#air¶

Keywords by Co - Occurrence¶

#print (24) #concrete (18) #effect (7) #property (7) #void (7)

1. Givkashi Mohammad (2025-11)
   Durability of 3D Printed Concrete Containing Air-Entraining Agent:
   Evaluating the Importance of Carbonation Resistance
2. Wang Huai, Li Xiulin, Gong Hao, Xu Jingjie et al. (2025-10)
   Thermal and Mechanical Properties of 3D-Printed Fiber-Reinforced Lightweight Concrete Based on Air Entrainment and Hollow Glass Microspheres
3. Mansouri Abraham, Alsuwaidi Abdulla, Binali Alreem, Binshaqooi Essa et al. (2025-09)
   Conjugate Heat Transfer and U Value Analysis of 3D Concrete Printed Envelopes with Variable‐Thickness Air Cavities in Hot‐Arid Climates
4. Abdelaziz Mohamed, Vukorep Ilija, Mahdy Deena (2025-07)
   Exploring Extreme 3D Printed Clay Overhangs with Integrated Active Hot Air Drying System on Robotic Arm
5. Givkashi Mohammad, Moodi Faramarz, Ramezanianpour Amir (2025-02)
   Effect of Air-Entraining Agent on Hardened Properties of 3D Printed Concrete with Emphasis on Permeability and Air Void Structure
6. Tarhan Yeşim, Şahin Remzi (2024-12)
   The Impact of Air-Entraining on Frost-Endurance in 3D Printed Concrete:
   The Function of Printing Orientation and Curing Process
7. Andrade Rodrigo, Mendoza Reales Oscar, Carvalho Gonzaga e Silva Ana, Fairbairn Eduardo et al. (2024-12)
   Thermal Behavior of Air-Fluid in Triangular Cavities of 3D Printed Concrete Walls
8. Cheibas Ina, Gamote Ringo, Lloret-Fritschi Ena, Arnold Kilian et al. (2024-11)
   3D Printing of a Multi-Performative Facade:
   Assessment of Air Permeability, Water Tightness, Wind Loads, and Impact Resistance
9. Cheibas Ina, Gamote Ringo, Lloret-Fritschi Ena, Arnold Kilian et al. (2024-11)
   3D Printing of a Multi-Performative Building Envelope:
   Assessment of Air-Permeability, Water-Tightness, Wind-Loads, and Impact-Resistance
10. Sorgenfrei Reese, Zandifaez Peyman, Zhou Hongyu, Fiske Michael (2024-10)
    Investigating the Effect of Air-Voids on the Mechanical Properties of 3D Printable Cementitious Composites
11. Maury-Ramírez Aníbal, Rinke Mario, Blom Johan (2024-09)
    Low-Carbon Embodied, Self-Cleaning, and Air-Purifying Building Envelope Components Using TiO2 Photocatalysis, 3D Printing, and Recycling
12. Mahdy Deena, Abdelrahim Marwa, Alatassi Adel (2024-09)
    Assessment of Air-Flow Performance Through Openings in 3D Printed Earthen Structure Using CFD Analysis
13. Srinivas Dodda, Panda Biranchi, Sitharam Thallak (2024-09)
    Comparative Study into the Inter-Layer Bond Strength of 3D Printed Mortar:
    Underwater vs. Air Environments
14. Givkashi Mohammad, Moodi Faramarz, Ramezanianpour Amir (2024-08)
    Effect of Pumping Process on the Properties of 3D Printed Concrete Containing Air-Entraining-Agent
15. Givkashi Mohammad, Tohidloo Mohammad (2024-07)
    The Effect of Freeze-Thaw-Cycles and Sulfuric-Acid-Attack Separately on the Compressive Strength and Microstructure of 3D Printed Air-Entrained Concrete
16. Wang Yang, Qiu Liu-Chao, Chen Song-Gui, Liu Yi (2023-12)
    3D Concrete Printing in Air and Under Water:
    A Comparative Study on the Buildability and Inter-Layer Adhesion
17. Tarhan Yeşim, Şahin Remzi (2023-10)
    The Physicomechanical Behavior and Microstructure of Air-Entrained 3D Printable Concrete
18. Seo Eun-A, Kim Won-Woo, Kim Sung-Wook, Kwon Hongkyu et al. (2023-03)
    Mechanical Properties of 3D Printed Concrete with Coarse Aggregates and Polypropylene-Fiber in the Air and Underwater Environment
19. Mansouri Abraham, Binali Alreem, Aljawi Abdulla, Alhammadi Ahmed et al. (2022-10)
    Thermal Modeling of the Convective Heat-Transfer in the Large Air-Cavities of the 3D Concrete Printed Walls
20. Spuriņa Ella, Šinka Māris, Ziemelis Krists, Vanags Andris et al. (2022-09)
    The Effects of Air-Entraining Agent on Fresh and Hardened Properties of 3D Concrete
21. Chang Ze, Wan Zhi, Xu Yading, Schlangen Erik et al. (2022-06)
    Convolutional Neural Network for Predicting Crack-Pattern and Stress-Crack-Width Curve of Air-Void Structure in 3D Printed Concrete
22. Das Arnesh, Song Yu, Mantellato Sara, Wangler Timothy et al. (2022-04)
    Effect of Processing on the Air-Void System of 3D Printed Concrete
23. Eugenin Claudia, Navarrete Iván, Brevis Wernher, Lopez Mauricio (2022-02)
    Air-Bubbles as an Admixture for Printable Concrete:
    A Review of the Rheological Effect of Entrained Air
24. Woo Seong-Jin, Yang Jun-Mo, Lee Hojae, Kwon Hongkyu (2021-10)
    Comparison of Properties of 3D Printed Mortar in Air vs. Underwater
25. Che Yujun, Tang Shengwen, Yang Huashan, Li Weiwei et al. (2021-08)
    Influences of Air-Voids on the Performance of 3D Printing Cementitious Materials
26. Tarhan Yeşim, Şahin Remzi (2021-05)
    Fresh and Rheological Performances of Air-Entrained 3D Printable Mortars
27. Chen Yu, Çopuroğlu Oğuzhan, Rodríguez Claudia, Filho Fernando et al. (2021-02)
    Characterization of Air-Void Systems in 3D Printed Cementitious Materials Using Optical Image Scanning and X-Ray Computed Tomography
28. Das Arnesh, Song Yu, Mantellato Sara, Wangler Timothy et al. (2020-07)
    Influence of Pumping-Extrusion on the Air-Void System of 3D Printed Concrete
29. Lu Bing, Qian Ye, Li Mingyang, Weng Yiwei et al. (2019-04)
    Designing Spray-Based 3D Printable Cementitious Materials with Fly-Ash-Cenosphere and Air-Entraining Agent
30. Tian Wei, Han Nv (2018-04)
    Pore Characteristics (>0.1mm) Of Non-Air-Entrained Concrete Destroyed by Freeze-Thaw-Cycles Based on CT Scanning and 3D Printing