#internal¶

Keywords by Co - Occurrence¶

#print (16) #concrete (12) #cure (8) #structure (6) #cement (5)

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. 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
3. Wang Hanmo, Wan Yujia, Owyong Shawn, Connie Lim En et al. (2026-01)
   Towards Low-Carbon Construction:
   Nature-Inspired Internal Patterns for Thermal Insulation in Lightweight Concrete Component Cast Using 3D-Printed Formwork
4. 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
5. 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
6. Xia Kailun, Chen Yuning, Jia Lutao, Quan Shitao et al. (2025-10)
   The Impact of Internal Stress Generated During the Printing Process on the Early-Age Properties of 3D Printed Concrete
7. 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
8. Kosson Michael, Brown Lesa, Thorne Garret, Sanchez Florence (2024-11)
   Influence of Internal Architecture and Ink Formulation on the Thermal Behavior of 3D Printed Cementitious Materials
9. Vargas José, Sjölander Andreas, Westerlind Helena, Silfwerbrand Johan (2024-05)
   Internal Topology-Optimization of 3D Printed Concrete Structures:
   A Method for Enhanced Performance and Material-Efficiency
10. Zhang Huan, Cao Shuai, Yilmaz Erol (2023-09)
    Polymer Shape Effect on Damage-Evolution, Internal Defects and Crack Propagation of 3D Printed Polymer-Based Cementitious Backfill
11. Kalthoff Matthias, Bosbach Sven, Backes Jana, Cruz Cynthia et al. (2023-06)
    Fabrication of Lightweight, Carbon Textile Reinforced Concrete Components with Internally Nested Lattice Structure Using 2-Layer Extrusion by LabMorTex
12. Chen Yanjuan, Kuva Jukka, Mohite Ashish, Li Zhongsen et al. (2023-03)
    Investigation of the Internal Structure of Hardened 3D Printed Concrete by X-CT Scanning and Its Influence on the Mechanical Performance
13. Ma Lei, Zhang Qing, Lombois-Burger Hélène, Jia Zijian et al. (2022-09)
    Pore-Structure, Internal Relative Humidity, and Fiber-Orientation of 3D Printed Concrete with Polypropylene-Fiber and Their Relation with Shrinkage
14. 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
15. Briels David, Kollmannsberger Stefan, Leithner Felicitas, Matthäus Carla et al. (2022-07)
    Thermal Optimization of Additively Manufactured Lightweight Concrete Wall Elements with Internal Cellular Structure through Simulations and Measurements
16. 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
17. Sangiorgio Valentino, Parisi Fabio, Fieni Francesco, Parisi Nicola (2022-01)
    The New Boundaries of 3D-Printed Clay-Bricks-Design:
    Printability of Complex Internal Geometries
18. Ma Lei, Zhang Qing, Jia Zijian, Liu Chao et al. (2021-11)
    Effect of Drying Environment on Mechanical Properties, Internal RH and Pore-Structure of 3D Printed Concrete
19. 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