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Showing 1 to 12 of 16 entries
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Non-Destructive Testing of Materials in Civil Engineering.

Materials (Basel, Switzerland)

Schabowicz K.
PMID: 31623301
Materials (Basel). 2019 Oct 03;12(19). doi: 10.3390/ma12193237.

This issue was proposed and organized as a means to present recent developments in the field of non-destructive testing of materials in civil engineering. For this reason, the articles highlighted in this editorial relate to different aspects of non-destructive...

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Schabowicz K. Non-Destructive Testing of Materials in Civil Engineering. Materials (Basel). 2019;12(19)doi: 10.3390/ma12193237.
Schabowicz, K. (2019). Non-Destructive Testing of Materials in Civil Engineering. Materials (Basel, Switzerland), 12(19), . https://doi.org/10.3390/ma12193237
Schabowicz, Krzysztof. "Non-Destructive Testing of Materials in Civil Engineering." Materials (Basel, Switzerland) vol. 12,19 (2019). doi: https://doi.org/10.3390/ma12193237
Schabowicz K. Non-Destructive Testing of Materials in Civil Engineering. Materials (Basel). 2019 Oct 03;12(19). doi: 10.3390/ma12193237. PMID: 31623301; PMCID: PMC6804297.
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Testing of Materials and Elements in Civil Engineering.

Materials (Basel, Switzerland)

Schabowicz K.
PMID: 34203022
Materials (Basel). 2021 Jun 20;14(12). doi: 10.3390/ma14123412.

This issue is proposed and organized as a means to present recent developments in the field of testing of materials in civil engineering. For this reason, the articles highlighted in this issue should relate to different aspects of testing...

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Schabowicz K. Testing of Materials and Elements in Civil Engineering. Materials (Basel). 2021;14(12)doi: 10.3390/ma14123412.
Schabowicz, K. (2021). Testing of Materials and Elements in Civil Engineering. Materials (Basel, Switzerland), 14(12), . https://doi.org/10.3390/ma14123412
Schabowicz, Krzysztof. "Testing of Materials and Elements in Civil Engineering." Materials (Basel, Switzerland) vol. 14,12 (2021). doi: https://doi.org/10.3390/ma14123412
Schabowicz K. Testing of Materials and Elements in Civil Engineering. Materials (Basel). 2021 Jun 20;14(12). doi: 10.3390/ma14123412. PMID: 34203022; PMCID: PMC8234144.
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The Recognition of the Micro-Events in Cement Composites and the Identification of the Destruction Process Using Acoustic Emission and Sound Spectrum.

Materials (Basel, Switzerland)

Logoń D, Schabowicz K.
PMID: 32635571
Materials (Basel). 2020 Jul 04;13(13). doi: 10.3390/ma13132988.

This paper presents the recognition of micro-events and their concentration in quasi-brittle cement composites and the identification of the destruction process based on acoustic emission and sound spectrum. The tests were conducted on a quasi-brittle composite of a cement...

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Logoń D, Schabowicz K. The Recognition of the Micro-Events in Cement Composites and the Identification of the Destruction Process Using Acoustic Emission and Sound Spectrum. Materials (Basel). 2020;13(13)doi: 10.3390/ma13132988.
Logoń, D., & Schabowicz, K. (2020). The Recognition of the Micro-Events in Cement Composites and the Identification of the Destruction Process Using Acoustic Emission and Sound Spectrum. Materials (Basel, Switzerland), 13(13), . https://doi.org/10.3390/ma13132988
Logoń, Dominik, and Schabowicz, Krzysztof. "The Recognition of the Micro-Events in Cement Composites and the Identification of the Destruction Process Using Acoustic Emission and Sound Spectrum." Materials (Basel, Switzerland) vol. 13,13 (2020). doi: https://doi.org/10.3390/ma13132988
Logoń D, Schabowicz K. The Recognition of the Micro-Events in Cement Composites and the Identification of the Destruction Process Using Acoustic Emission and Sound Spectrum. Materials (Basel). 2020 Jul 04;13(13). doi: 10.3390/ma13132988. PMID: 32635571; PMCID: PMC7372360.
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Mechanical and Non-Destructive Testing of Plasterboards Subjected to a Hydration Process.

Materials (Basel, Switzerland)

Ranachowski Z, Ranachowski P, Dębowski T, Brodecki A, Kopec M, Roskosz M, Fryczowski K, Szymków M, Krawczyk E, Schabowicz K.
PMID: 32456173
Materials (Basel). 2020 May 23;13(10). doi: 10.3390/ma13102405.

The aim of this study was to investigate the effect of plasterboards' humidity absorption on their performance. Specimens' hydration procedure consisted of consecutive immersing in water and subsequent drying at room temperature. Such a procedure was performed to increase...

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Ranachowski Z, Ranachowski P, Dębowski T, et al. Mechanical and Non-Destructive Testing of Plasterboards Subjected to a Hydration Process. Materials (Basel). 2020;13(10)doi: 10.3390/ma13102405.
Ranachowski, Z., Ranachowski, P., Dębowski, T., Brodecki, A., Kopec, M., Roskosz, M., Fryczowski, K., Szymków, M., Krawczyk, E., & Schabowicz, K. (2020). Mechanical and Non-Destructive Testing of Plasterboards Subjected to a Hydration Process. Materials (Basel, Switzerland), 13(10), . https://doi.org/10.3390/ma13102405
Ranachowski, Zbigniew, et al. "Mechanical and Non-Destructive Testing of Plasterboards Subjected to a Hydration Process." Materials (Basel, Switzerland) vol. 13,10 (2020). doi: https://doi.org/10.3390/ma13102405
Ranachowski Z, Ranachowski P, Dębowski T, Brodecki A, Kopec M, Roskosz M, Fryczowski K, Szymków M, Krawczyk E, Schabowicz K. Mechanical and Non-Destructive Testing of Plasterboards Subjected to a Hydration Process. Materials (Basel). 2020 May 23;13(10). doi: 10.3390/ma13102405. PMID: 32456173; PMCID: PMC7288319.
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Reduction of Load Capacity of Fiber Cement Board Facade Cladding under the Influence of Fire.

Materials (Basel, Switzerland)

Schabowicz K, Sulik P, Zawiślak Ł.
PMID: 33916697
Materials (Basel). 2021 Apr 03;14(7). doi: 10.3390/ma14071769.

The paper analyzes the issue of the reduction of load capacity in fiber cement board during a fire. Fiber cement boards were put under the influence of fire by using a large-scale facade model. Such a model is a...

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Schabowicz K, Sulik P, Zawiślak Ł. Reduction of Load Capacity of Fiber Cement Board Facade Cladding under the Influence of Fire. Materials (Basel). 2021;14(7)doi: 10.3390/ma14071769.
Schabowicz, K., Sulik, P., & Zawiślak, �. �. (2021). Reduction of Load Capacity of Fiber Cement Board Facade Cladding under the Influence of Fire. Materials (Basel, Switzerland), 14(7), . https://doi.org/10.3390/ma14071769
Schabowicz, Krzysztof, et al. "Reduction of Load Capacity of Fiber Cement Board Facade Cladding under the Influence of Fire." Materials (Basel, Switzerland) vol. 14,7 (2021). doi: https://doi.org/10.3390/ma14071769
Schabowicz K, Sulik P, Zawiślak Ł. Reduction of Load Capacity of Fiber Cement Board Facade Cladding under the Influence of Fire. Materials (Basel). 2021 Apr 03;14(7). doi: 10.3390/ma14071769. PMID: 33916697; PMCID: PMC8038406.
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Identification of the Degree of Degradation of Fibre-Cement Boards Exposed to Fire by Means of the Acoustic Emission Method and Artificial Neural Networks.

Materials (Basel, Switzerland)

Schabowicz K, Gorzelańczyk T, Szymków M.
PMID: 30795618
Materials (Basel). 2019 Feb 21;12(4). doi: 10.3390/ma12040656.

This paper presents the results of research aimed at identifying the degree of degradation of fibre-cement boards exposed to fire. The fibre-cement board samples were initially exposed to fire at various durations in the range of 1⁻15 min. The...

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Schabowicz K, Gorzelańczyk T, Szymków M. Identification of the Degree of Degradation of Fibre-Cement Boards Exposed to Fire by Means of the Acoustic Emission Method and Artificial Neural Networks. Materials (Basel). 2019;12(4)doi: 10.3390/ma12040656.
Schabowicz, K., Gorzelańczyk, T., & Szymków, M. (2019). Identification of the Degree of Degradation of Fibre-Cement Boards Exposed to Fire by Means of the Acoustic Emission Method and Artificial Neural Networks. Materials (Basel, Switzerland), 12(4), . https://doi.org/10.3390/ma12040656
Schabowicz, Krzysztof, et al. "Identification of the Degree of Degradation of Fibre-Cement Boards Exposed to Fire by Means of the Acoustic Emission Method and Artificial Neural Networks." Materials (Basel, Switzerland) vol. 12,4 (2019). doi: https://doi.org/10.3390/ma12040656
Schabowicz K, Gorzelańczyk T, Szymków M. Identification of the Degree of Degradation of Fibre-Cement Boards Exposed to Fire by Means of the Acoustic Emission Method and Artificial Neural Networks. Materials (Basel). 2019 Feb 21;12(4). doi: 10.3390/ma12040656. PMID: 30795618; PMCID: PMC6416600.
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Investigation of Structural Degradation of Fiber Cement Boards Due to Thermal Impact.

Materials (Basel, Switzerland)

Ranachowski Z, Ranachowski P, Dębowski T, Gorzelańczyk T, Schabowicz K.
PMID: 30901864
Materials (Basel). 2019 Mar 21;12(6). doi: 10.3390/ma12060944.

The aim of the present study was to investigate the degradation of the microstructure and mechanical properties of fiber cement board (FCB), which was exposed to environmental hazards, resulting in thermal impact on the microstructure of the board. The...

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Ranachowski Z, Ranachowski P, Dębowski T, et al. Investigation of Structural Degradation of Fiber Cement Boards Due to Thermal Impact. Materials (Basel). 2019;12(6)doi: 10.3390/ma12060944.
Ranachowski, Z., Ranachowski, P., Dębowski, T., Gorzelańczyk, T., & Schabowicz, K. (2019). Investigation of Structural Degradation of Fiber Cement Boards Due to Thermal Impact. Materials (Basel, Switzerland), 12(6), . https://doi.org/10.3390/ma12060944
Ranachowski, Zbigniew, et al. "Investigation of Structural Degradation of Fiber Cement Boards Due to Thermal Impact." Materials (Basel, Switzerland) vol. 12,6 (2019). doi: https://doi.org/10.3390/ma12060944
Ranachowski Z, Ranachowski P, Dębowski T, Gorzelańczyk T, Schabowicz K. Investigation of Structural Degradation of Fiber Cement Boards Due to Thermal Impact. Materials (Basel). 2019 Mar 21;12(6). doi: 10.3390/ma12060944. PMID: 30901864; PMCID: PMC6471686.
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Identification of the Destruction Model of Ventilated Facade under the Influence of Fire.

Materials (Basel, Switzerland)

Schabowicz K, Sulik P, Zawiślak Ł.
PMID: 32455908
Materials (Basel). 2020 May 22;13(10). doi: 10.3390/ma13102387.

Ventilated facades are becoming an increasingly popular solution for external part of walls in the buildings. They may differ in many elements, among others things: claddings (fiber cement boards, HPL plates, large-slab ceramic tiles, ACM panels, stone cladding), types...

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Schabowicz K, Sulik P, Zawiślak Ł. Identification of the Destruction Model of Ventilated Facade under the Influence of Fire. Materials (Basel). 2020;13(10)doi: 10.3390/ma13102387.
Schabowicz, K., Sulik, P., & Zawiślak, �. �. (2020). Identification of the Destruction Model of Ventilated Facade under the Influence of Fire. Materials (Basel, Switzerland), 13(10), . https://doi.org/10.3390/ma13102387
Schabowicz, Krzysztof, et al. "Identification of the Destruction Model of Ventilated Facade under the Influence of Fire." Materials (Basel, Switzerland) vol. 13,10 (2020). doi: https://doi.org/10.3390/ma13102387
Schabowicz K, Sulik P, Zawiślak Ł. Identification of the Destruction Model of Ventilated Facade under the Influence of Fire. Materials (Basel). 2020 May 22;13(10). doi: 10.3390/ma13102387. PMID: 32455908; PMCID: PMC7287964.
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Assessment of the Mechanical Properties of ESD Pseudoplastic Resins for Joints in Working Elements of Concrete Structures.

Materials (Basel, Switzerland)

Logoń D, Schabowicz K, Wróblewski K.
PMID: 32466358
Materials (Basel). 2020 May 26;13(11). doi: 10.3390/ma13112426.

Concrete structure joints are filled in mainly in the course of sealing works ensuring protection against the influence of water. This paper presents the methodology of testing the mechanical properties of ESD pseudoplastic resins (E-elastic deformation, S-strengthening control, D-deflection...

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Logoń D, Schabowicz K, Wróblewski K. Assessment of the Mechanical Properties of ESD Pseudoplastic Resins for Joints in Working Elements of Concrete Structures. Materials (Basel). 2020;13(11)doi: 10.3390/ma13112426.
Logoń, D., Schabowicz, K., & Wróblewski, K. (2020). Assessment of the Mechanical Properties of ESD Pseudoplastic Resins for Joints in Working Elements of Concrete Structures. Materials (Basel, Switzerland), 13(11), . https://doi.org/10.3390/ma13112426
Logoń, Dominik, et al. "Assessment of the Mechanical Properties of ESD Pseudoplastic Resins for Joints in Working Elements of Concrete Structures." Materials (Basel, Switzerland) vol. 13,11 (2020). doi: https://doi.org/10.3390/ma13112426
Logoń D, Schabowicz K, Wróblewski K. Assessment of the Mechanical Properties of ESD Pseudoplastic Resins for Joints in Working Elements of Concrete Structures. Materials (Basel). 2020 May 26;13(11). doi: 10.3390/ma13112426. PMID: 32466358; PMCID: PMC7321321.
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The Increase in the Elastic Range and Strengthening Control of Quasi Brittle Cement Composites by Low-Module Dispersed Reinforcement: An Assessment of Reinforcement Effects.

Materials (Basel, Switzerland)

Logoń D, Schabowicz K, Roskosz M, Fryczowski K.
PMID: 33445469
Materials (Basel). 2021 Jan 12;14(2). doi: 10.3390/ma14020341.

This paper presents the possibility of using low-module polypropylene dispersed reinforcement (E = 4.9 GPa) to influence the load-deflection correlation of cement composites. Problems have been indicated regarding the improvement of elastic range by using that type of fibre...

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Logoń D, Schabowicz K, Roskosz M, et al. The Increase in the Elastic Range and Strengthening Control of Quasi Brittle Cement Composites by Low-Module Dispersed Reinforcement: An Assessment of Reinforcement Effects. Materials (Basel). 2021;14(2)doi: 10.3390/ma14020341.
Logoń, D., Schabowicz, K., Roskosz, M., & Fryczowski, K. (2021). The Increase in the Elastic Range and Strengthening Control of Quasi Brittle Cement Composites by Low-Module Dispersed Reinforcement: An Assessment of Reinforcement Effects. Materials (Basel, Switzerland), 14(2), . https://doi.org/10.3390/ma14020341
Logoń, Dominik, et al. "The Increase in the Elastic Range and Strengthening Control of Quasi Brittle Cement Composites by Low-Module Dispersed Reinforcement: An Assessment of Reinforcement Effects." Materials (Basel, Switzerland) vol. 14,2 (2021). doi: https://doi.org/10.3390/ma14020341
Logoń D, Schabowicz K, Roskosz M, Fryczowski K. The Increase in the Elastic Range and Strengthening Control of Quasi Brittle Cement Composites by Low-Module Dispersed Reinforcement: An Assessment of Reinforcement Effects. Materials (Basel). 2021 Jan 12;14(2). doi: 10.3390/ma14020341. PMID: 33445469; PMCID: PMC7826924.
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Tests of Fiber Cement Materials Containing Recycled Cellulose Fibers.

Materials (Basel, Switzerland)

Gorzelańczyk T, Schabowicz K, Szymków M.
PMID: 32570716
Materials (Basel). 2020 Jun 18;13(12). doi: 10.3390/ma13122758.

This paper presents the results of investigations into the effect of the use of recycled waste paper cellulose fibers on the properties of fiber cement boards subjected to contamination by moisture. Four series of fiber cement boards were tested....

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Gorzelańczyk T, Schabowicz K, Szymków M. Tests of Fiber Cement Materials Containing Recycled Cellulose Fibers. Materials (Basel). 2020;13(12)doi: 10.3390/ma13122758.
Gorzelańczyk, T., Schabowicz, K., & Szymków, M. (2020). Tests of Fiber Cement Materials Containing Recycled Cellulose Fibers. Materials (Basel, Switzerland), 13(12), . https://doi.org/10.3390/ma13122758
Gorzelańczyk, Tomasz, et al. "Tests of Fiber Cement Materials Containing Recycled Cellulose Fibers." Materials (Basel, Switzerland) vol. 13,12 (2020). doi: https://doi.org/10.3390/ma13122758
Gorzelańczyk T, Schabowicz K, Szymków M. Tests of Fiber Cement Materials Containing Recycled Cellulose Fibers. Materials (Basel). 2020 Jun 18;13(12). doi: 10.3390/ma13122758. PMID: 32570716; PMCID: PMC7344779.
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Evaluation of Ferromagnetic Steel Hardness Based on an Analysis of the Barkhausen Noise Number of Events.

Materials (Basel, Switzerland)

Roskosz M, Fryczowski K, Schabowicz K.
PMID: 32365574
Materials (Basel). 2020 Apr 29;13(9). doi: 10.3390/ma13092059.

Measurements are carried out of the Barkhausen noise (BN) and hardness on specimens where changes in hardness were obtained due to strain hardening (S235 and DC01 steels) and due to thermochemical treatment (AMS 6414 steel). A method is presented...

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Roskosz M, Fryczowski K, Schabowicz K. Evaluation of Ferromagnetic Steel Hardness Based on an Analysis of the Barkhausen Noise Number of Events. Materials (Basel). 2020;13(9)doi: 10.3390/ma13092059.
Roskosz, M., Fryczowski, K., & Schabowicz, K. (2020). Evaluation of Ferromagnetic Steel Hardness Based on an Analysis of the Barkhausen Noise Number of Events. Materials (Basel, Switzerland), 13(9), . https://doi.org/10.3390/ma13092059
Roskosz, Maciej, et al. "Evaluation of Ferromagnetic Steel Hardness Based on an Analysis of the Barkhausen Noise Number of Events." Materials (Basel, Switzerland) vol. 13,9 (2020). doi: https://doi.org/10.3390/ma13092059
Roskosz M, Fryczowski K, Schabowicz K. Evaluation of Ferromagnetic Steel Hardness Based on an Analysis of the Barkhausen Noise Number of Events. Materials (Basel). 2020 Apr 29;13(9). doi: 10.3390/ma13092059. PMID: 32365574; PMCID: PMC7254334.
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Showing 1 to 12 of 16 entries