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Effect of Curing Methods on Shrinkage Development in 3D Printed Concrete (2020-06)

10.3390/ma13112590

 Federowicz Karol,  Kaszyńska Maria,  Zieliński Adam,  Hoffmann Marcin
Journal Article - Materials, Vol. 13, Iss. 11

Abstract

Technological developments in construction have led to an increase in the use of 3D modelling using CAD environments. The popularity of this approach has increased in tandem with developments in industry branches which use 3D printers to print concrete based printing materials in construction, as these allow freedom in shaping the dimensions of supporting elements. One of the biggest challenges for researchers working on this highly innovative technology is that of cement material shrinkage. This article presents the findings of research on an original method of measuring deformations caused by shrinkage in 3D-printed concrete elements. It also discusses the results of tests on base mixes, as well as comparisons between the influence of internal and external curing methods on the development of deformations and their final outcomes. Furthermore, the article discusses differences between deformations formed after seven days of hardening without curing, with those which occur when two common, traditional concrete curing methods are used: foil insulation and shrinkage reducing admixtures. In addition, the article examines the effects of internal curing on the 1, 7, 14, 21 and 28 day mechanical properties of concrete, in accordance with EN 196-1 and EN 12390-2. Studies have shown that the optimal amount of shrinkage reducing admixtures is 4% (in relation to the mass of cement), resulting in a reduction in total shrinkage of 23%. The use of a shrinkage reducing admixture in 3D-printed concrete does not affect their strength after 28 days, but slows the strength development during the first 7 days.

9 References

  1. Bos Freek, Wolfs Robert, Ahmed Zeeshan, Salet Theo (2016-08)
    Additive Manufacturing of Concrete in Construction:
    Potentials and Challenges of 3D Concrete Printing
  2. Feng Peng, Meng Xinmiao, Chen Jian-Fei, Ye Lieping (2015-06)
    Mechanical Properties of Structures 3D Printed with Cementitious Powders
  3. Hoffmann Marcin, Skibicki Szymon, Pankratow Paweł, Zieliński Adam et al. (2020-04)
    Automation in the Construction of a 3D Printed Concrete Wall with the Use of a Lintel Gripper
  4. Khoshnevis Behrokh, Hwang Dooil, Yao Ke, Yeh Zhenghao (2006-05)
    Mega-Scale Fabrication by Contour Crafting
  5. Labonnote Nathalie, Rønnquist Anders, Manum Bendik, Rüther Petra (2016-09)
    Additive Construction:
    State of the Art, Challenges and Opportunities
  6. Lim Sungwoo, Buswell Richard, Le Thanh, Austin Simon et al. (2011-07)
    Developments in Construction-Scale Additive Manufacturing Processes
  7. Perkins Isaac, Skitmore Martin (2015-03)
    Three-Dimensional Printing in the Construction Industry:
    A Review
  8. Perrot Arnaud, Rangeard Damien, Pierre Alexandre (2015-02)
    Structural Build-Up of Cement-Based Materials Used for 3D Printing-Extrusion-Techniques
  9. Wangler Timothy, Roussel Nicolas, Bos Freek, Salet Theo et al. (2019-06)
    Digital Concrete:
    A Review

91 Citations

  1. Azarhomayun Fazel, Alipanahi Pouya, Zeng Hang, Kim Heejeong et al. (2026-04)
    Experimental and Numerical Investigation of Plastic Shrinkage Control in 3D-Printed Concrete Using Natural Zeolite
  2. Mahmood Mir, Alias Aizat, Hasan Kamrul (2026-02)
    A Bibliometric and Technical Review of Supplementary Cementitious Materials for 3D Concrete Printing: Research Trends, Current Status, Challenges, and Future Directions
  3. Goel Devansh, Kore Sudarshan, Blanco Ana (2026-02)
    Understanding the Role of Supplementary Cementitious Materials in 3D Printed Concrete
  4. Liu Chao, Ma Ruiyang, Liu Huawei, Dai Meiling et al. (2026-02)
    Shrinkage in Concrete Additive Manufacturing:
    A Critical Review of Mechanisms, Characterization, and Control Strategies
  5. Federowicz Karol, Sibera Daniel, Tošić Nikola, Zieliński Adam et al. (2026-01)
    Early-Age Shrinkage Monitoring of 3D-Printed Cementitious Mixtures: Comparison of Measuring Techniques and Low-Cost Alternatives
  6. Zhang Chao, Zhang Junyi, Su Yilin, Zhang Yuying et al. (2026-01)
    Low-Carbon 3D-Printed Concrete by Using Biochar as a Carbon Sequestrator
  7. Abbas Yassir, Alsaif Abdulaziz (2025-11)
    Explainable Data-Driven Modeling for Optimized Mix Design of 3D-Printed Concrete:
    Interpreting Nonlinear Synergies Among Binder Components and Proportions
  8. Sikora Paweł, Federowicz Karol, Skibicki Szymon, Techman Mateusz et al. (2025-11)
    Demonstration of 3D-Printed Concrete Containing Fine Recycled Concrete Aggregates and Recycled Concrete Powder:
    Rheology, Early-Age, Shrinkage, Mechanical, and Durability Performance.
  9. Hasan Md, Xu Jie, Uddin Md (2025-11)
    A Critical Review of 3D Printed Fiber-Based Geopolymer Concrete:
    Fresh Properties, Mechanical Performance, and Current Limitations
  10. Barbhuiya Salim, Das Bibhuti, Adak Dibyendu (2025-09)
    Key Variables Influencing the Performance of 3D Printed Concrete:
    A Comprehensive Analysis
  11. Kiyani Muhammad, Hussain Syed, Emaan Rajja, Kamal Muhammad et al. (2025-08)
    Influence of Process Parameters on 3D Concrete Printing:
    A Step Towards Standardized Approaches
  12. Goel Devansh, Kore Sudarshan (2025-07)
    Mapping the Bibliometric Progression of 3D Concrete Printing:
    A Concise Review
  13. Šána Vladimír, Litoš Jiří (2025-07)
    Load-Bearing Capacity of the 3D Printed Concrete Structure Based on a Static Assessment and Load Test in Scale 1:1
  14. Els Heinrich, Zijl Gideon, Villiers Wibke (2025-06)
    A Review of Shrinkage and Restrained Shrinkage Cracking in 3D Concrete Printing
  15. Jalil Siti Nur Natasha Abdul, Rizal Alias Ahmad, Alias Aizat (2025-06)
    Challenges and Strategies in Implementing 3D Concrete Printing (3DCP) Technology in Malaysia:
    Materials and Design Codes
  16. Mishra Sanjeet, Snehal K., Das B., Chandrasekaran Rajasekaran et al. (2025-05)
    From Printing to Performance:
    A Review on 3D Concrete Printing Processes, Materials, and Life Cycle Assessment
  17. Zuo Zibo, Tao Yaxin, Huang Yulin, Zhang Longlong et al. (2025-04)
    Real-Time Temperature Monitoring to Evaluate the Strength Evolution of 3D Printed Concrete:
    From Lab to In-Situ Printing
  18. İlcan Hüseyin, Külak Adnan, Şahin Oğuzhan, Aldemir Alper et al. (2025-04)
    Reinforcement and Modular System for 3DCP Geopolymer Structures Using Construction and Demolition Waste
  19. Xia Kailun, Chen Yuning, Zhang Zedi, Wang Wei et al. (2025-03)
    In-Situ Crosslinked Nano-SiO2 Reinforced Alginate Bio-Textile for Mitigating Plastic Shrinkage in 3D Printed Concrete
  20. Givkashi Mohammad, Moodi Faramarz, Ramezanianpour Amir (2025-03)
    Investigating Shrinkage and Mechanical Properties of 3D Printed Concretes Under Different Curing Conditions
  21. Ducoulombier Nicolas, Bono Victor, Kachkouch Fatima, Jacquet Yohan et al. (2025-01)
    From Laboratory to Practice
  22. Sakhare Vishakha, Najar Mohamed, Deshpande Sachin (2024-12)
    Printing Performance of 3D Printed Geopolymer Through Pumpability, Extrudability, Buildability Properties:
    A Review
  23. Zhou Longfei, Gou Mifeng, Zhang Haibo, Hama Yukio (2024-12)
    Investigation of Activated Bauxite-Tailings for Application in 3D Printed Concrete via a Modified Anderson and Anderson-Model
  24. Sun Zhaoyang, Zhao Yuyang, Hou Dongshuai, Li Zongjin et al. (2024-11)
    Rheology-Control of Cement-Paste by In-Situ Polymerization for 3D Printing Applications
  25. Teng Teng, Zhi Yefan, Akbarzadeh Masoud (2024-11)
    Gradient Multimaterial Printing:
    Integrated and Tailored Thermal Insulation Through Gradient Multimaterial Additive Manufacturing for Masonry Architectural Components
  26. Habibi Alireza, Buswell Richard, Osmani Mohamed, Aziminezhad Mohamadmahdi (2024-11)
    Sustainability Principles in 3D Concrete Printing:
    Analysing Trends, Classifying Strategies, and Future Directions
  27. Federowicz Karol, Cendrowski Krzysztof, Sikora Paweł (2024-10)
    Low-Carbon Cementitious Composite Incorporated with Biochar and Recycled Fines Suitable for 3D Printing Applications:
    Hydration, Shrinkage and Early-Age Performance
  28. Markin Slava, Cordova Julian, Combrinck Riaan, Mechtcherine Viktor (2024-09)
    Deformation Behavior of 3D Printed Concrete Elements Induced by Plastic Shrinkage
  29. Baytak Tugba, Gdeh Tawfeeq, Jiang Zhangfan, Arce Gabriel et al. (2024-09)
    Rheological, Mechanical, and Environmental Performance of Printable Graphene-Enhanced Cementitious Composites with Limestone and Calcined Clay
  30. Bier Henriette, Hidding Arwin, Lewandowska J., Calabrese Giuseppe (2024-09)
    Developing a Computer-Vision Application for Crack Detection
  31. Markin Slava, Mechtcherine Viktor (2024-09)
    Mitigating Plastic Shrinkage and Cracking in 3D Printed Concrete Through Surface Rewetting
  32. Palomba Martina, Esposito Laura, Villani Chiara, Wagner Eckhard (2024-09)
    Environmental Conditions Affecting the Shrinkage Behavior of Low Clinker 3D Printable Mortar
  33. Viano Rafaël, Margerit Pierre, Mesnil Romain, Weisz-Patrault Daniel et al. (2024-09)
    Shrinkage Characterization and Compensation for 3DPC
  34. Ler Kee-Hong, Ma Chau-Khun, Chin Chee-Long, Ibrahim Izni et al. (2024-08)
    Porosity and Durability Tests on 3D Printing Concrete:
    A Review
  35. Tittelboom Kim, Mohan Dhanesh, Šavija Branko, Keita Emmanuel et al. (2024-08)
    On the Micro-and Meso-Structure and Durability of 3D Printed Concrete Elements
  36. Banijamali Kasra, Vosoughi Payam, Arce Gabriel, Noorvand Hassan et al. (2024-08)
    Automated Strength Monitoring of 3D Printed Structures via Embedded Sensors
  37. Bekaert Michiel, Tittelboom Kim, Schutter Geert (2024-07)
    Influence of Curing Conditions on the Shrinkage Behavior of Three-Dimensional Printed Concrete Formwork
  38. Raza Muhammad, Besklubova Svetlana, Zhong Ray (2024-07)
    Economic Analysis of Offsite and Onsite 3D Construction Printing Techniques for Low-Story Buildings:
    A Comparative Value-Stream-Assessment
  39. Chen Yuxuan, Zhang Longfei, Wei Kai, Gao Huaxing et al. (2024-04)
    Rheology-Control and Shrinkage-Mitigation of 3D Printed Geopolymer Concrete Using Nano-Cellulose and Magnesium-Oxide
  40. 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
  41. Zaid Osama, Ouni Mohamed (2024-04)
    Advancements in 3D Printing of Cementitious Materials:
    A Review of Mineral Additives, Properties, and Systematic Developments
  42. Banijamali Kasra, Vosoughi Payam, Arce Gabriel, Noorvand Hassan et al. (2024-03)
    Early-Age Strength Monitoring of Sensor-Embedded 3D Printed Structures
  43. Skibicki Szymon, Szewczyk Piotr, Majewska Julia, Sibera Daniel et al. (2024-03)
    The Effect of Inter-Layer Adhesion on Stress-Distribution in 3D Printed Beam Elements
  44. İlcan Hüseyin, Özkılıç Hamza, Tuğluca Merve, Şahmaran Mustafa (2024-02)
    Inter-Layer Mechanical Performance of 3D Printed Cementitious Systems:
    A Comprehensive Study on Operational and Material Parameters
  45. Gamage Kumari, Fawzia Sabrina, Zahra Tatheer, Teixeira Muge et al. (2024-02)
    Advancement in Sustainable 3D Concrete Printing:
    A Review on Materials, Challenges, and Current Progress in Australia
  46. Zhou Wen, Zhu He, Hu Wei-Hsiu, Wollaston Ryan et al. (2024-02)
    Low-Carbon, Expansive Engineered Cementitious Composites (ECC) In the Context of 3D Printing
  47. Bekaert Michiel, Tittelboom Kim, Schutter Geert (2023-10)
    The Effect of Curing Conditions on the Service Life of 3D Printed Concrete Formwork
  48. Markin Slava, Cordova Julian, Mechtcherine Viktor (2023-10)
    Evolution of Capillary Pressure in 3D Printed Concrete Elements:
    Numerical Modelling and Experimental Validation
  49. Şahin Hatice, Mardani Ali (2023-10)
    How Does Rheological Behavior Affect the Inter-Layer Bonding Strength of 3DPC Mixtures?
  50. Federowicz Karol, Techman Mateusz, Skibicki Szymon, Chougan Mehdi et al. (2023-08)
    Development of 3D Printed Heavyweight Concrete Containing Magnetite-Aggregate
  51. Zhu Lingli, Zhang Meng, Zhang Yaqi, Yao Jie et al. (2023-07)
    Research Progress on Shrinkage Properties of Extruded 3D Printed Cement-Based Materials
  52. Ghasemi Alireza, Naser Mohannad (2023-07)
    Tailoring 3D Printed Concrete Through Explainable Artificial Intelligence
  53. Wang Chaofan, Chen Bing, Vo Thanh, Rezania Mohammad (2023-07)
    Mechanical Anisotropy, Rheology and Carbon Footprint of 3D Printable Concrete:
    A Review
  54. Mujeeb Syed, Samudrala Manideep, Lanjewar Bhagyashri, Chippagiri Ravijanya et al. (2023-05)
    Development of Alkali-Activated 3D Printable Concrete:
    A Review
  55. Haar Bjorn, Kruger Jacques, Zijl Gideon (2023-05)
    Off-Site Construction with 3D Concrete Printing
  56. Paul Suvash, Basit Md, Hasan Noor, Dey Dhrutiman et al. (2023-04)
    3D Printing of Geopolymer Mortar:
    Overview of the Effect of Mix-Design and Printing Parameters on the Strength
  57. Nodehi Mehrab, Omer Liam, Asiabanpour Bahram, Ozbakkaloglu Togay (2023-04)
    A Novel Lightweight Mechanism for 3D Printing of Cementitious Materials
  58. Razzaghian Ghadikolaee Mehrdad, Cerro-Prada Elena, Pan Zhu, Korayem Asghar (2023-04)
    Nanomaterials as Promising Additives for High-Performance 3D Printed Concrete:
    A Critical Review
  59. Ramezani Amir, Modaresi Shahriar, Dashti Pooria, Givkashi Mohammad et al. (2023-04)
    Effects of Different Types of Fibers on Fresh and Hardened Properties of Cement and Geopolymer-Based 3D Printed Mixtures:
    A Review
  60. Markin Slava, Mechtcherine Viktor (2023-03)
    Quantification of Plastic Shrinkage and Plastic Shrinkage Cracking of the 3D Printable Concretes Using 2D Digital Image Correlation
  61. Şahin Hatice, Mardani Ali (2023-02)
    Mechanical Properties, Durability Performance and Inter-Layer Adhesion of 3DPC Mixtures:
    A State‐of‐the‐art Review
  62. Qaidi Shaker, Yahia Ammar, Tayeh B., Unis H. et al. (2022-10)
    3D Printed Geopolymer Composites:
    A Review
  63. Xu Weiguo, Huang Shuyi, Han Dong, Zhang Zhiling et al. (2022-08)
    Toward Automated Construction:
    The Design-to-Printing Workflow for a Robotic In-Situ 3D Printed House
  64. Bekaert Michiel, Tittelboom Kim, Schutter Geert (2022-08)
    3D Printed Concrete as Stay-in-Place Formwork:
    Mechanics During Casting and Curing
  65. Nodehi Mehrab, Aguayo Federico, Nodehi Shahab, Gholampour Aliakbar et al. (2022-07)
    Durability Properties of 3D Printed Concrete
  66. Sikora Paweł, Techman Mateusz, Federowicz Karol, Khayatt Ahmed et al. (2022-07)
    Insight into the Microstructural and Durability Characteristics of 3D Printed Concrete:
    Cast versus Printed Specimens
  67. Ekanayaka Virama, Lachmayer Lukas, Raatz Annika, Hürkamp André (2022-06)
    Approach to Optimize the Inter-Layer Waiting Time in Additive Manufacturing with Concrete Utilizing FEM Modeling
  68. 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
  69. Flatt Robert, Wangler Timothy (2022-05)
    On Sustainability and Digital Fabrication with Concrete
  70. Skibicki Szymon, Pułtorak Monika, Kaszyńska Maria, Hoffmann Marcin et al. (2022-04)
    The Effect of Using Recycled PET-Aggregates on Mechanical and Durability Properties of 3D Printed Mortar
  71. Mechtcherine Viktor, Tittelboom Kim, Kazemian Ali, Kreiger Eric et al. (2022-04)
    A Roadmap for Quality-Control of Hardening and Hardened Printed Concrete
  72. 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
  73. Moelich Gerrit, Kruger Jacques, Combrinck Riaan (2022-04)
    A Plastic Shrinkage Cracking-Risk-Model for 3D Printed Concrete Exposed to Different Environments
  74. Amran Mugahed, Abdelgader Hakim, Onaizi Ali, Fediuk Roman et al. (2021-12)
    3D Printable Alkali-Activated Concretes for Building Applications:
    A Critical Review
  75. Skibicki Szymon, Jakubowska Patrycja, Kaszyńska Maria, Sibera Daniel et al. (2021-12)
    Early-Age Mechanical Properties of 3D Printed Mortar with Spent Garnet
  76. Skibicki Szymon, Techman Mateusz, Federowicz Karol, Olczyk Norbert et al. (2021-12)
    Experimental Study of Hardened Young's Modulus for 3D Printed Mortar
  77. 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
  78. Rahul Attupurathu, Mohan Manu, Schutter Geert, Tittelboom Kim (2021-10)
    3D Printable Concrete with Natural and Recycled Coarse Aggregates:
    Rheological, Mechanical and Shrinkage Behavior
  79. Tran Mien, Cu Yen, Le Chau (2021-10)
    Rheology and Shrinkage of Concrete Using Polypropylene-Fiber for 3D Concrete Printing
  80. Shahmirzadi Mohsen, Gholampour Aliakbar, Kashani Alireza, Ngo Tuan (2021-09)
    Shrinkage Behavior of Cementitious 3D Printing Materials:
    Effect of Temperature and Relative Humidity
  81. Nodehi Mehrab, Asiabanpour Bahram, Omer Liam, Ozbakkaloglu Togay (2021-08)
    Material-Characterization of Diversity Aggregated Cementitious Materials Produced with a Modular Lightweight Additive Manufacturing Extrusion-System
  82. Rehman Atta, Kim Jung-Hoon (2021-07)
    3D Concrete Printing:
    A Systematic Review of Rheology, Mix Designs, Mechanical, Microstructural, and Durability Characteristics
  83. Perrot Arnaud, Pierre Alexandre, Nerella Venkatesh, Wolfs Robert et al. (2021-07)
    From Analytical Methods to Numerical Simulations:
    A Process Engineering Toolbox for 3D Concrete Printing
  84. Xiao Jianzhuang, Ji Guangchao, Zhang Yamei, Ma Guowei et al. (2021-06)
    Large-Scale 3D Printing Concrete Technology:
    Current Status and Future Opportunities
  85. Song Hongwei, Li Xinle (2021-05)
    An Overview on the Rheology, Mechanical Properties, Durability, 3D Printing, and Microstructural Performance of Nanomaterials in Cementitious Composites
  86. 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
  87. 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
  88. Sikora Paweł, Chung Sang-Yeop, Liard Maxime, Lootens Didier et al. (2021-02)
    The Effects of Nano-Silica on the Fresh and Hardened Properties of 3D Printable Mortars
  89. Skibicki Szymon, Pułtorak Monika, Kaszyńska Maria (2021-01)
    Evaluation of Material-Modification Using PET in 3D Concrete Printing Technology
  90. Putten Jolien, Snoeck Didier, Coensel R., Schutter Geert et al. (2020-12)
    Early-Age Shrinkage Phenomena of 3D Printed Cementitious Materials with Superabsorbent Polymers
  91. Kaszyńska Maria, Skibicki Szymon, Hoffmann Marcin (2020-12)
    3D Concrete Printing for Sustainable Construction

BibTeX 
@article{fede_kasz_ziel_hoff.2020.EoCMoSDi3PC,
  author            = "Karol Federowicz and Maria Kaszyńska and Adam Zieliński and Marcin Hoffmann",
  title             = "Effect of Curing Methods on Shrinkage Development in 3D Printed Concrete",
  doi               = "10.3390/ma13112590",
  year              = "2020",
  journal           = "Materials",
  volume            = "13",
  number            = "11",
}
Formatted Citation

K. Federowicz, M. Kaszyńska, A. Zieliński and M. Hoffmann, “Effect of Curing Methods on Shrinkage Development in 3D Printed Concrete”, Materials, vol. 13, no. 11, 2020, doi: 10.3390/ma13112590.

Federowicz, Karol, Maria Kaszyńska, Adam Zieliński, and Marcin Hoffmann. “Effect of Curing Methods on Shrinkage Development in 3D Printed Concrete”. Materials 13, no. 11 (2020). https://doi.org/10.3390/ma13112590.