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The Effect of Using Recycled PET-Aggregates on Mechanical and Durability Properties of 3D Printed Mortar (2022-04)

10.1016/j.conbuildmat.2022.127443

 Skibicki Szymon,  Pułtorak Monika,  Kaszyńska Maria,  Hoffmann Marcin, Ekiert Ewa,  Sibera Daniel
Journal Article - Construction and Building Materials, Vol. 335

Abstract

3D concrete printing technology of cementitious materials is challenging in many aspects. Despite the workability and mechanical properties of a mix and hardened concrete or mortar, the researchers need to face problems with environmental impact and durability of printed elements. Furthermore, today thousands of tons of waste are produced and natural aggregates which are most used resources by volume in the construction sector are on the verge of exhaustion. To date, limited knowledge about utilized of artificial aggregate (including Polyethylene terephthalate (PET) in 3D printed mortar is available. The main objective of this study is to develop 3D printed mortar with PET granules as the replacement of natural aggregate (10 vol-% to 50 vol-%). The paper contributes to knowledge of properties of 3D printed composites with plastic aggregate. Four printable mixes were made: one reference mix and three mixes in which natural aggregate was replaced by PET granulate in quantities amounting to 10%, 30% and 50% (by volume), respectively. The replacement ratios were chosen on the base of literature review for ordinary cementitious mortars. Several strength tests were carried out for standard and printed specimens. In addition, a freeze–thaw resistance test and high temperature performance test were conducted to evaluate to validate the properties of artificial aggregate. The results show that PET granulate is useful in 3D printing owing to their buildability and extrudability properties. Furthermore, printed mixes with high amount of PET (30% and 50%) granulate shows high decreases in strength (up to 75%). Unfortunately, after the freeze–thaw resistance test specimens with a high amount of PET granulate (30% and 50%) indicated high strength reduction (up to 80%). Exposure to a temperature exceeding the melting point of PET results in significant reduction of compressive strength for printed specimens (up to 68.8 % for 50 % PET addition). In addition, mixes with up to 10% PET can be used for most structural elements even under varying thermal conditions (even under extreme cold temperature).

57 References

  1. Arunothayan Arun, Nematollahi Behzad, Ranade Ravi, Bong Shin et al. (2020-10)
    Development of 3D Printable Ultra-High-Performance Fiber-Reinforced Concrete for Digital Construction
  2. Bong Shin, Nematollahi Behzad, Nazari Ali, Xia Ming et al. (2018-09)
    Fresh and Hardened Properties of 3D Printable Geopolymer Cured in Ambient Temperature
  3. Bos Freek, Bosco Emanuela, Salet Theo (2018-11)
    Ductility of 3D Printed Concrete Reinforced with Short Straight Steel-Fibers
  4. Bos Freek, Wolfs Robert, Ahmed Zeeshan, Salet Theo (2016-08)
    Additive Manufacturing of Concrete in Construction:
    Potentials and Challenges of 3D Concrete Printing
  5. Buswell Richard, Silva Wilson, Jones Scott, Dirrenberger Justin (2018-06)
    3D Printing Using Concrete-Extrusion:
    A Roadmap for Research
  6. Buswell Richard, Soar Rupert, Gibb Alistar, Thorpe Tony (2006-06)
    Freeform Construction:
    Mega-Scale Rapid Manufacturing for Construction
  7. Casagrande Lorenzo, Esposito Laura, Menna Costantino, Asprone Domenico et al. (2020-02)
    Effect of Testing Procedures on Buildability Properties of 3D Printable Concrete
  8. Cho Seung, Kruger Jacques, Bester Frederick, Heever Marchant et al. (2020-07)
    A Compendious Rheo-Mechanical Test for Printability-Assessment of 3D Printable Concrete
  9. 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
  10. 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
  11. Ding Tao, Xiao Jianzhuang, Zou Shuai, Zhou Xinji (2020-08)
    Anisotropic Behavior in Bending of 3D Printed Concrete Reinforced with Fibers
  12. Duballet Romain, Baverel Olivier, Dirrenberger Justin (2017-08)
    Classification of Building Systems for Concrete 3D Printing
  13. Federowicz Karol, Kaszyńska Maria, Zieliński Adam, Hoffmann Marcin (2020-06)
    Effect of Curing Methods on Shrinkage Development in 3D Printed Concrete
  14. Hambach Manuel, Volkmer Dirk (2017-02)
    Properties of 3D Printed Fiber-Reinforced Portland-Cement-Paste
  15. 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
  16. Kaszyńska Maria, Skibicki Szymon, Hoffmann Marcin (2020-12)
    3D Concrete Printing for Sustainable Construction
  17. Kazemian Ali, Yuan Xiao, Cochran Evan, Khoshnevis Behrokh (2017-04)
    Cementitious Materials for Construction-Scale 3D Printing:
    Laboratory Testing of Fresh Printing Mixture
  18. Kazemian Ali, Yuan Xiao, Davtalab Omid, Khoshnevis Behrokh (2019-01)
    Computer-Vision for Real-Time Extrusion-Quality-Monitoring and Control in Robotic Construction
  19. Khalil Noura, Aouad Georges, Cheikh Khadija, Rémond Sébastien (2017-09)
    Use of Calcium-Sulfoaluminate-Cements for Setting-Control of 3D Printing Mortars
  20. Kruger Jacques, Zeranka Stephan, Zijl Gideon (2019-07)
    An Ab-Inito Approach for Thixotropy Characterisation of Nano-Particle-Infused 3D Printable Concrete
  21. Labonnote Nathalie, Rønnquist Anders, Manum Bendik, Rüther Petra (2016-09)
    Additive Construction:
    State of the Art, Challenges and Opportunities
  22. Le Thanh, Austin Simon, Lim Sungwoo, Buswell Richard et al. (2012-01)
    Hardened Properties of High-Performance Printing Concrete
  23. Le Thanh, Austin Simon, Lim Sungwoo, Buswell Richard et al. (2012-01)
    Mix-Design and Fresh Properties for High-Performance Printing Concrete
  24. Li Zhanzhao, Hojati Maryam, Wu Zhengyu, Piasente Jonathon et al. (2020-07)
    Fresh and Hardened Properties of Extrusion-Based 3D Printed Cementitious Materials:
    A Review
  25. Lowke Dirk, Dini Enrico, Perrot Arnaud, Weger Daniel et al. (2018-07)
    Particle-Bed 3D Printing in Concrete Construction:
    Possibilities and Challenges
  26. Lu Bing, Weng Yiwei, Li Mingyang, Qian Ye et al. (2019-02)
    A Systematical Review of 3D Printable Cementitious Materials
  27. Malaeb Zeina, Sakka Fatima, Hamzeh Farook (2019-02)
    3D Concrete Printing:
    Machine Design, Mix Proportioning, and Mix Comparison Between Different Machine Setups
  28. Mechtcherine Viktor, Bos Freek, Perrot Arnaud, Silva Wilson et al. (2020-03)
    Extrusion-Based Additive Manufacturing with Cement-Based Materials:
    Production Steps, Processes, and Their Underlying Physics
  29. Nematollahi Behzad, Vijay Praful, Sanjayan Jay, Nazari Ali et al. (2018-11)
    Effect of Polypropylene Fiber Addition on Properties of Geopolymers Made by 3D Printing for Digital Construction
  30. Nerella Venkatesh, Mechtcherine Viktor (2019-02)
    Studying the Printability of Fresh Concrete for Formwork-Free Concrete Onsite 3D Printing Technology (CONPrint3D)
  31. Nerella Venkatesh, Näther Mathias, Iqbal Arsalan, Butler Marko et al. (2018-09)
    In-Line Quantification of Extrudability of Cementitious Materials for Digital Construction
  32. Panda Biranchi, Paul Suvash, Mohamed Nisar, Tay Yi et al. (2017-09)
    Measurement of Tensile Bond Strength of 3D Printed Geopolymer Mortar
  33. Panda Biranchi, Paul Suvash, Tan Ming (2017-07)
    Anisotropic Mechanical Performance of 3D Printed Fiber-Reinforced Sustainable Construction-Material
  34. Paul Suvash, Tay Yi, Panda Biranchi, Tan Ming (2017-08)
    Fresh and Hardened Properties of 3D Printable Cementitious Materials for Building and Construction
  35. Perrot Arnaud, Rangeard Damien, Pierre Alexandre (2015-02)
    Structural Build-Up of Cement-Based Materials Used for 3D Printing-Extrusion-Techniques
  36. Rahul Attupurathu, Santhanam Manu, Meena Hitesh, Ghani Zimam (2019-08)
    Mechanical Characterization of 3D Printable Concrete
  37. Roussel Nicolas (2018-05)
    Rheological Requirements for Printable Concretes
  38. Sanjayan Jay, Nematollahi Behzad, Xia Ming, Marchment Taylor (2018-04)
    Effect of Surface Moisture on Inter-Layer Strength of 3D Printed Concrete
  39. Secrieru Egor, Fataei Shirin, Schröfl Christof, Mechtcherine Viktor (2017-04)
    Study on Concrete Pumpability Combining Different Laboratory Tools and Linkage to Rheology
  40. Shakor Pshtiwan, Nejadi Shami, Paul Gavin (2019-05)
    A Study into the Effect of Different Nozzles Shapes and Fiber-Reinforcement in 3D Printed Mortar
  41. Shakor Pshtiwan, Nejadi Shami, Sutjipto Sheila, Paul Gavin et al. (2020-01)
    Effects of Deposition-Velocity in the Presence-Absence of E6-Glass-Fiber on Extrusion-Based 3D Printed Mortar
  42. Siddika Ayesha, Mamun Md., Ferdous Wahid, Saha Ashish et al. (2019-12)
    3D Printed Concrete:
    Applications, Performance, and Challenges
  43. 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
  44. 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
  45. Skibicki Szymon, Kaszyńska Maria, Wahib Nawid, Techman Mateusz et al. (2020-07)
    Properties of Composite Modified with Limestone-Powder for 3D Concrete Printing
  46. Skibicki Szymon, Pułtorak Monika, Kaszyńska Maria (2021-01)
    Evaluation of Material-Modification Using PET in 3D Concrete Printing Technology
  47. Tay Yi, Qian Ye, Tan Ming (2019-05)
    Printability-Region for 3D Concrete Printing Using Slump- and Slump-Flow-Test
  48. Ting Guan, Tay Yi, Tan Ming (2021-04)
    Experimental Measurement on the Effects of Recycled Glass-Cullets as Aggregates for Construction 3D Printing
  49. Wangler Timothy, Lloret-Fritschi Ena, Reiter Lex, Hack Norman et al. (2016-10)
    Digital Concrete:
    Opportunities and Challenges
  50. Wangler Timothy, Roussel Nicolas, Bos Freek, Salet Theo et al. (2019-06)
    Digital Concrete:
    A Review
  51. Wolfs Robert, Bos Freek, Salet Theo (2018-02)
    Early-Age Mechanical Behaviour of 3D Printed Concrete:
    Numerical Modelling and Experimental Testing
  52. Wolfs Robert, Bos Freek, Salet Theo (2019-03)
    Hardened Properties of 3D Printed Concrete:
    The Influence of Process Parameters on Inter-Layer Adhesion
  53. Wolfs Robert, Bos Freek, Salet Theo (2019-06)
    Triaxial Compression Testing on Early-Age Concrete for Numerical Analysis of 3D Concrete Printing
  54. Yang Hongxiong, Chung Jacky, Chen Yuhong, Li Yijia (2018-06)
    The Cost Calculation Method of Construction 3D Printing Aligned with Internet of Things
  55. Ye Junhong, Cui Can, Yu Jiangtao, Yu Kequan et al. (2021-01)
    Fresh and Anisotropic-Mechanical Properties of 3D Printable Ultra-High-Ductile Concrete with Crumb-Rubber
  56. Zareiyan Babak, Khoshnevis Behrokh (2018-04)
    _Effects of Mixture Ingredients on Inter-Layer Adhesion of Concrete in Contour Crafting
  57. Zhang Yu, Zhang Yunsheng, She Wei, Yang Lin et al. (2019-01)
    Rheological and Hardened Properties of the High-Thixotropy 3D Printing Concrete

37 Citations

  1. Liu Xinhao, Hu Jiajun, Xiong Guiyan, Cundy Andrew et al. (2025-12)
    Long-Term Durability and Degradation Mechanisms of 3D Printed Geopolymers (3DPG) With/Without Healing Agents in Marine Environments
  2. Liu Huawei, Tao Yaxin, Zhu Chao, Liu Chao et al. (2025-11)
    3D Printed Concrete with Recycled Coarse Aggregate:
    Freeze-Thaw Resistance Assessment and Damage Mechanisms
  3. Lu Qi, Hua Sudong, Yue Hongfei (2025-11)
    Effect of Spherical Electric Arc Slag on Solid Waste-Based 3D-Printed Concrete
  4. Válek Josef, Romanová Dorota (2025-09)
    3D Concrete Printing Simulating Device in Comparison to Real Printing and Aggregate Substitutes
  5. Maroszek Marcin, Rudziewicz Magdalena, Hebda Marek (2025-09)
    Recycled Components in 3D Concrete Printing Mixes:
    A Review
  6. Sikora Paweł, Skibicki Szymon, Bielawski Jakub, Techman Mateusz et al. (2025-09)
    Elevated Temperature Response and Fire Resistance Considerations of 3D-Printed Concrete:
    Small- to Medium-Scale Wall Experiments
  7. Ravichandran Darssni, Prem Prabhat, Bhaskara Gollapalli, Maheswaran Srinivasan et al. (2025-07)
    Time-Dependent Properties of 3D Printable Plain and Fibered High Strength Concrete Incorporating Copper Slag as an Alternate Fine Aggregate
  8. Oladunni Oluwole, Lee Carman, Ibrahim Idowu, Olanrewaju Oludolapo (2025-03)
    Advances in Sustainable Additive Manufacturing:
    A Systematic Review for Construction Industry to Mitigate Greenhouse Gas Emissions
  9. Mim Nusrat, Shaikh Faiz, Sarker Prabir (2025-03)
    Sustainable 3D Printed Concrete Incorporating Alternative Fine Aggregates:
    A Review
  10. Liu Chao, Liu Huawei, Wu Yiwen, Wu Jian et al. (2025-02)
    Effect of X-Ray CT Characterized Pore Structure on the Freeze-Thaw Resistance of 3D Printed Concrete with Recycled Coarse Aggregate
  11. Kaszyńska Maria, Skibicki Szymon (2024-11)
    Sustainable Development Approach for 3D Concrete Printing
  12. 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
  13. Skibicki Szymon, Dvořák Richard, Pazdera Luboš, Topolář Libor et al. (2024-11)
    Anisotropic Mechanical Properties of 3D Printed Mortar Determined by Standard Flexural and Compression-Test and Acoustic Emission
  14. Chougan Mehdi, Skibicki Szymon, Noaimat Yazeed, Federowicz Karol et al. (2024-09)
    Comparative Analysis of Ternary Blended Cement with Clay and Engineering-Brick-Aggregate for High-Performance 3D Printing
  15. 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
  16. Tanyildizi Harun, Seloglu Maksut, Coskun Ahmet (2024-08)
    The Effect of Nano-Zinc-Oxide on Freeze-Thaw-Resistance of 3D Printed Geopolymer Mortars
  17. Liu Junli, Haikola Pirjo, Fox Kate, Tran Jonathan (2024-06)
    3D Printing of Cementitious Composites with Seashell-Particles:
    Mechanical and Microstructural Analysis
  18. González-Fonteboa Belén, Seara-Paz Sindy, Caneda-Martínez Laura (2024-06)
    3D Printing Concrete with Byproducts
  19. Zhuang Zicheng, Xu Fengming, Ye Junhong, Hu Nan et al. (2024-06)
    A Comprehensive Review of Sustainable Materials and Tool-Path-Optimization in 3D Concrete Printing
  20. Skibicki Szymon, Federowicz Karol, Hoffmann Marcin, Chougan Mehdi et al. (2024-05)
    Potential of Reusing 3D Printed Concrete (3DPC) Fine Recycled Aggregates as a Strategy Towards Decreasing Cement Content in 3DPC
  21. Babafemi Adewumi, Norval Chris, Kolawole John, Paul Suvash et al. (2024-04)
    3D Printed Limestone-Calcined-Clay-Cement Concrete Incorporating Recycled Plastic-Waste:
    RESIN8
  22. 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
  23. Zhao Zengfeng, Ji Chenyuan, Xiao Jianzhuang, Yao Lei et al. (2023-11)
    A Critical Review on Reducing the Environmental Impact of 3D Printing Concrete:
    Material-Preparation, Construction-Process and Structure-Level
  24. Singh Amardeep, Wang Yufei, Zhou Yiyi, Sun Junbo et al. (2023-10)
    Utilization of Antimony-Tailings in Fiber-Reinforced 3D Printed Concrete:
    A Sustainable Approach for Construction Materials
  25. Oosthuizen Jandré, Babafemi Adewumi, Walls Richard (2023-10)
    3D Printed Recycled Plastic Eco-Aggregate (Resin8) Concrete
  26. Rui Aoyu, Wang Li, Lin Wenyu, Ma Guowei (2023-10)
    Experimental Study on Damage Anisotropy of 3D Printed Concrete Exposed to Sulfate-Attack
  27. Olczyk Norbert, Skibicki Szymon, Gierszewska Natalia (2023-08)
    3D Printed Mortar with High Alumina-Cement as Alternative Solution for Standard Materials Used for 3D Printing
  28. Federowicz Karol, Techman Mateusz, Skibicki Szymon, Chougan Mehdi et al. (2023-08)
    Development of 3D Printed Heavyweight Concrete Containing Magnetite-Aggregate
  29. Wang Chaofan, Chen Bing, Vo Thanh, Rezania Mohammad (2023-07)
    Mechanical Anisotropy, Rheology and Carbon Footprint of 3D Printable Concrete:
    A Review
  30. Riaz Raja, Usman Muhammad, Ali Ammar, Majid Usama et al. (2023-06)
    Inclusive Characterization of 3D Printed Concrete in Additive Manufacturing:
    A Detailed Review
  31. Ding Tao, Xiao Jianzhuang, Mechtcherine Viktor (2023-05)
    Microstructure and Mechanical Properties of Inter-Layer Regions in Extrusion-Based 3D Printed Concrete:
    A Critical Review
  32. Valente Marco, Sambucci Matteo, Chougan Mehdi, Ghaffar Seyed (2023-04)
    Composite Alkali-Activated Materials with Waste-Tire-Rubber Designed for Additive Manufacturing:
    An Eco-Sustainable and Energy Saving Approach
  33. Fonseca Mariana, Matos Ana (2023-03)
    3D Construction Printing Standing for Sustainability and Circularity:
    Material-Level Opportunities
  34. Ahmed Ghafur (2023-01)
    A Review of 3D Concrete Printing:
    Materials and Process Characterization, Economic Considerations and Environmental Sustainability
  35. Melichar Jindřich, Žižková Nikol, Brožovský Jiří, Mészárosová Lenka et al. (2022-11)
    Study of the Interaction of Cement-Based Materials for 3D Printing with Fly-Ash and Superabsorbent Polymers
  36. Nodehi Mehrab, Aguayo Federico, Nodehi Shahab, Gholampour Aliakbar et al. (2022-07)
    Durability Properties of 3D Printed Concrete
  37. 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

BibTeX 
@article{skib_put_kasz_hoff.2022.TEoURPAoMaDPo3PM,
  author            = "Szymon Skibicki and Monika Pułtorak and Maria Kaszyńska and Marcin Hoffmann and Ewa Ekiert and Daniel Sibera",
  title             = "The Effect of Using Recycled PET-Aggregates on Mechanical and Durability Properties of 3D Printed Mortar",
  doi               = "10.1016/j.conbuildmat.2022.127443",
  year              = "2022",
  journal           = "Construction and Building Materials",
  volume            = "335",
}
Formatted Citation

S. Skibicki, M. Pułtorak, M. Kaszyńska, M. Hoffmann, E. Ekiert and D. Sibera, “The Effect of Using Recycled PET-Aggregates on Mechanical and Durability Properties of 3D Printed Mortar”, Construction and Building Materials, vol. 335, 2022, doi: 10.1016/j.conbuildmat.2022.127443.

Skibicki, Szymon, Monika Pułtorak, Maria Kaszyńska, Marcin Hoffmann, Ewa Ekiert, and Daniel Sibera. “The Effect of Using Recycled PET-Aggregates on Mechanical and Durability Properties of 3D Printed Mortar”. Construction and Building Materials 335 (2022). https://doi.org/10.1016/j.conbuildmat.2022.127443.