Variability of the Pull-off Technique for Adhesion Strength Evaluation on Ceramic Tile Claddings

Lopes, Ana Catarina; Flores‐Colen, Inês; Silva, L.

doi:10.1080/00218464.2014.999366

Cited by 16 publications

(15 citation statements)

References 14 publications

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“…A similar observation reports to the render or concrete cases, this turn with values higher than 1 MPa, again above typical experimental results directly measured at these support levels. 5 , 21 , 22 Such results suggest the potential need to evaluate the developed model by applying an experimental approach in parallel that could provide a correction factor to it.…”

Section: Resultsmentioning

confidence: 99%

The evaluation of von Mises stress field in bonded tiling ceramics as function of the elastic modulus of the tile-adhesive and joint grout mortars

Silva¹,

Sequeira²,

Melo

et al. 2020

Proceedings of the Institution of Mechanical Engineers, Part L:

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The application of ceramic elements in exterior environments such as facades and floors is a common practice, even when more compliant supports are applied. Such conditions naturally conduct to significant stress increase at the level of the system bonding of ceramic elements. For example, thermal differential expansions in the different materials as result of the temperature gradient from the external surface up to internal layers can build-up stresses at the interfaces, in a magnitude level in excess of the bonding stresses binding them. A proposed finite element modeling was applied in previous works, in which the temperature field distribution from the origin of the thermal source induces a temperature variation carried out incrementally in the simulation. A temperature gradient is assumed from the exposed face, through the elements interfaces until the internal ceramic-adhesive mass. Using the same numerical model, this research led to the evaluation of the equivalent von Mises thermal stress criterion. Adopting different elastic modulus combinations for the tile adhesive and the joint grout, it is recognized how much this property can impact the final stresses and contribute to the best option about the field of application. In fact, independently from the adopted conditions, it is shown that best joint performance is particularly achieved when elastic modulus of the joint grout has lower values, such as 0.1 GPa. On another hand, other key parameters are also very relevant, as the case of the joint width and the support rigidity level.

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Section: Resultsmentioning

confidence: 99%

The evaluation of von Mises stress field in bonded tiling ceramics as function of the elastic modulus of the tile-adhesive and joint grout mortars

Silva¹,

Sequeira²,

Melo

et al. 2020

Proceedings of the Institution of Mechanical Engineers, Part L:

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“…The tensile adhesion strength test is widely used in construction, as is the pull-off technique. Variability of the pull-off method for adhesion strength evaluation is known [ 53 ]. Measurement of tensile adhesion strength represents a destructive test.…”

Section: Discussionmentioning

confidence: 99%

Construction Products between Testing Laboratory and Market Surveillance: Case study of Cementitious Ceramic Tile Adhesives

Stancu¹,

Dębski²,

Michalak³

2022

Materials

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This article presents the results of the interlaboratory comparison (ILC) study of the following four characteristics of ceramic tile adhesives (CTAs): initial tensile adhesion strength, tensile adhesion strength after heat ageing, tensile adhesion strength after immersion in water, and tensile adhesion strength after freeze–thaw cycles. The results showed that the objective of the ILC was achieved—the z-score analysis carried out following ISO 13528 allowed for classifying all results obtained by 23 laboratories out of 27 as satisfactory. The results of the remaining four laboratories were rated worse. Despite the achieved goal, the ILC notes high heterogeneity of the results in terms of failure patterns, as well as significant differences between the lowest and the highest values of tensile adhesion strength for various measurement conditions. The results of the ILC were discussed in terms of the possibility of including them in the risk analysis conducted by the manufacturer. The results of the ILC are also valuable information for market surveillance authorities, who, in the authors’ opinion, should be more cautious about results on samples taken from the market. The ILC results for CTAs are also a valuable recommendation for a possible revision of EN 12004.

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“…In the authors' opinion, the research method proposed by them corresponds well to the real effects that the cementitious CTAs are subjected to under operating conditions. Similarly to other experimental tests, the determination of the tensile adhesion strength is characterized by the dispersion of the obtained results [21][22][23].…”

Section: Requirement Test Methodsmentioning

confidence: 99%

Assessment of the Constancy of Performance of Cementitious Adhesives for Ceramic Tiles: Analysis of the Test Results Commissioned by Polish Market Surveillance Authorities

Łukasik¹,

Michalak²

2020

Applied Sciences

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Assessment and verification of constancy of performance (AVCP) is a complex process. Without it, the manufacturer cannot mark the product with the Conformitè Europëenne (CE) marking and place it on the EU market. The verification of the correctness of the AVCP is carried out by market surveillance. In Poland, supervision authorities regularly check manufacturers by collecting construction products that exist on the market for inspection. Among the dry-mix mortars, adhesives for ceramic tiles (CTA) constitute an essential group. The requirements for CTAs are specified in EN 12004. According to the standard, the basic characteristics of cementitious CTAs are tensile adhesion strength and open time. The adhesion measurements are performed after various laboratory conditions tests. The study analyzes the results obtained for 129 samples of cementitious CTAs, collected between the years 2016 and 2019 from the market, and tested in notified laboratories at the request of Polish construction supervision authorities. Many tested products did not meet the threshold values, which resulted in removing them from the market. The paper discusses the complexity of the tensile adhesion strength measurement. The obtained test results are considered in various dimensions, including using the simple acceptance rule method when evaluating the results, which does not consider the measurement uncertainty.

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Variability of the Pull-off Technique for Adhesion Strength Evaluation on Ceramic Tile Claddings

Cited by 16 publications

References 14 publications

The evaluation of von Mises stress field in bonded tiling ceramics as function of the elastic modulus of the tile-adhesive and joint grout mortars

The evaluation of von Mises stress field in bonded tiling ceramics as function of the elastic modulus of the tile-adhesive and joint grout mortars

Construction Products between Testing Laboratory and Market Surveillance: Case study of Cementitious Ceramic Tile Adhesives

Assessment of the Constancy of Performance of Cementitious Adhesives for Ceramic Tiles: Analysis of the Test Results Commissioned by Polish Market Surveillance Authorities

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