#cure¶

Keywords by Co - Occurrence¶

#print (32) #concrete (18) #effect (13) #cement (11) #property (9)

1. Luo Jintao, Zhang Li, Guan Xuemao, Yao Tianshuai et al. (2026-04)
   Recycling Molybdenum Tailings to Produce Eco-Friendly 3D-Printed Concrete:
   Rheological Properties, Mechanical Evolution and Internal Curing Mechanism
2. Kumar Sandeep, Dixit Anjaneya (2026-04)
   3D-Printable Concrete Using Stabilized Soil:
   Effect of Binders and Curing Regimes on the Engineering Performance
3. Liu Yalin, Fan Weichen, Li Chengze, Wei Ya et al. (2026-03)
   Printability, Mechanical, and Shrinkage Properties of 3D Printing Internally-Cured Ultra-High Performance Concrete
4. Lyu Ping, Zhou Bo, Wu Zhengyu, Sinha Arkabrata et al. (2026-01)
   Performance of 3D-Printed UHPC Optimized by Particle Packing Model Under Standard and Steam Curing
5. Xu Fengming, Yu Jie, Teng Fei, Lin Xiaoshan et al. (2025-12)
   Application of Recycled Tile as Internal Curing Material in 3D-Printed Engineered Cementitious Composites
6. Lim Sean, Lee Junghyun, Bawarith Nuran, Paul Suvash et al. (2025-11)
   The Efficacy of Self-Curing Agents on Enhanced Internal Curing and Accelerated Carbonation with CO2-Steam Integrated 3D Concrete Printing
7. Paul Suvash, Lee Junghyun, Tay Yi, Lim Sean et al. (2025-10)
   Unlocking the Sustainable Potential of 3D Concrete Printing with Large Aggregates and Steam–CO2 Curing
8. Zhong Kuangnan, Huang Kaiyun, Liu Zhichao, Wang Fazhou et al. (2025-10)
   Dual Strategies for Enhancing Carbonation Curing in 3D Printing Steel Slag Mortars:
   Material Modification and Curing Process Innovation
9. Anwar Muhammad, Zhu Xingyi, Zhang Yating, Wang Jiakang et al. (2025-09)
   Synergistic Effects of Microwave Curing Regimes on Early, Mid, and Long-Term Strengths and Microstructural Performance of Fly Ash-Slag Based 3D-Printed Geopolymers
10. Zafar Tayyab, Zafar Muhammad, Hojati Maryam (2025-07)
    Exploring the 3D Printability of Engineered Cementitious Composites with Internal Curing for Resilient Construction in Arid Regions
11. Falliano Devid, Restuccia Luciana, Tulliani Jean-Marc, Ferro Giuseppe (2025-07)
    Biochar to Enhance Curing and Rheology of Mortars without Formwork
12. Li Qiyan, Su Anshuang, Gao Xiaojian (2025-06)
    Improvement of Interlayer Performance of 3D Printable Magnesium Oxysulfate Cement-Based Materials by Carbonation Curing
13. Avşar Yunus, Uysal Mücteba, Akca Abdullah (2025-05)
    Improvement of 3D Printing Properties of MgO Derived Binders by CO2 Curing in Hardened State
14. Givkashi Mohammad, Moodi Faramarz, Ramezanianpour Amir (2025-03)
    Investigating Shrinkage and Mechanical Properties of 3D Printed Concretes Under Different Curing Conditions
15. Srinivas Dodda, Panda Biranchi, Suraneni Prannoy, Sitharam Thallak (2025-01)
    Influence of Mixture-Composition and Carbonation-Curing on Properties of Sustainable 3D Printable Mortars
16. Liu Junxing, Li Peiqi, Piao Taiyan, Im Sumin et al. (2024-12)
    High-Alumina Cementitious Materials for Binder-Jetting 3D Printing:
    Exploring Suitable Mixing-Ratio and Curing-Solution for Improving Mechanical Properties and Hydration-Reaction
17. 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
18. Han Xiaoyu, Yan Jiachuan, Huo Yanlin, Chen Tiefeng (2024-11)
    Effect of Carbonation-Curing-Regime on 3D Printed Concrete:
    Compressive Strength, CO2 Uptake, and Characterization
19. Bekaert Michiel, Tittelboom Kim, Schutter Geert (2024-07)
    Influence of Curing Conditions on the Shrinkage Behavior of Three-Dimensional Printed Concrete Formwork
20. Sun Bochao, Dominicus Randy, Dong Enlai, Li Peichen et al. (2024-04)
    Predicting the Strength Development of 3D Printed Concrete Considering the Synergistic Effect of Curing-Temperature and Humidity:
    From Perspective of Modified Maturity-Model
21. Bekaert Michiel, Tittelboom Kim, Schutter Geert (2023-10)
    The Effect of Curing Conditions on the Service Life of 3D Printed Concrete Formwork
22. Shakor Pshtiwan, Nejadi Shami, Paul Gavin, Gowripalan Nadarajah (2023-04)
    Effects of Different Orientation-Angle, Size, Surface-Roughness, and Heat-Curing on Mechanical Behavior of 3D Printed Cement-Mortar with and without Glass-Fiber in Powder-Based 3DP
23. Yao Xiaofei, Lyu Xin, Sun Junbo, Wang Bolin et al. (2023-03)
    AI-Based Performance Prediction for 3D Printed Concrete Considering Anisotropy and Steam-Curing Condition
24. Wang Dianchao, Xiao Jianzhuang, Sun Bochao, Zhang Shipeng et al. (2023-02)
    Mechanical Properties of 3D Printed Mortar Cured by CO2
25. Bekaert Michiel, Tittelboom Kim, Schutter Geert (2022-08)
    3D Printed Concrete as Stay-in-Place Formwork:
    Mechanics During Casting and Curing
26. Wang Li, Li Qiqi, Hu Yuanyuan, Cui Tianlong et al. (2022-07)
    Shrinkage and Cracking Properties of Cellulose-Fiber-Concrete Composites for 3D Printing by Leveraging Internal Curing
27. Tao Jie-Lin, Lin Can, Luo Qiling, Long Wujian et al. (2022-07)
    Leveraging Internal Curing Effect of Fly-Ash-Cenosphere for Alleviating Autogenous Shrinkage in 3D Printing
28. Herding Friedrich, Mai (née Dressler) Inka, Lowke Dirk (2022-06)
    Effect of Curing in Selective Cement-Activation
29. Moelich Gerrit, Kruger Jacques, Combrinck Riaan (2022-06)
    Mitigating Early-Age Cracking in 3D Printed Concrete Using Fibers, Superabsorbent Polymers, Shrinkage Reducing Admixtures, B-CSA Cement and Curing Measures
30. Wang Bolin, Yao Xiaofei, Yang Min, Zhang Runhong et al. (2022-04)
    Mechanical Performance of 3D Printed Concrete in Steam-Curing Conditions
31. Chen Yu, Chang Ze, He Shan, Çopuroğlu Oğuzhan et al. (2022-04)
    Effect of Curing Methods During a Long Time-Gap Between Two Printing Sessions on the Inter-Layer Bonding of 3D Printed Cementitious Materials
32. Suiker Akke (2021-11)
    Effect of Accelerated Curing and Layer Deformations on Structural Failure During Extrusion-Based 3D Printing
33. Zahabizadeh Behzad, Segundo Iran, Pereira João, Freitas Elisabete et al. (2021-08)
    Development of Photocatalytic 3D Printed Cementitious Mortars:
    Influence of the Curing, Spraying Time-Gaps and TiO2 Coating Rates
34. Bong Shin, Xia Ming, Nematollahi Behzad, Shi Caijun (2021-04)
    Ambient Temperature Cured ‘Just-Add-Water’ Geopolymer for 3D Concrete Printing Applications
35. Shakor Pshtiwan, Nejadi Shami, Gowripalan Nadarajah (2020-07)
    Effect of Heat-Curing and E6-Glass Fiber-Reinforcement Addition on Powder-Based 3DP Cement Mortar
36. Nematollahi Behzad, Bong Shin, Xia Ming, Sanjayan Jay (2020-07)
    Digital Fabrication of ‘Just-Add-Water’ Geopolymers:
    Effects of Curing Condition and Print-Time Interval
37. Federowicz Karol, Kaszyńska Maria, Zieliński Adam, Hoffmann Marcin (2020-06)
    Effect of Curing Methods on Shrinkage Development in 3D Printed Concrete
38. Ma Guowei, Salman Nazar, Wang Li, Wang Fang (2020-02)
    A Novel Additive Mortar Leveraging Internal Curing for Enhancing Inter-Layer Bonding of Cementitious Composite for 3D Printing
39. Bong Shin, Nematollahi Behzad, Nazari Ali, Xia Ming et al. (2019-03)
    Method of Optimization for Ambient Temperature Cured Sustainable Geopolymers for 3D Printing Construction Applications
40. Bong Shin, Nematollahi Behzad, Nazari Ali, Xia Ming et al. (2018-09)
    Fresh and Hardened Properties of 3D Printable Geopolymer Cured in Ambient Temperature