AI Article Synopsis
- Researchers at Cracow University of Technology developed a national truck scale platform made of prestressed concrete that can support 60 tons.
- They designed innovative post-tensioned hollow-core slabs using PVC pipes to decrease the weight, with specific dimensions and spans for enhanced performance.
- The study included testing the slabs under repeated loads to analyze their behavior, and it outlines design principles, research methods, and suggestions for optimizing future designs.
Article Abstract
At Cracow University of Technology, attempts were made to develop national truck scale platforms with a capacity of 60 tons, made from prestressed concrete. For this work, we designed slabs partially prestressed with unbonded tendons featuring a cross-section of 1.00 × 0.28 m and a span of 5.94 m. To reduce the weight of the slabs, four channels made from commonly used ø110 × 2.2 mm PVC pipes were used. In this way, we created post-tensioned hollow-core slabs. Due to the unpredictable behavior of slabs operating in a cracked state under a repetitive load, two slabs were subjected to cyclic loads amounting to 1,000,000 cycles with different load values. This paper presents the basic design principles and design details of the slabs, as well as the methodology and results of the research conducted. Lastly, we provide appropriate conclusions directed at further optimizing the slabs.
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Source |
|---|---|
| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC11356017 | PMC |
| http://dx.doi.org/10.3390/ma17164154 | DOI Listing |
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