Abstract
In the concrete industry, various R&D efforts have been devoted to self-healing technology, which can maintain the long-term performance of concrete structures, which is important in terms of sustainable development. Cracks in cement composites occur and propagate because of various internal and external factors, reducing the composite’s stability. Interest in “self-healing” materials that can repair cracks has led researchers to embed self-healing capsules in cement composites. Overcoming the limitations of polymer capsules produced by chemical manufacturing methods, three-dimensional (3D) printing can produce capsules quickly and accurately and offers advantages such as high material strength, low cost, and the ability to fabricate capsules with complex geometries. We performed structural analysis simulations, experimentally evaluated the mechanical properties and solubility of poly(lactic acid) (PLA) capsules, and examined the effect of the capsule wall thickness and printing direction on cement composites embedded with these capsules. Thicker capsules withstood larger bursting loads, and the capsule rupture characteristics varied with the printing angle. Thus, the capsule design parameters must be optimized for different environments. Although the embedded capsules slightly reduced the compressive strength of the cement composites, the benefit of the encapsulated self-healing agent is expected to overcome this disadvantage.
Highlights
poly(lactic acid) (PLA) was selected as the material for fabricating the capsules
The capsule was positioned between fixed and moveable flat plates, with a force applied to the moveable plate in the vertical direction
Stress simulations enabled analysis of the stress characteristics according to the stack2
Summary
Interest in sustainable development has greatly increased, and various R&D activities focused on sustainable development are being conducted in the concrete industry, which consumes a great deal of cement and aggregate. Extending the service life of concrete avoids waste and conserves materials. Concrete is a low cost, producible material but has disadvantages such as low tensile strength and brittleness [1,2,3,4]. Various factors can cause cracks to form in cement composites, which propagate because of both internal and external deterioration factors, thereby 4.0/). Reducing the stability of the cement composites. Research on cement composites that can “self-heal” cracks has increased in recent years [5,6,7], and many studies have proposed the use of self-healing capsules embedded in cement composites to heal such cracks
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