irregular shape and are produced on a standard panel outline to facilitate assembly handling. The unused pieces of circuit board pass through the same processes as the useful parts and are normally discarded. This excess material could, among other things, be used to evaluate the quality of a bare board or an assembly. This paper will highlight the usefulness of designing test patterns on this excess material, namely test coupons, in terms of how these can be used to monitor all of the manufacturing and assembly process steps. It will also show how these coupons can be used to make the board easier to assemble and how they may actually lead to an improvement in the quality of the assembly and an increase in production yields. Suggestions will be made as to the types of test pattern that can be used, as well as how these patterns can be utilised as process control checkers. Since the test coupons are incorporated in the board design, a quality check of 100% of the boards that are being processed is possible. This would highlight any board‐to‐board variation if it were present. It would also allow for destructive testing to be carried out, without damaging any of the working product. The applications of these patterns are wide ranging. They can be used to check bare board quality—etch definition, layer registration, plating quality, solder mask definition etc. They can also be used to monitor the assembly processes for SMT and conventional PTH assembly types—cut and clinch quality, paste printing quality, onsertion accuracy, reflow/flow soldering quality and assembly cleanliness, among others. Many of these applications are examined in this paper.