Tag: cement composites
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Joule-Heated Cement: Continuous vs Discontinuous Carbon Fibers
Introduction to Joule-Heated Cement Composites Joule heating, the conversion of electrical energy into thermal energy within a material, is a growing concept in cementitious composites. By integrating carbon fibers into cement, researchers aim to create self-heating or smart concrete systems that can respond to environmental conditions, improve curing, or enable de-icing and thermal management in…
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Continuous vs. Discontinuous Carbon Fibers in Joule-Heated Cement Composites: A Comparative Investigation
Overview: Fiber Form in Joule-Heated Cement Composites Electrical resistance heating, or Joule heating, has emerged as a promising method to heat cement-based materials for curing, recovery, and de-icing applications. A key factor driving performance in these smart cement composites is the form of embedded carbon fibers. This article examines the distinctions between continuous and discontinuous…
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Continuous and Discontinuous Carbon Fibers in Joule-Heated Cement Composites: An Investigation
Overview: Joule-Heated Cement Composites with Carbon Fibers Self-heating cement-based materials are emerging as a promising pathway for improving durability, energy efficiency, and resilience in modern infrastructure. A key strategy is to embed carbon fibers within the cement matrix to enable Joule heating—where electrical energy is converted directly into heat. This article synthesizes the latest findings…