Skip to content

Insights into Material-Design, Extrusion Rheology, and Properties of 3D Printable Alkali-Activated Fly-Ash-Based Binders (2019-02)

10.1016/j.matdes.2019.107634

Alghamdi Hussam,  Nair Sooraj,  Neithalath Narayanan
Journal Article - Materials & Design, Vol. 167

Abstract

Material design of alkali activated fly ash-based binders for extrusion-based 3D printing, the rheological responses that are influential in ensuring printability, and the properties of such binders are discussed in this paper. Fly ash is supplementedwith fine limestone, slag, or portland cement to provide adequate microstructural packing required for printability. The alkaline activators help reduce the yield stress and enhance the cohesiveness of the mixtures. Based on the measured shear yield stress at different times and concurrent printing ofa filament, the printability window and yield stress bounds for printability, applicable for the chosen printing parameters, are established. This approach could be used for mixture qualification for extrusion-based printing. The Benbow-Bridgwater model is implemented on extrusion rheology results of pastes to determine the extrusion yield stress and wall slip shear stress, which are useful process-related parameters. It is shown that these parameters can also be related to shear and extensional rheological properties of alkali-activated pastes, thus ensuring a much-needed link between parameters related to material design and the process of extrusion. Mechanical properties and pore structure similar to those of conventionally cast mixtures are achieved.

27 References

  1. Asprone Domenico, Auricchio Ferdinando, Menna Costantino, Mercuri Valentina (2018-03)
    3D Printing of Reinforced Concrete Elements:
    Technology and Design Approach
  2. Bos Freek, Wolfs Robert, Ahmed Zeeshan, Salet Theo (2016-08)
    Additive Manufacturing of Concrete in Construction:
    Potentials and Challenges of 3D Concrete Printing
  3. Bosscher Paul, Williams Robert, Bryson L., Castro-Lacouture Daniel (2007-04)
    Cable-Suspended Robotic Contour Crafting System
  4. Buswell Richard, Silva Wilson, Jones Scott, Dirrenberger Justin (2018-06)
    3D Printing Using Concrete-Extrusion:
    A Roadmap for Research
  5. Gosselin Clément, Duballet Romain, Roux Philippe, Gaudillière-Jami Nadja et al. (2016-03)
    Large-Scale 3D Printing of Ultra-High-Performance Concrete:
    A New Processing Route for Architects and Builders
  6. Hager Izabela, Golonka Anna, Putanowicz Roman (2016-08)
    3D Printing of Buildings and Building Components as the Future of Sustainable Construction?
  7. Hambach Manuel, Volkmer Dirk (2017-02)
    Properties of 3D Printed Fiber-Reinforced Portland-Cement-Paste
  8. Kazemian Ali, Yuan Xiao, Cochran Evan, Khoshnevis Behrokh (2017-04)
    Cementitious Materials for Construction-Scale 3D Printing:
    Laboratory Testing of Fresh Printing Mixture
  9. Le Thanh, Austin Simon, Lim Sungwoo, Buswell Richard et al. (2012-01)
    Mix-Design and Fresh Properties for High-Performance Printing Concrete
  10. Liu Zhixin, Li Mingyang, Weng Yiwei, Wong Teck et al. (2018-12)
    Mixture-Design-Approach to Optimize the Rheological Properties of the Material Used in 3D Cementitious Material-Printing
  11. Moini Mohamadreza, Olek Jan, Youngblood Jeffrey, Magee Bryan et al. (2018-08)
    Additive Manufacturing and Performance of Architectured Cement-Based Materials
  12. Nair Sooraj, Alghamdi Hussam, Arora Aashay, Mehdipour Iman et al. (2019-01)
    Linking Fresh Paste Microstructure, Rheology and Extrusion-Characteristics of Cementitious Binders for 3D Printing
  13. Panda Biranchi, Paul Suvash, Lim Jian, Tay Yi et al. (2017-08)
    Additive Manufacturing of Geopolymer for Sustainable Built Environment
  14. Panda Biranchi, Paul Suvash, Mohamed Nisar, Tay Yi et al. (2017-09)
    Measurement of Tensile Bond Strength of 3D Printed Geopolymer Mortar
  15. Panda Biranchi, Tan Ming (2018-03)
    Experimental Study on Mix Proportion and Fresh Properties of Fly-Ash-Based Geopolymer for 3D Concrete Printing
  16. Panda Biranchi, Unluer Cise, Tan Ming (2018-10)
    Investigation of the Rheology and Strength of Geopolymer Mixtures for Extrusion-Based 3D Printing
  17. Papachristoforou Michail, Mitsopoulos Vasilios, Stefanidou Maria (2018-10)
    Evaluation of Workability Parameters in 3D Printing Concrete
  18. Perrot Arnaud, Rangeard Damien, Pierre Alexandre (2015-02)
    Structural Build-Up of Cement-Based Materials Used for 3D Printing-Extrusion-Techniques
  19. Pierre Alexandre, Weger Daniel, Perrot Arnaud, Lowke Dirk (2018-01)
    Penetration of Cement-Pastes into Sand-Packings During 3D Printing:
    Analytical and Experimental Study
  20. Roussel Nicolas (2018-05)
    Rheological Requirements for Printable Concretes
  21. Schutter Geert, Lesage Karel, Mechtcherine Viktor, Nerella Venkatesh et al. (2018-08)
    Vision of 3D Printing with Concrete:
    Technical, Economic and Environmental Potentials
  22. Shakor Pshtiwan, Sanjayan Jay, Nazari Ali, Nejadi Shami (2017-02)
    Modified 3D Printed Powder to Cement-Based Material and Mechanical Properties of Cement Scaffold Used in 3D Printing
  23. Tay Yi, Ting Guan, Qian Ye, Panda Biranchi et al. (2018-07)
    Time-Gap-Effect on Bond Strength of 3D Printed Concrete
  24. Wolfs Robert, Bos Freek, Salet Theo (2018-02)
    Early-Age Mechanical Behaviour of 3D Printed Concrete:
    Numerical Modelling and Experimental Testing
  25. Wu Peng, Wang Jun, Wang Xiangyu (2016-04)
    A Critical Review of the Use of 3D Printing in the Construction Industry
  26. Xia Ming, Nematollahi Behzad, Sanjayan Jay (2018-09)
    Compressive Strength and Dimensional Accuracy of Portland Cement Mortar Made Using Powder-Based 3D Printing for Construction Applications
  27. Zhang Yu, Zhang Yunsheng, Liu Guojian, Yang Yonggan et al. (2018-04)
    Fresh Properties of a Novel 3D Printing Concrete Ink

152 Citations

  1. Lemougna Patrick, Cantaluppi Marco, Faleschini Flora, Toska Klajdi et al. (2026-04)
    Mechanical Properties, 3D Printing and Environmental Performance of Ordinary Portland Cement (OPC) Mortars Containing Calcite Rich Residue from Stabilised Basic Oxygen Furnace Slag
  2. Zhu Pengjia, Tan Hailong, Ma Juntao, Yin Jianguang et al. (2026-04)
    Mix Proportion Design and Performance Regulation of 3D-Printing Phosphogypsum-Based Geopolymer Paste
  3. Lu Pengyuan, Yang Yekai, Zhao Qingxin, Liu Zhongxian et al. (2026-03)
    Low-Carbon 3D-Printed Geopolymer Ultra-High-Strength Concrete Enabled by Soda Residue:
    Sustainable Development and Environmental Impact Assessment
  4. Amjad Umar, Irshidat Mohammad, Maurya Muni, Rizmin Khadeejath et al. (2026-03)
    Sustainable 3D Mortar Printing:
    Material Optimization and Ultrasonic Characterization for Enhanced Construction Performance
  5. Goel Devansh, Kore Sudarshan, Blanco Ana (2026-02)
    Understanding the Role of Supplementary Cementitious Materials in 3D Printed Concrete
  6. Javan Kazem, Chaggar Pooja, Darestani Mariam, Markhali Bijan et al. (2026-02)
    Workability of Geopolymer Concrete and Mortar Materials: A Systematic Review of Influencing Parameters and Optimization for Sustainable Construction Materials
  7. Sheng Zhaoliang, Ding Shaolong, Zhu Binrong, Cai Jingming et al. (2026-01)
    Bonding Performance of Toothed Interfaces in 3D Printed Alkali-Activated Concrete
  8. Khalid Lawand, Mermerdaş Kasım, Ekmen Şevin, Khidhir Bzeni Dillshad (2025-11)
    Optimization of Fresh and Hardened Properties of Fiber-Reinforced 3D Printed Geopolymer Composites Using Response Surface Methodology:
    A Data-Driven Approach Based on Prior Experimental Studies
  9. Changez Kashif, Aslam Jawad, Bhutta Muhammad, Butt Shahid (2025-11)
    Hybrid Additive Strategies for Sustainable 3D Concrete Printing:
    Balancing Printability, Early-Stage Strength, and Eco-Efficiency
  10. Tang Jiyu, Wang Zhihang, Gao Danying, Yang Lin et al. (2025-11)
    Research Progress on 3D Printed Geopolymer Concrete
  11. González-Aviña J., Hosseinpoor Masoud, Yahia Ammar, Kohandelnia Mojtaba et al. (2025-10)
    Anionic Biopolymers to Enhance Concrete Rheological Properties for 3D Printing Applications
  12. Uddin Md, Mostazid Md, Faysal Md, Shi Xinjun (2025-10)
    Developing a Novel Strength Predictive Modeling for 3D Printable Geopolymer Concrete:
    An Interpretable Data-Driven Approach
  13. Elhag Ahmed, Mabrouk Abdelkader, Ghazouani Nejib, Nasir Umara (2025-09)
    Advances in Sustainable 3D-Printed Geopolymer Concrete:
    Materials, Performance, and Environmental Impact in Next Generation Green Construction
  14. Liu Ruiying, Xiong Zhongming, Chen Xuan, Jia Qiong et al. (2025-09)
    Industrial Waste in 3D Printed Concrete:
    A Mechanistic Review on Rheological Control and Printability
  15. Flor Juncal Luis, Scott Allan, Clucas Don, Loporcaro Giuseppe (2025-07)
    Ultrasonic Pulse Velocity for Real-Time Filament Quality Monitoring in 3D Concrete Printing Construction
  16. Gerges Isabelle, Farraj Faten, Youssef Nicolas, Antczak Emmanuel et al. (2025-07)
    Methodologies to Design Optimum 3D Printable Mortar Mix:
    A Review
  17. Goel Devansh, Kore Sudarshan (2025-07)
    Mapping the Bibliometric Progression of 3D Concrete Printing:
    A Concise Review
  18. 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
  19. Cui Weijiu, Ji Dongsheng, Shen Liang, Su Shiyong et al. (2025-06)
    A Neural Network-Based Model for Assessing 3D Printable Concrete Performance in Robotic Fabrication
  20. Si Wen, Khan Mehran, McNally Ciaran (2025-06)
    A Comprehensive Review of Rheological Dynamics and Process Parameters in 3D Concrete Printing
  21. Surehali Sahil, Venkatachalam Akshay, Divigalpitiya Ranjith, Kumar Aditya et al. (2025-06)
    Ultra-Low Dosages of Novel Graphene Types Enhance the Rheological Properties and Buildability of 3D Printed Binders
  22. Hopkins Ben, Si Wen, Khan Mehran, McNally Ciaran (2025-06)
    Recent Advancements in Polypropylene Fiber-Reinforced 3D-Printed Concrete:
    Insights into Mix Ratios, Testing Procedures, and Material Behaviour
  23. Salifu N., Bassuoni Mohamed, Guven Gursans (2025-05)
    Performance Evaluation of Limestone-Blended Cement and Cellulose Nanomaterials in 3D Concrete Printing
  24. Jaji Mustapha, Babafemi Adewumi, Zijl Gideon (2025-05)
    Mechanical Performance of Extrusion-Based Two-Part 3D-Printed Geopolymer Concrete:
    A Review of Advances in Laboratory and Real-Scale Construction Projects
  25. Tanyildizi Harun, Seloglu Maksut, Bakri Abdullah Mohd, Razak Rafiza et al. (2025-04)
    The Rheological and Mechanical Properties of 3D-Printed Geopolymers:
    A Review
  26. Maralapalle Vedprakash, Kumavat Hemraj, Nadaf Maheboobsab, Zende Aijaz et al. (2025-04)
    Optimizing 3D Geopolymer Concrete for Sustainable Construction:
    A Review of Material Selection, Printing Methods, and Properties
  27. Abudawaba Fareh, Gomaa Eslam, Gheni Ahmed, Feys Dimitri et al. (2025-03)
    Evaluation of Fresh Properties of High Calcium Content Fly Ash-Based Alkali-Activated 3D-Printed Mortar
  28. Wang Hailong, Shen Wenbin, Sun Xiaoyan, Song Xinlei et al. (2025-01)
    Influences of Particle-Size on the Performance of 3D Printed Coarse Aggregate Concrete:
    Experiment, Microstructure, and Mechanism Analysis
  29. Raqeb Hanan, Ghaffar Seyed (2024-12)
    3D Concrete Printing in Kuwait:
    Stakeholder Insights for Sustainable Waste Management Solutions
  30. Bai Meiyan, Xiao Jianzhuang, Ding Tao, Yu Kequan (2024-12)
    Interfacial Bond-Properties Between 3D Printed Engineered Cementitious Composite and Post-Cast Concrete
  31. Khan Mirza, Ahmed Aayzaz, Ali Tariq, Qureshi Muhammad et al. (2024-12)
    Comprehensive Review of 3D Printed Concrete, Life Cycle Assessment, AI and ML Models:
    Materials, Engineered Properties and Techniques for Additive Manufacturing
  32. Kul Anil, Kocaer Öznur, Aldemir Alper, Yıldırım Gürkan et al. (2024-12)
    3D Printable One-Part Alkali-Activated Mortar Derived from Brick-Masonry-Wastes
  33. Wang Qingwei, Han Song, Yang Junhao, Li Ziang et al. (2024-11)
    Optimizing Printing and Rheological Parameters for 3D Printing with Cementitious Materials
  34. Dams Barrie, Chen Binling, Kaya Yusuf, Shepherd Paul et al. (2024-11)
    The Rise of Aerial Additive Manufacturing in Construction:
    A Review of Material Advancements
  35. Murali Gunasekaran, Leong Sing (2024-11)
    Waste-Driven Construction:
    A State of the Art Review on the Integration of Waste in 3D Printed Concrete in Recent Researches for Sustainable Development
  36. Lim Sean, Tan Ming (2024-10)
    A Rheological Model for Concrete Additive Manufacturing
  37. Ding Yao, Ou Xingjian, Qi Hongtuo, Xiong Gang et al. (2024-10)
    Inter-Layer Bonding Performance of 3D Printed Engineered Cementitious Composites:
    Rheological Regulation and Fiber Hybridization
  38. Over Derya, Ozbakan Nesil, Bustani Mehmet, Karali Bulut (2024-10)
    An Investigation of Rheological Properties and Sustainability of Various 3D Printing Concrete Mixtures with Alternative Binders and Rheological Modifiers
  39. Shahib Al Bari M., Ekaputri Januarti (2024-09)
    The Effect of Fiber on the Green Strength and Buildability of High-Strength 3D Printing Concrete
  40. Sheng Zhaoliang, Zhu Binrong, Cai Jingming, Han Jinsheng et al. (2024-09)
    Influence of Waste-Glass-Powder on Printability and Mechanical Properties of 3D Printing Geopolymer Concrete
  41. Lacambra-Andreu Xavier, Scheel Mario, Poulesquen Arnaud (2024-09)
    Enhancing 3D Printability of Metakaolin-Based Geopolymers for Nuclear Waste Filtration Applications
  42. Huseien Ghasan, Tan Shea, Saleh Ali, Lim Nor et al. (2024-08)
    Test-Procedures and Mechanical Properties of Three-Dimensional Printable Concrete Enclosing Different Mix-Proportions:
    A Review and Bibliometric Analysis
  43. Zhao Hongyu, Wang Yufei, Liu Xianda, Wang Xiangyu et al. (2024-08)
    Review on Solid Wastes Incorporated Cementitious Material Using 3D Concrete Printing-Technology
  44. Robayo-Salazar Rafael, Muñoz Miguel, Vargas Armando, Gutiérrez Ruby (2024-08)
    Effects of Incorporating Bentonite, Metakaolin, Microsilica, and Calcium-Carbonate on the Rheological Properties of Portland-Cement-Based 3D Printing Inks
  45. Barve Prasad, Bahrami Alireza, Shah Santosh (2024-07)
    A Comprehensive Review on Effects of Material-Composition, Mix-Design, and Mixing-Regimes on Rheology of 3D Printed Geopolymer Concrete
  46. Şahin Hatice, Mardani Ali, Mardani Naz (2024-07)
    Performance Requirements and Optimum Mix Proportion of High-Volume Fly-Ash 3D Printable Concrete
  47. Ghaffar Seyed, Noaimat Yazeed, Chougan Mehdi, Kheetan Mazen (2024-06)
    Emerging Resources for the Development of Low-Carbon Cementitious Composites for 3D Printing Applications
  48. Sando Mona, Stephan Dietmar (2024-06)
    The Development of a Fly-Ash-Based Geopolymer for Extrusion-Based 3D Printing, Along with a Printability Prediction Method
  49. Zhou Zhijie, Geng Jian, Jin Chen, Liu Genjin et al. (2024-06)
    Influence of Residue Soil on the Properties of Fly-Ash-Slag-Based Geopolymer Materials for 3D Printing
  50. Gu Yucun, Khayat Kamal (2024-05)
    Extrudability Window and Off-Line Test-Methods to Predict Buildability of 3D Printing Concrete
  51. Oulkhir Fatima, Akhrif Iatimad, Jai Mostapha (2024-05)
    3D Concrete Printing Success:
    An Exhaustive Diagnosis and Failure-Modes-Analysis
  52. Zaid Osama, Ouni Mohamed (2024-04)
    Advancements in 3D Printing of Cementitious Materials:
    A Review of Mineral Additives, Properties, and Systematic Developments
  53. Vallurupalli Kavya, Libre Nicolas, Khayat Kamal (2024-04)
    Characterization of Extrudability Using Rheology and Desorptivity
  54. Chen Yidong, Zhang Yunsheng, Liu Zhiyong, Zhang Wenhua et al. (2024-03)
    Quantitative Surface Quality Evaluation for 3D Printed Concrete with Coarse Aggregate Through 3D Scanning
  55. Jaji Mustapha, Zijl Gideon, Babafemi Adewumi (2024-03)
    Durability and Pore-Structure of Metakaolin-Based 3D Printed Geopolymer Concrete
  56. Sheng Zhaoliang, Zhu Binrong, Cai Jingming, Li Xuesen et al. (2024-03)
    Development of a Novel Extrusion-Device to Improve the Printability of 3D Printable Geopolymer Concrete
  57. Souza Eduarda, Ribeiro Borges Paulo, Stengel Thorsten, Nematollahi Behzad et al. (2024-03)
    3D Printed Sustainable Low-Cost Materials for Construction of Affordable Social Housing in Brazil:
    Potential, Challenges, and Research Needs
  58. Robayo-Salazar Rafael, Vargas Armando, Martínez Fabio, Gutiérrez Ruby (2024-02)
    Utilization of Powders and Fine Aggregates from the Recycling of Construction and Demolition Waste in the 3D Printing of Portland-Based Cementitious Materials
  59. Sun Yubo, Mohan Manu, Tao Yaxin, Zhang Yi et al. (2024-02)
    A Conceptual Design of Two-Stream Alkali-Activated Materials
  60. Moraes Maria, Nagata Ester, Duran Afonso, Rossignolo João (2024-02)
    Alkali-Activated Materials Applied in 3D Printing Construction:
    A Review
  61. Ramesh Akilesh, Rajeev Pathmanathan, Sanjayan Jay (2024-02)
    Bond-Slip Behavior of Textile-Reinforcement in 3D Printed Concrete
  62. Jiang Xiongzhi, Li Yujia, Yang Zhe, Li Yangbo et al. (2024-02)
    Harnessing Path-Optimization to Enhance the Strength of Three-Dimensional Printed Concrete
  63. Pavlin Majda, Horvat Barbara, Cerc Korošec Romana, Capuder Rok et al. (2024-01)
    Characterisation of a 3D Printed Alkali-Activated Material Based on Waste-Mineral-Wool at Room and Elevated Temperatures
  64. Chen Kailun, Liu Qiong, Chen Bing, Zhang Shishun et al. (2024-01)
    A Review on Effect of Raw Materials on the Performance of 3D Printed Geopolymer System for Construction
  65. Fahim Abdullah, Admassu Natnael, Dailey Garret, Moradllo Mehdi (2023-12)
    Application of Cellulose-Nano-Crystals in 3D Printed Alkali-Activated Cementitious Composites
  66. Natanzi Atteyeh, McNally Ciaran (2023-12)
    Experimental Investigation of Low-Carbon 3D Printed Concrete
  67. Jaji Mustapha, Zijl Gideon, Babafemi Adewumi (2023-11)
    Slag-Modified Metakaolin-Based 3D Printed Geopolymer:
    Mechanical Characterisation, Microstructural Properties, and Nitrogen Physisorption Pore-Analysis
  68. Shahmirzadi Mohsen, Gholampour Aliakbar, Kashani Alireza, Ngo Tuan (2023-10)
    Geopolymer Mortars for Use in Construction 3D Printing:
    Effect of LSS, Graphene-Oxide and Nano-Clay at Different Environmental Conditions
  69. Ibrahim Kamoru, Zijl Gideon, Babafemi Adewumi (2023-10)
    Comparative Studies of LC³- and Fly-Ash-Based Blended Binders in Fiber-Reinforced Printed Concrete:
    Rheological and Quasi-Static Mechanical Characteristics
  70. Zafar Muhammad, Bakhshi Amir, Hojati Maryam (2023-10)
    Printability and Shape Fidelity Evaluation of Self-Reinforced Engineered Cementitious Composites
  71. Polychronopoulos Nickolas, Sarris Ioannis, Benos Lefteris, Vlachopoulos John (2023-09)
    Pressure-Drop in Converging Flows in Three-Dimensional Printing of Concrete
  72. Luo Fuming, Cui Peng, Tang Wei, Wu Chun-ran et al. (2023-09)
    Influences of Engineering Spoil on the Properties and Microstructure of 3D Printable Magnesium-Cement
  73. Surehali Sahil, Tripathi Avinaya, Neithalath Narayanan (2023-08)
    Anisotropy in Additively Manufactured Concrete Specimens Under Compressive Loading:
    Quantification of the Effects of Layer-Height and Fiber-Reinforcement
  74. Jaji Mustapha, Zijl Gideon, Babafemi Adewumi (2023-08)
    Slag-Modified Fiber-Reinforced Metakaolin-Based Geopolymer for 3D Concrete Printing Application:
    Evaluating Fresh and Hardened Properties
  75. Chougan Mehdi, Kheetan Mazen, Ghaffar Seyed (2023-07)
    Additive Manufacturing and the Construction Industry
  76. Villaquirán-Caicedo Mónica, Fernández-González Alejandro, Fernández-García Daniel, Gutiérrez Ruby (2023-07)
    Valorization of a Low-Quality Coal-Ash, in the Preparation of Alkali-Activated Inks for Applications in 3D Additive Manufacturing
  77. Khan Shoukat, İlcan Hüseyin, Aminipour Ehsan, Şahin Oğuzhan et al. (2023-07)
    Buildability-Analysis on Effect of Structural Design in 3D Concrete Printing:
    An Experimental and Numerical Study
  78. Tu Haidong, Wei Zhenyun, Bahrami Alireza, Kahla Nabil et al. (2023-06)
    Recent Advancements and Future Trends in 3D Printing Concrete Using Waste-Materials
  79. Singh Narinder, Colangelo Francesco, Farina Ilenia (2023-06)
    Sustainable Non-Conventional Concrete 3D Printing:
    A Review
  80. Shenawa Amaal, Karoti Poonam (2023-06)
    3D Printing in Construction, Mixture Characteristics, Strength, and Thermal Performance-Review
  81. Mujeeb Syed, Samudrala Manideep, Lanjewar Bhagyashri, Chippagiri Ravijanya et al. (2023-05)
    Development of Alkali-Activated 3D Printable Concrete:
    A Review
  82. Bhushan Jindal Bharat, Jangra Parveen (2023-05)
    3D Printed Concrete:
    A Comprehensive Review of Raw Material’s Properties, Synthesis, Performance, and Potential Field Applications
  83. Panda Biranchi, Tran Jonathan (2023-03)
    Material-Design, Additive Manufacturing, and Performance of Cement-Based Materials
  84. Cui Weijiu, Wang Tianheng, Chen Xu, Shen Wenkai et al. (2023-03)
    Study of 3D Printed Concrete with Low-Carbon Cementitious Materials Based on Its Rheological Properties and Mechanical Performances
  85. Xu Zhuoyue, Zhang Dawang, Li Hui, Sun Xuemei (2023-02)
    Effects of the Distribution of Solid Particles on the Rheological Properties and Buildability of 3DPM Fresh Pastes with Different FA/GGBFS Content
  86. Beersaerts Glenn, Hertel Tobias, Lucas Sandra, Pontikes Yiannis (2023-02)
    Promoting the Use of Fe-Rich Slag in Construction:
    Development of a Hybrid Binder for 3D Printing
  87. Ahmed Ghafur (2023-01)
    A Review of 3D Concrete Printing:
    Materials and Process Characterization, Economic Considerations and Environmental Sustainability
  88. Surehali Sahil, Tripathi Avinaya, Nimbalkar Atharwa, Neithalath Narayanan (2023-01)
    Anisotropic Chloride Transport in 3D Printed Concrete and Its Dependence on Layer-Height and Interface-Types
  89. Noaimat Yazeed, Ghaffar Seyed, Chougan Mehdi, Kheetan Mazen (2022-12)
    A Review of 3D Printing Low-Carbon Concrete with One-Part Geopolymer:
    Engineering, Environmental and Economic Feasibility
  90. Peng Yiming, Unluer Cise (2022-12)
    Development of Alternative Cementitious Binders for 3D Printing Applications:
    A Critical Review of Progress, Advantages and Challenges
  91. İlcan Hüseyin, Şahin Oğuzhan, Kul Anil, Ozcelikci Emircan et al. (2022-12)
    Rheological Property and Extrudability Performance-Assessment of Construction and Demolition Waste-Based Geopolymer Mortars with Varied Testing Protocols
  92. Robayo-Salazar Rafael, Gutiérrez Ruby, Villaquirán-Caicedo Mónica, Delvasto Arjona Silvio (2022-12)
    3D Printing with Cementitious Materials:
    Challenges and Opportunities for the Construction Sector
  93. Lv Chun, Shen Hongtao, Liu Jie, Wu Dan et al. (2022-11)
    Properties of 3D Printing Fiber-Reinforced Geopolymers Based on Inter-Layer Bonding and Anisotropy
  94. Qaidi Shaker, Yahia Ammar, Tayeh B., Unis H. et al. (2022-10)
    3D Printed Geopolymer Composites:
    A Review
  95. Boddepalli Uday, Panda Biranchi, Gandhi Indu (2022-09)
    Rheology and Printability of Portland-Cement-Based Materials:
    A Review
  96. 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
  97. Ahmed Ghafur, Askandar Nasih, Jumaa Ghazi (2022-07)
    A Review of Large-Scale 3DCP:
    Material-Characteristics, Mix-Design, Printing-Process, and Reinforcement-Strategies
  98. Kamakshi Tippabhotla, Subramaniam Kolluru (2022-06)
    Developing Printable Fly-Ash-Slag Geopolymer Binders with Rheology Modification
  99. Kondepudi Kala, Subramaniam Kolluru, Nematollahi Behzad, Bong Shin et al. (2022-05)
    Study of Particle-Packing and Paste-Rheology in Alkali-Activated Mixtures to Meet the Rheology Demands of 3D Concrete Printing
  100. Xu Zhuoyue, Zhang Dawang, Li Hui, Sun Xuemei et al. (2022-05)
    Effect of FA and GGBFS on Compressive Strength, Rheology, and Printing Properties of Cement-Based 3D Printing Material
  101. Saruhan Vedat, Keskinateş Muhammer, Felekoğlu Burak (2022-04)
    A Comprehensive Review on Fresh State Rheological Properties of Extrusion-Mortars Designed for 3D Printing Applications
  102. Nodehi Mehrab, Ozbakkaloglu Togay, Gholampour Aliakbar (2022-04)
    Effect of Supplementary Cementitious Materials on Properties of 3D Printed Conventional and Alkali-Activated Concrete:
    A Review
  103. Zhi Peng, Wu Yuching, Yang Qianfan, Kong Xiangrui et al. (2022-03)
    Effect of Spiral Blade Geometry on 3D Printed Concrete Rheological Properties and Extrudability Using Discrete Event Modeling
  104. Yuan Qiang, Gao Chao, Huang Tingjie, Zuo Shenghao et al. (2022-03)
    Factors Influencing the Properties of Extrusion-Based 3D Printed Alkali-Activated Fly-Ash-Slag Mortar
  105. Zhong Hui, Zhang Mingzhong (2022-02)
    3D Printing Geopolymers:
    A Review
  106. Chen Yuning, Liu Chao, Cao Ruilin, Chen Chun et al. (2022-02)
    Systematical Investigation of Rheological Performance Regarding 3D Printing Process for Alkali-Activated Materials:
    Effect of Precursor Nature
  107. Liu Junli, Nguyen Vuong, Panda Biranchi, Fox Kate et al. (2022-02)
    Additive Manufacturing of Sustainable Construction Materials and Form-Finding Structures:
    A Review on Recent Progresses
  108. Chen Yuning, Jia Lutao, Liu Chao, Zhang Zedi et al. (2022-01)
    Mechanical Anisotropy Evolution of 3D Printed Alkali-Activated Materials with Different GGBFS-FA Combinations
  109. Amran Mugahed, Abdelgader Hakim, Onaizi Ali, Fediuk Roman et al. (2021-12)
    3D Printable Alkali-Activated Concretes for Building Applications:
    A Critical Review
  110. Nair Sooraj, Li Anling, Mobasher Barzin, Neithalath Narayanan (2021-12)
    Effect of Layer-Height on Tensile Stress-Distribution and Crack-Width and Propagation in 3D Printed Fiber-Reinforced Flexural Elements
  111. Şahin Hatice, Mardani Ali (2021-12)
    Assessment of Materials, Design Parameters and Some Properties of 3D Printing Concrete Mixtures:
    A State of the Art Review
  112. Nair Sooraj, Sant Gaurav, Neithalath Narayanan (2021-11)
    Mathematical Morphology-Based Point-Cloud-Analysis-Techniques for Geometry-Assessment of 3D Printed Concrete Elements
  113. Kocherla Amarteja, Kamakshi Tippabhotla, Subramaniam Kolluru (2021-11)
    In-Situ Embedded PZT Sensor for Monitoring 3D Concrete Printing:
    Application in Alkali-Activated Fly-Ash-Slag Geopolymers
  114. Chen Yu, He Shan, Gan Yidong, Çopuroğlu Oğuzhan et al. (2021-11)
    A Review of Printing-Strategies, Sustainable Cementitious Materials and Characterization Methods in the Context of Extrusion-Based 3D Concrete Printing
  115. He Lewei, Tan Jolyn, Chow Wai, Li Hua et al. (2021-11)
    Design of Novel Nozzles for Higher Inter-Layer Strength of 3D Printed Cement-Paste
  116. Kondepudi Kala, Subramaniam Kolluru (2021-11)
    Extrusion-Based Three-Dimensional Printing Performance of Alkali-Activated Binders
  117. Xu Emily, Tejada Karin, Walker David, Zivkovic Sasa et al. (2021-11)
    Measuring Flow- and Setting-Time for Three-Dimensionally Printed Mortar:
    Case Study
  118. Lee Hojae, Seo Eun-A, Kim Won-Woo, Moon Jae-Heum (2021-10)
    Experimental Study on Time-Dependent Changes in Rheological Properties and Flow-Rate of 3D Concrete Printing Materials
  119. Abudawaba Fareh, Gomaa Eslam, Gheni Ahmed, Gawady Mohamed (2021-09)
    Developing Mix Proportions for Class C Fly-Ash-Based Alkali-Activated 3D Printed Concrete Mixtures
  120. Nair Sooraj, Tripathi Avinaya, Neithalath Narayanan (2021-09)
    Examining Layer-Height Effects on the Flexural and Fracture Response of Plain and Fiber-Reinforced 3D Printed Beams
  121. Rehman Atta, Kim Jung-Hoon (2021-07)
    3D Concrete Printing:
    A Systematic Review of Rheology, Mix Designs, Mechanical, Microstructural, and Durability Characteristics
  122. Liu Chao, Wang Xianggang, Chen Yuning, Zhang Chao et al. (2021-06)
    Influence of Hydroxypropyl-Methylcellulose and Silica-Fume on Stability, Rheological Properties, and Printability of 3D Printing Foam-Concrete
  123. Bhattacherjee Shantanu, Basavaraj Anusha, Rahul Attupurathu, Santhanam Manu et al. (2021-06)
    Sustainable Materials for 3D Concrete Printing
  124. Nair Sooraj, Panda Subhashree, Tripathi Avinaya, Neithalath Narayanan (2021-06)
    Relating Print-Velocity and Extrusion-Characteristics of 3D Printable Cementitious Binders:
    Implications Towards Testing Methods
  125. Song Hongwei, Li Xinle (2021-05)
    An Overview on the Rheology, Mechanical Properties, Durability, 3D Printing, and Microstructural Performance of Nanomaterials in Cementitious Composites
  126. Cuevas Villalobos Karla, Chougan Mehdi, Martin Falk, Ghaffar Seyed et al. (2021-05)
    3D Printable Lightweight Cementitious Composites with Incorporated Waste-Glass-Aggregates and Expanded Microspheres:
    Rheological, Thermal and Mechanical Properties
  127. Adaloudis Max, Bonnin Roca Jaime (2021-05)
    Sustainability Tradeoffs in the Adoption of 3D Concrete Printing in the Construction Industry
  128. Zhao Zhihui, Chen Mingxu, Xu Jiabin, Li Laibo et al. (2021-03)
    Mix-Design and Rheological Properties of Magnesium-Potassium-Phosphate Cement Composites Based on the 3D Printing-Extrusion-System
  129. Sikora Paweł, Chougan Mehdi, Cuevas Villalobos Karla, Liebscher Marco et al. (2021-02)
    The Effects of Nano- and Micro-Sized Additives on 3D Printable Cementitious and Alkali-Activated Composites:
    A Review
  130. Besklubova Svetlana, Skibniewski Mirosław, Zhang Xueqing (2021-02)
    Factors Affecting 3D Printing Technology Adaptation in Construction
  131. Kondepudi Kala, Subramaniam Kolluru (2021-02)
    Formulation of Alkali-Activated Fly-Ash-Slag Binders for 3D Concrete Printing
  132. Chougan Mehdi, Ghaffar Seyed, Sikora Paweł, Chung Sang-Yeop et al. (2021-02)
    Investigation of Additive Incorporation on Rheological, Microstructural and Mechanical Properties of 3D Printable Alkali-Activated Materials
  133. Xu Jiabin, Chen Mingxu, Zhao Zhihui, Li Laibo et al. (2021-01)
    Printability and Efflorescence-Control of Admixtures-Modified 3D Printed White Portland-Cement-Based Materials Based on the Response-Surface-Methodology
  134. Kristombu Baduge Shanaka, Navaratnam Satheeskumar, Zidan Yousef, McCormack Tom et al. (2021-01)
    Improving Performance of Additive Manufactured Concrete:
    A Review on Material Mix-Design, Processing, Inter-Layer Bonding, and Reinforcing-Methods
  135. Chen Mingxu, Yang Lei, Zheng Yan, Li Laibo et al. (2021-01)
    Rheological Behaviors and Structure Build-Up of 3D Printed Polypropylene- and Polyvinyl-Alcohol-Fiber-Reinforced Calcium-Sulphoaluminate-Cement Composites
  136. Panda Biranchi, Sonat Cem, Yang En-Hua, Tan Ming et al. (2020-12)
    Use of Magnesium-Silicate-Hydrate (M-S-H) Cement Mixes in 3D Printing Applications
  137. Vantyghem Gieljan, Ooms Ticho, Corte Wouter (2020-11)
    VoxelPrint:
    A Grasshopper Plug-In for Voxel-Based Numerical Simulation of Concrete Printing
  138. Afarani Hajar, Carroll William, Garboczi Edward, Biernacki Joseph (2020-11)
    Designing 3D Printable Cementitious Materials with Gel-Forming Polymers
  139. Mohan Manu, Rahul Attupurathu, Schutter Geert, Tittelboom Kim (2020-10)
    Extrusion-Based Concrete 3D Printing from a Material Perspective:
    A State of the Art Review
  140. Beersaerts Glenn, Lucas Sandra, Pontikes Yiannis (2020-07)
    An Fe-Rich Slag-Based Mortar for 3D Printing
  141. Natanzi Atteyeh, McNally Ciaran (2020-07)
    Characterising Concrete Mixes for 3D Printing
  142. He Lewei, Chow Wai, Li Hua (2020-06)
    Effects of Inter-Layer Notch and Shear Stress on Inter-Layer Strength of 3D Printed Cement-Paste
  143. Nair Sooraj, Panda Subhashree, Santhanam Manu, Sant Gaurav et al. (2020-05)
    A Critical Examination of the Influence of Material-Characteristics and Extruder-Geometry on 3D Printing of Cementitious Binders
  144. Albar Abdulrahman, Chougan Mehdi, Kheetan Mazen, Swash Mohammad et al. (2020-04)
    Effective Extrusion-Based 3D Printing System Design for Cementitious-Based Materials
  145. Chen Mingxu, Yang Lei, Zheng Yan, Huang Yongbo et al. (2020-04)
    Yield-Stress and Thixotropy-Control of 3D Printed Calcium-Sulfoaluminate Cement Composites with Metakaolin Related to Structural Build-Up
  146. Chougan Mehdi, Ghaffar Seyed, Jahanzat Mohammad, Albar Abdulrahman et al. (2020-04)
    The Influence of Nano-Additives in Strengthening Mechanical Performance of 3D Printed Multi-Binder Geopolymer Composites
  147. Chen Yu, Figueiredo Stefan, Li Zhenming, Chang Ze et al. (2020-03)
    Improving Printability of Limestone-Calcined-Clay-Based Cementitious Materials by Using Viscosity-Modifying Admixture
  148. Chen Mingxu, Liu Bo, Li Laibo, Cao Lidong et al. (2020-01)
    Rheological Parameters, Thixotropy and Creep of 3D Printed Calcium-Sulfoaluminate-Cement Composites Modified by Bentonite
  149. Chen Mingxu, Li Laibo, Wang Jiaao, Huang Yongbo et al. (2019-10)
    Rheological Parameters and Building Time of 3D Printing Sulphoaluminate-Cement-Paste Modified by Retarder and Diatomite
  150. Panda Biranchi, Unluer Cise, Tan Ming (2019-08)
    Extrusion and Rheology Characterization of Geopolymer Nanocomposites Used in 3D Printing
  151. Alghamdi Hussam, Neithalath Narayanan (2019-07)
    Synthesis and Characterization of 3D Printable Geopolymeric Foams for Thermally Efficient Building Envelope Materials
  152. Panda Biranchi, Lim Jian, Tan Ming (2019-02)
    Mechanical Properties and Deformation Behavior of Early-Age Concrete in the Context of Digital Construction

BibTeX 
@article{algh_nair_neit.2019.IiMDERaPo3PAAFABB,
  author            = "Hussam Alghamdi and Sooraj Kumar A. O. Nair and Narayanan Neithalath",
  title             = "Insights into Material-Design, Extrusion Rheology, and Properties of 3D Printable Alkali-Activated Fly-Ash-Based Binders",
  doi               = "10.1016/j.matdes.2019.107634",
  year              = "2019",
  journal           = "Materials & Design",
  volume            = "167",
}
Formatted Citation

H. Alghamdi, S. K. A. O. Nair and N. Neithalath, “Insights into Material-Design, Extrusion Rheology, and Properties of 3D Printable Alkali-Activated Fly-Ash-Based Binders”, Materials & Design, vol. 167, 2019, doi: 10.1016/j.matdes.2019.107634.

Alghamdi, Hussam, Sooraj Kumar A. O. Nair, and Narayanan Neithalath. “Insights into Material-Design, Extrusion Rheology, and Properties of 3D Printable Alkali-Activated Fly-Ash-Based Binders”. Materials & Design 167 (2019). https://doi.org/10.1016/j.matdes.2019.107634.