dr hab. inż. Maciej Szeląg, prof. uczelni
Dyscyplina:
inżynieria lądowa, geodezja i transport
Artykuły z 2025 (5)
1. Mechanistic–empirical porosity model for basalt powder-cement pastes under thermal load conditions / Patryk Rumiński, Maciej Szeląg // Construction and Building Materials.- 2025, vol. 492, s. 1-18 [MNiSW: 140]
2. Microstructure transformation of MCM-41 modified cement paste subjected to thermal load and modelling of its pore size distribution / Maciej Szeląg, Patryk Rumiński, Rafał Panek // Cement and Concrete Composites.- 2025, vol. 157, s. 1-21 [MNiSW: 200]
3. Recommendation of RILEM TC 269-IAM: damage assessment in consideration of repair/retrofit-recovery in concrete and masonry structures by means of innovative NDT / Tomoki Shiotani, Kazuo Watabe, Dimitrios Aggelis, Michale C. Forde, Tetsuya Suzuki, Takeshi Watanabe, Giuseppe Lacidogna, Hwa Kian Chai, Kentaro Ohno, Eleni Tsangouri, Norihiko Ogura, Charlotte Van Steen, Els Verstrynge, Maciej Szeląg, Sławomir Czarnecki, Tanvir Qureshi, Katsufumi Hashimoto, Eric Landis, Ana Bruncic, Yuguang Yang, Nobuhiro Okude // Materials and Structures.- 2025, vol. 58, nr 69, s. 1-9 [MNiSW: 100]
4. Recommendation of RILEM TC 269‑IAM: damage assessment in consideration of repair/retrofit‑recovery in concrete and masonry structures by means of innovative NDT : methods for damage assessment of concrete members utilizing active elastic wave measurements / Tomoki Shiotani, Dimitrios G. Aggelis, Kazuo Watabe, Michael C. Forde, Tetsuya Suzuki, Takeshi Watanabe, Giuseppe Lacidogna, Hwa Kian Chai, Kentaro Ohno, Eleni Tsangouri, Norihiko Ogura, Charlotte Van Steen, Els Verstrynge, Maciej Szeląg, Sławomir Czarnecki, Tanvir Qureshi, Katsufumi Hashimoto, Eric N. Landis, Ana Bruncic, Yuguang Yang, Nobuhiro Okude // Materials and Structures.- 2025, vol. 25, s. 1-8 [MNiSW: 100]
5. The Impact of the High-Energy Grinding of Wood Ash on Its Pozzolanic Activity / Ece Ezgi Teker Ercan, Rafał Panek, Maciej Szeląg, Andrzej Cwirzen and Karin Habermehl-Cwirzen // Materials.- 2025, vol. 18, nr 13, s. 1-28 [MNiSW: 140]
Artykuły z 2024 (2)
1. Macro- and microstructural evolution of cement paste modified with MWCNTs under thermal shock conditions / Maciej Szeląg, Magdalena Rajczakowska, Patryk Rumiński, Wojciech Franus, Andrzej Cwirzen // Journal of Building Engineering.- 2024, vol. 93, s. 1-19 [MNiSW: 140]
2. Modification of the polymeric admixture based on polycarboxylate ether using silica-derived secondary materials obtained from fly ash and the efficiency of its application in concrete / Małgorzata Grzegorczyk-Frańczak, Martyna Janek, Maciej Szeląg, Rafał Panek, Kalina Materak // Case Studies in Construction Materials.- 2024, vol. 21, s. 1-17 [MNiSW: 100]
Artykuły z 2023 (6)
1. Autogenous self-healing of thermally damaged cement paste with carbon nanomaterials subjected to different environmental stimulators / Magdalena Rajczakowska, Maciej Szeląg, Karin Habermehl-Cwirzen, Hans Hedlund, Andrzej Cwirzen // Journal of Building Engineering.- 2023, vol. 72, s. 1-22 [MNiSW: 140]
2. Immobilization of (bio-)healing agents for self-healing concrete technology: Does it really ensure long-term performance? / Joanna Fronczyk, Martyna Janek, Maciej Szeląg, Adam Pyzik, Wojciech Franus // Composites Part B-Engineering.- 2023, vol. 266, s. 1-35 [MNiSW: 200]
3. Interpretable Machine Learning for Prediction of Post-Fire Self-Healing of Concrete / Magdalena Rajczakowska, Maciej Szeląg, Karin Habermehl-Cwirzen, Hans Hedlund and Andrzej Cwirzen // Materials.- 2023, vol. 16, nr 3, s. 1-29 [MNiSW: 140]
4. Is cement paste modified with carbon nanomaterials capable of self-repair after a fire? / Magdalena Rajczakowska, Maciej Szeląg, Karin Habermehl-Cwirzen, Hans Hedlund and Andrzej Cwirzen // Nordic Concrete Research.- 2023, vol. 67, nr 2, s. 79-97 [MNiSW: 20]
5. Porcelain Tile Polishing Residue in Concrete as an Additive or Replacement for Portland Cement / Humberto Mycael Mota Santos, Lidiane Fernanda Jochem, Paulo Ricardo de Matos, Cézar Augusto Casagrande, Érika Pinto Marinho, Maciej Szeląg and Ana Cecília Vieira de Nóbrega // Applied Sciences.- 2023, vol. 13, nr 5, s. 1-19 [MNiSW: 100]
6. Thermally induced cracking patterns of the MWCNTs modified cement paste / Maciej Szeląg, Magdalena Rajczakowska, Patryk Rumiński, Andrzej Cwirzen // Construction and Building Materials.- 2023, vol. 408, s. 1-10 [MNiSW: 140]
Artykuły z 2022 (6)
1. Advanced interactions of cement-based materials with microorganisms: A review and future perspective / Natt Makul, Roman Fediuk, Maciej Szeląg // Journal of Building Engineering.- 2022, vol. 45, s. 1-17 [MNiSW: 140]
2. Cement Matrix Modified by Mesoporous Silica of the MCM-41 Structure Type: Early-Age Properties and Microstructure Evolution / Maciej Szeląg, Rafał Panek, Jarosław Madej, Roman Fediuk // Journal of Materials in Civil Engineering.- 2022, vol. 34, nr 9 [MNiSW: 100]
3. Diatomite and Na-X zeolite as carriers for bacteria in self-healing cementitious mortars / Martyna Janek, Joanna Fronczyk, Adam Pyzik, Maciej Szeląg, Rafał Panek, Wojciech Franus // Construction and Building Materials.- 2022, vol. 343, s. 1-16 [MNiSW: 140]
4. Evaluating the Feasibility of Using Brick Powder and Clay Powder in Cement Replacement / Patryk Rumiński, Maciej Szeląg and Paulo de Matos // Materials.- 2022, vol. 15, nr 22, s. 1-18 [MNiSW: 140]
5. Modification of the MCM-41 mesoporous silica and its influence on the hydration and properties of a cement matrix / Maciej Szeląg, Martyna Janek, Rafał Panek, Jarosław Madej, Joanna Fronczyk // Construction and Building Materials.- 2022, vol. 344, s. 1-15 [MNiSW: 140]
6. The application of NDT techniques to examination of thermally-induced cracking patterns of brick powder-Portland cement matrix / Maciej Szeląg // Developments in the Built Environment.- 2022, vol. 12, s. 1-15 [MNiSW: 20]
Artykuły z 2021 (8)
1. Application of Plastic Wastes in Construction Materials: a Review Using the Concept of Life-Cycle Assessment in the Context of Recent Research for Future Perspectives / Tulane Rodrigues da Silva, Afonso Rangel Garcez de Azevedo, Daiane Cecchin, Markssuel Teixeira Marvila, Mugahed Amran, Roman Fediuk, Nikolai Vatin, Maria Karelina, Sergey Klyuev and Maciej Szeląg // Materials.- 2021, vol. 14, nr 13, s. 1-19 [MNiSW: 140]
2. Effect of the MCM-41 mesoporous silica on the microstructure and performance of cement matrix / Rafał Panek, Maciej Szeląg, Wojciech Franus // Journal of Building Engineering.- 2021, vol. 44, s. 1-16 [MNiSW: 140]
3. Effects of Steel Fibers (SF) and Ground Granulated Blast Furnace Slag (GGBS) on Recycled Aggregate Concrete / Jawad Ahmad, Rebeca Martínez-García, Maciej Szeląg, Jesús de-Prado-Gil, Riadh Marzouki, Muwaffaq Alqurashi and Enas E. Hussein // Materials.- 2021, vol. 14, nr 24, s. 1-23 [MNiSW: 140]
4. Increase the Performances of Lime Finishing Mixes Due to Modification with Calcium Silicate Hydrates / Valentina Loganina, Kristina Sergeeva, Roman Fediuk, Valery Uvarov, Nikolai Vatin, Yuriy Vasilev, Mugahed Amran and Maciej Szeląg // Crystals.- 2021, vol. 11, nr 4, s. 1-21 [MNiSW: 70]
5. Intelligent prediction modeling of the post-heating mechanical performance of the brick powder modified cement paste based on the cracking patterns properties / Maciej Szeląg // Case Studies in Construction Materials.- 2021, vol. 15, s. 1-15 [MNiSW: 100]
6. Nano- and Micro-Modification of Building Reinforcing Bars of Various Types / Aleksandr Rudenko, Alexander Biryukov, Oleg Kerzhentsev, Roman Fediuk, Nikolai Vatin, Yuriy Vasilev, Sergey Klyuev, Mugahed Amran and Maciej Szeląg // Crystals.- 2021, vol. 11, nr 4, s. 1-11 [MNiSW: 70]
7. Properties and Strength Prediction Modeling of Green Mortar with Brick Powder Subjected to a Short-Term Thermal Shock at Elevated Temperatures / Maciej Szeląg, Joanna Styczeń, Roman Fediuk and Renata Polak // Materials.- 2021, vol. 14, nr 21, s. 1-19 [MNiSW: 140]
8. Utilization of Thermally Treated SiC Nanowhiskers and Superplasticizer for Cementitious Composite Production / Nagilla Azevedo, José Andrade Neto, Paulo de Matos, Andrea Betioli, Maciej Szeląg and Philippe Gleize // Materials.- 2021, vol. 14, nr 15, s. 1-12 [MNiSW: 140]
Artykuły z 2020 (4)
1. Application of an Automated Digital Image-Processing Method for Quantitative Assessment of Cracking Patterns in a Lime Cement Matrix / Maciej Szeląg // Sensors.- 2020, vol. 20, nr 14, s. 1-24 [MNiSW: 100]
2. Evaluation of Cracking Patterns in Cement Composites—from Basics to Advances: a Review / Maciej Szeląg // Materials.- 2020, vol. 13, nr 11, s. 1-26 [MNiSW: 140]
3. Fractal characterization of thermal cracking patterns and fracture zone in low-alkali cement matrix modified with microsilica / Maciej Szeląg // Cement and Concrete Composites.- 2020, vol. 114, s. 1-14 [MNiSW: 200]
4. Physico-Mechanical and Rheological Properties of Epoxy Adhesives Modified by Microsilica and Sonication Process / Andrzej Szewczak and Maciej Szeląg // Materials.- 2020, vol. 13, nr 23, s. 1-20 [MNiSW: 140]
Artykuły z 2019 (7)
1. Dependencies between cracking patterns and the physico-mechanical properties of microsilica modified cement matrix / M. Szeląg and A. Szewczak // IOP Conference Series : Materials Science and Engineering.- 2019, vol. 484, nr 1, s. 1-7 [MNiSW: 5]
2. Evaluation of cracking patterns of cement paste containing polypropylene fibers / Maciej Szeląg // Composite Structures.- 2019, vol. 220, s. 402-411 [MNiSW: 140]
3. Evaluation of Dependencies between Physico-Mechanical Properties and the Thermal Cracks' Geometry of Cement Pastes Modified with Metakaolinite Using the LSM Method / Maciej Szeląg, Andrzej Szewczak // IOP Conference Series : Materials Science and Engineering.- 2019, vol. 471, s. 1-9 [MNiSW: 5]
4. Modifications of epoxy resins and their Influence on their viscosity / Andrzej Szewczak and Maciej Szeląg // IOP Conference Series : Materials Science and Engineering.- 2019, vol. 471, s. 1-9 [MNiSW: 5]
5. Properties of Cracking Patterns of Multi-Walled Carbon Nanotube-Reinforced Cement Matrix / Maciej Szeląg // Materials.- 2019, vol. 12, nr 18, s. 1-21 [MNiSW: 140]
6. The Use of Fragmented, Worn-Out Car Side Windows as an Aggregate for Cementitious Composites / Maciej Szeląg, Bartosz Zegardło, Wojciech Andrzejuk // Materials.- 2019, vol. 12, nr 9, s. 1-18 [MNiSW: 140]
7. Viscosity and free surface energy as parameters describing the adhesion of the epoxy resin to the substrate / A. Szewczak and M. Szeląg // IOP Conference Series : Materials Science and Engineering.- 2019, vol. 484, nr 1, s. 1-7 [MNiSW: 5]
Artykuły z 2018 (5)
1. Concrete resistant to spalling made with recycled aggregate from sanitary ceramic wastes – The effect of moisture and porosity on destructive processes occurring in fire conditions / Bartosz Zegardło, Maciej Szeląg, Paweł Ogrodnik // Construction and Building Materials.- 2018, vol. 173, s. 58-68 [MNiSW: 40]
2. Development of cracking patterns in modified cement matrix with microsilica / Maciej Szeląg // Materials.- 2018, vol. 11, nr 10, s. 1-19 [MNiSW: 35]
3. Influence of specimen’s shape and size on the thermal cracks’ geometry of cement paste / Maciej Szeląg // Construction and Building Materials.- 2018, vol. 189, s. 1155-1172 [MNiSW: 40]
4. Physico-mechanical properties and microstructure of polymer concrete with recycled glass aggregate / Bartosz Zegardło, Maciej Szeląg, Paweł Ogrodnik, Antoni Bombik // Materials.- 2018, vol. 11, nr 7, s. 1-15 [MNiSW: 35]
5. The influence of metakaolinite on the development of thermal cracks in a cement matrix / Maciej Szeląg // Materials.- 2018, vol. 11, nr 4, s. 1-17 [MNiSW: 35]
Artykuły z 2017 (3)
1. Hydrophobization of lime composites with lignocellulosic raw materials from flax / Przemysław Brzyski, Danuta Barnat-Hunek, Stanisław Fic, Maciej Szeląg // Journal of Natural Fibers.- 2017, vol. 14, nr 5, s. 609-620 [MNiSW: 25]
2. Mechano-physical properties and microstructure of carbon nanotube reinforced cement paste after thermal load / Maciej Szeląg // Nanomaterials.- 2017, vol. 7, nr 9, s. 1-22 [MNiSW: 35]
3. The use of heat-resistant concrete made with ceramic sanitary ware waste for a thermal energy storage / Paweł Ogrodnik, Bartosz Zegardło, Maciej Szeląg // Applied Sciences.- 2017, vol. 7, nr 12, s. 1-16 [MNiSW: 25]
Artykuły z 2016 (2)
1. Osiedlowe garaże podziemne - przykłady błędów projektowych i wykonawczych oraz propozycji napraw / Andrzej Szewczak, Maciej Szeląg // Przegląd Budowlany.- 2016, nr 3, s. 25-30 [MNiSW: 5]
Artykuły z 2015 (3)
1. Analiza rozwoju spękań klastrowych w zaczynie cementowym modyfikowanym mikrokrzemionką / Maciej Szeląg, Stanisław Fic // Budownictwo i Architektura.- 2015, vol. 14, nr 4, s. 117-127 [MNiSW: 6]
2. Analysis of the development of cluster cracks caused by elevated temperatures in cement paste / Stanisław Fic, Maciej Szeląg // Construction and Building Materials.- 2015, vol. 83, s. 223-229 [MNiSW: 40]
3. Zastosowanie stereologii w inżynierii materiałów budowlanych / Maciej Szeląg, Andrzej Szewczak // Budownictwo i Architektura.- 2015, vol. 14, nr 1, s. 115-125 [MNiSW: 6]
Artykuły z 2014 (1)
1. Problemy eksploatacyjne budynków wielkopłytowych na przykładzie obiektów na terenie Lubelszczyzny / Stanisław Fic, Maciej Szeląg, Andrzej Szewczak // Budownictwo i Architektura.- 2014, vol. 13, nr 3, s. 7-14 [MNiSW: 3]
Artykuły z 2013 (2)
1. Analiza numeryczna stanu naprężenia i stanu przemieszczenia pustaków stropowych Teriva w schemacie badania wytrzymałości na zginanie wg normy PN-EN 15037-2:2011 / Maciej Szeląg // Przegląd Budowlany.- 2013, nr 11, s. 20-25 [MNiSW: 4]
2. Composite based on foam lime mortar with flax fibers for use in the building industry / Stanisław Fic, Przemysław Brzyski, Maciej Szeląg // Ecological Chemistry and Engineering. A.- 2013, vol. 20, nr 7-8, s. 809-907 [MNiSW: 6]
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