Gangarao Hota scite author profile

Abstract:The in-service Hakka rammed earth buildings, in the Fujian Province of China, are unique in design and performance. Their UNESCO's inscription as World Heritage sites recognizes their artistic, cultural, social and historic significance. Sponsored by the National Science Foundation of the United States, the authors have examined the engineering values of these buildings in terms of comfortable living at low energy consumption, sustainability and durability. The objective of this study was to better understand the thermo-mechanical and aging responses of Hakka earth buildings under thermal and earthquake loads through nondestructive field evaluation, including full-scale roof truss and floor testing, laboratory testing of field samples and finite element modeling. This paper presents our observations and findings from the field nondestructive evaluations with emphasis on the integrity of the rammed earth outer walls and inner wood structures, as well as the thermal comfort of living in these buildings, while a second paper presents the results from the material characterization of field samples and the structural responses of a representative building under earthquake induced loads through finite element analysis.

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Effects of ultraviolet solar radiation on the properties of particulate-filled epoxy based polymer coating

Khotbehsara

Manalo

Aravinthan

et al. 2020

Polymer Degradation and Stability

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Durability of glass fiber-reinforced polymer composites under the combined effects of moisture and sustained loads

Wang

Hota

Liang

et al. 2015

Journal of Reinforced Plastics and Composites

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This paper deals with durability of glass fiber-reinforced polymer composites under sustained loads and simultaneously exposed to either saltwater or tap water. The tensile properties of the specimens before and after conditioning were evaluated along with their moisture uptaking behavior to reveal the durability of the specimens under combined effects. The mass change curves under saltwater and tap water immersion exhibited dual-stage diffusion process. The first stage followed Fickian profile, while mass loss occurred in the second stage with increasing immersion time, attributed to hydrolysis of resin. The weight gain in saltwater was greater than that in tap water. Moreover, the mass change curves under varying percentage of sustained loadings exhibited similar trends, while the maximum moisture uptake was obviously affected by the loading conditions. Based on Fick's second law, the diffusion coefficients in the first stage under different conditions were determined through the least-square regression technique. It was observed that the tensile strength and modulus were increasing initially upon immersion, which was attributed to curing beyond the initial cure during manufacture. Then, the tensile properties decreased with continued immersion in saltwater or tap water. After 180 days of immersion, the tensile properties degraded at a smaller rate, both for specimens with and without sustained loading. For the saltwater immersion of 360 days, the tensile properties decreased significantly as the sustained loading increased. However, the tap water immersion had less detrimental effect on tensile properties of glass fiberreinforced polymer. Furthermore, based on Arrhenius concept coupled with fracture mechanics principle, a new model was proposed to describe the combined effects of immersion and sustained load.

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Degradation mechanism of glass fiber/vinylester-based composite materials under accelerated and natural aging

Hota

Barker

Manalo

2020

Construction and Building Materials

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Gangarao Hota

Comparative durability of GFRP composite reinforcing bars in concrete and in simulated concrete environments

Nondestructive Evaluation of Historic Hakka Rammed Earth Structures

Effects of ultraviolet solar radiation on the properties of particulate-filled epoxy based polymer coating

Durability of glass fiber-reinforced polymer composites under the combined effects of moisture and sustained loads

Degradation mechanism of glass fiber/vinylester-based composite materials under accelerated and natural aging

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