Browsing by Author "Mendis MS"

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    item: Thesis-Abstract
    Decoding the potentials of vernacular timber preservation technology for structural applications
    (2022) Mendis MS; Halwatura RU; Somadewa R; Amarasekara H; Jayasinghe R
    ABSTRACT Along with the celebrated history in the field of construction in the world, wood has been a building material for hundreds of years. The stability of timber structures is influenced by their reliance on external factors as it’s a hygroscopic material. Where the moisture content has an impact on almost every structural parameter, including strength, stiffness, and dimensional stability. It is also extremely vulnerable to biological degradation caused by insects, fungi, and bacteria affecting the molecular structure. These scarcities were undertaken in traditional wooden structures in a significant, yet sensitive manner in a tropical country like Sri Lanka. The durability of traditional wooden constructions exists under a highly appreciable status. In a tropical environment, the prolonged physical sustainability of wood is a challenging task. These show a greater degree of tolerance in the harsh tropical environment. Empirically expressive information sources were investigated, therefore structures for shelters were selected for further analysis. In this case, Tampita Vihara (the shrines on pillars), Devala (shrines dedicated to deities), Ambalam (resting places for travelers), and Mandapa (the assembly spaces for administrative practices) of which physical remains are still available in a relatively preserved state of standing evidence were carefully chosen. Numerous literature findings are documented on their religious beliefs and the significance of their architecture. But the structural engineering aspects relevant to material perspectives have not been studied adequately. A holistic investigation of timber in construction was carried out using knowledge from traditional vernacular buildings. Traditional vernacular v 1 construction relied on a thorough awareness of the surrounding environment, as well as the characteristics of locally available materials and manual labor. Traditional people are essential stakeholders in forest management because they are often economically, socially, and culturally reliant on forests. This resulted in building artisans attaining a profound knowledge of the utilization and manipulation of materials. This study examines the state of the structures, which entails a thorough understanding of past and present conditions. The goal of collecting extensive data from various typological structures is to establish a knowledge basis for the future. Field survey analysis around Sri Lanka was conducted to accumulate and consolidate the traditional vernacular timber processing and preservation technologies. Results disclosed wood logs burying under paddy field mud as a well-established technique to treat wood. As well, three dominant plant species were identified as Mikania micrantha, Titonia diversifolia, Gliricidia sepium assorted with paddy field mud to enhance the properties before treatment. Further, the field survey results and the microscopic investigations proved Mangifera indica wood was used for roof elements utilized after the above treatment in traditional vernacular structures with in the use life range 40 to 50 years. This showed its potential to be used for structural applications after proper treatment. Finally, an experimental trial was performed to evaluate the traditional vernacular technology with amendments, reinventing two types of wood preservatives based on the material matrix as plant extracts assorted with paddy field mud and only plant extracts obtained for water. This combination of traditional vernacular and contemporary aspects could offer an interesting and profitable approach to the further development of the wood industry. Keywords: Timber architectural typologies; timber preservation technology; Mikania; Gliricidia sepium; Titonia diversifolia; Plant extracts; wood preservatives. 1 The term vernacular comes from linguistics, where it refers to language usage specific to a time, region, or group.
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    item: Thesis-Full-text
    Development of wearable triboelectric Nanogenerators using optimised knitted structures
    (2023) Hewage IS; Halwatura RU; Mendis MS
    Wood is a versatile and widely utilized material in various industries, ranging from construction to furniture manufacturing. In the context of the wood industry in Sri Lanka, The uses of wood in Sri Lanka date back to ancient times, with evidence of woodworking found in archaeological sites. This research aims to shed light on the intricate dynamics involved in the preservation and enhancement of wood quality by considering the specific effect of wood moisture content before dip diffusion treatment. This research conducted the quantitative industrial survey of mid-scale wood companies and qualitative testing procedures using Pine (Pinus), Hawarinuga (Alstonia), Mahogany (Swietenia), Mango (Mangifera indica), and Rubberwood (Hevea brasiliensis) types treated with two types of organic wood preservatives namely FSWOM, FSWM, and two types of industrial wood preservatives namely boron based treatment and ACQ.the wood samples tested with different moisture content level during six week. The study determined the recommended moisture content ranges for the selected wood preservative types and wood types. Pine wood can be recommended for FSWOM, FSWM, ACQ and Boron at 18% to 22 %. And considering Alastonia wood can only recommend FSWM moisture content range of 26 % to 30 %. consider the Mahogany wood can only recommended FSWM moisture content range of 24 % to 28 %. Also, Mango wood can recommended FSWOM moisture content range is 16 % to 26 %, FSWM is 16 % to 28 %, ACQ is 18 % to 28 % and Boron is 16 % to 22 % for Mango wood. Finally, Rubberwood moisture content is recommended as FSWOM moisture content range is 14 % to 17 %, FSWM is 14 % to 18 %, ACQ is 15 % to 18 % and Boron is 15 % to 18 %. Alstonia and Mahogany null hypothesis accepted. Can not recommend moisture ranges for FSWOM, ACQ and Boron. It would affect other factors to the Alstonia wood preservatives uptake. The study confirms the moisture content significantly affects the uptake of preservatives during wood treatment. The experimental findings indicate that preservative uptake is limited by the moisture content present in the wood.