3D-Printed Concrete-2024
PDF files that can be downloaded and audio files that read the pdf content if you prefer audio
Course Description and Credit Information
**PDF files that can be downloaded and audio files that read the pdf content if you prefer audio**
Course Description:
This course explores the emerging field of 3D concrete printing and its applications. Participants will examine the latest advancements in large-scale additive manufacturing (AM) technology and its potential for revolutionizing the construction industry. The course will delve into the performance and characteristics of printable concrete in elevated temperature circumstances, bridging the knowledge gap in fire performance of 3D-printed concrete structural elements. Participants will explore the development of 3D printing mixes, including the evaluation of fresh printing properties, workability, extrudability, and setting time. The course will also cover the impact of aggregate-to-binder ratios on the mechanical properties of printed concrete and the role of nano- and micro-additives in improving the performance of 3D-printed concrete.
Learning Objectives:
1. Attendees will understand the principles and technologies behind 3D concrete printing.
2. Attendees will understand the impact of different fire scenarios on the performance of non-load-bearing 3D-printed concrete walls.
3. Attendees will learn about the role of nano- and micro-additives in enhancing the properties of 3D-printed concrete, such as thixotropy, porosity, permeability, and mechanical strength
General Course Information
Credits |
4.25 CEU/CE/PDH/CH |
HSW |
Yes |
Format |
PDF files that can be downloaded and audio files that read the pdf content if you prefer audio |
Presenter |
Industry Expert |
US State Approvals
LA CES Approved |
Yes |
States: AK, AL, AR, CT, DC, DE, FL, IA, IL, IN, KS, KY, LA, MD, MN, MI, MO, MS, NE, NH, NJ, NV, NM, OH, OK, OR, PA, SC, SD, TN, TX, UT, VA, WA, WI, WV, WY |
Yes |
North Carolina |
Yes |
Florida |
Yes |
New York |
*** |
GA, MI and MN |
Yes |
Canada Provinces and Territories
British Columbia |
Yes, per reciprocity with LA CES |
Ontario |
Yes, per reciprocity with LA CES |
Course curriculum
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Finite Element Modelling to Predict the Fire Performance of Bio-Inspired 3D-Printed Concrete Wall Panels Exposed to Realistic Fire
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Finite Element Modelling to Predict the Fire Performance of Bio-Inspired 3D-Printed Concrete Wall Panels Exposed to Realistic Fire
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Evaluation of Workability and Structuration Rate of Locally Developed 3D Printing Concrete Using Conventional Methods
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Evaluation of Workability and Structuration Rate of Locally Developed 3D Printing Concrete Using Conventional Methods
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Nanomaterials as Promising Additives for High-Performance 3D-Printed Concrete: A Critical Review
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Nanomaterials as Promising Additives for High-Performance 3D-Printed Concrete: A Critical Review
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Investigation of the Internal Structure of Hardened 3D-Printed Concrete by X-CT Scanning and Its Influence on the Mechanical Performance
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Investigation of the Internal Structure of Hardened 3D-Printed Concrete by X-CT Scanning and Its Influence on the Mechanical Performance
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Evaluation of Printability and Thermal Properties of 3D Printed Concrete Mixed with Phase Change Materials
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Evaluation of Printability and Thermal Properties of 3D Printed Concrete Mixed with Phase Change Materials
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Mechanical Performance of 3D Printed Concrete in Steam Curing Conditions
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Mechanical Performance of 3D Printed Concrete in Steam Curing Conditions
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About this course
- $114.71
- 14 lessons
- 4.25 hours of audio content
- PDF content available to download