Relevant bibliographies by topics / Eco-friendly building materials

Contents

  1. Journal articles
  2. Dissertations / Theses
  3. Books
  4. Book chapters
  5. Conference papers

Academic literature on the topic 'Eco-friendly building materials'

Author: Grafiati
Published: 4 June 2021
Last updated: 1 February 2022

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Journal articles on the topic "Eco-friendly building materials"

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Nowotna, A., B. Pietruszka, and P. Lisowski. "Eco-Friendly Building Materials." IOP Conference Series: Earth and Environmental Science 290 (June 21, 2019): 012024. http://dx.doi.org/10.1088/1755-1315/290/1/012024.

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Ali, Syaukat, and Suwardo Suwardo. "Mempertahankan Bangunan Lama Ramah Lingkungan Di Kawasan Kampus Universitas Gadjah Mada Yogyakarta." Jurnal Nasional Teknologi Terapan (JNTT) 3, no. 1 (June 29, 2020): 25. http://dx.doi.org/10.22146/jntt.56615.

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This study aims to (1) analyze of the old buildings in the green building environment of Green Building Council Indonesia (GBCI); and (2) looking for best alternatives in managing the building by maintaining the old building in order to meet the criteria of environmentally friendly. The sample in this research is building at Civil Engineering Building Vokasi Universitas Gadjah Mada. Methods in eco-friendly building measurements use the criteria in greenship GBCI version 1.1 through observation. The best alternative model in eco-friendly building used best available and best achievable technology for buildings. The results showed that: (1) the building at the Department of Civil Engineering Vocational School of Gadjah Mada University meets the criteria of environmentally friendly in accordance with GBCI greenship of 29.63%; and (2) eco-friendly model of green building management on maintenance of buildings by saving energy, reducing waste and pollution, and using non-toxic materials.
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Shim, Hyunsook, Taeyeon Kim, and Gyunghyun Choi. "Technology Roadmap for Eco-Friendly Building Materials Industry." Energies 12, no. 5 (February 28, 2019): 804. http://dx.doi.org/10.3390/en12050804.

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As quality of life has improved, the need for high-performance building materials that meet specific technological requirements has increased. Residential environments have also changed owing to climate change. A technology roadmap could define and systematically reflect a timeline for the development of future core technologies. The purpose of this research is to build a technology roadmap that could be utilized for the development of technology in the eco-friendly building material industry. This research is composed of multiple analysis processes—patent analysis, Delphi, and analytic hierarchy process analysis—that minimize the uncertainty caused by the lack of information in the eco-friendly construction industry by securing objective future forecast data. Subsequently, the quality function deployment test is implemented to verify the feasibility of the technology roadmap that is constructed. The design of various types of functional, low-carbon building materials could reduce carbon emissions and save energy by ensuring a hazardous-material-free market in the future. This design development roadmap is required to complement this technology roadmap.
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Wang, Tae, and Kim. "Development of a Green Building Materials Integrated Platform Based on Materials and Resources in G-SEED in South Korea." Sustainability 11, no. 23 (November 20, 2019): 6532. http://dx.doi.org/10.3390/su11236532.

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Various eco-friendly materials are used in the construction industry. South Korea employs the Green Standard for Energy and Environmental Design (G-SEED), a green building certification system, in which materials account for 11% of the evaluation criteria. However, data for each eco-friendly material are managed individually by different institutions, causing inefficiency, increased costs, and potentially greater environmental impacts associated with material and resource selection. Hence, this study develops a green building materials integrated platform (GIP) that collates information on eco-friendly materials across different industries in South Korea, to support the G-SEED evaluations. Guidelines and standards related to each evaluation item were analyzed and used to compile a green building materials database. The database includes 12,636 data points representing product prices and environmental impact data. This database was used to develop the four-level Excel-based GIP. Case studies were conducted on actual G-SEED buildings to analyze the economic efficiency and environmental performance achieved by using alternative materials to those recommended by the GIP. Case 1 exhibits improvements in economic efficiency and environmental performance of 17% and 10%, respectively, whereas Case 2 exhibits improvements of 8% and 21%, respectively. Thus, both case studies boast superior combinations of green building materials compared to existing alternatives.
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Sharma, Naresh Kr, C. S. Verma, Vijayaraghavan M. Chariar, and Rajendra Prasad. "Eco-friendly flame-retardant treatments for cellulosic green building materials." Indoor and Built Environment 24, no. 3 (December 30, 2013): 422–32. http://dx.doi.org/10.1177/1420326x13516655.

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Benghida, Djamil. "Adobe Bricks: The Best Eco-Friendly Building Material." Advanced Materials Research 1105 (May 2015): 386–90. http://dx.doi.org/10.4028/www.scientific.net/amr.1105.386.

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Durable, renewable, and affordable are the three characteristics of the adobe brick, one of the widely used construction material in human civilization, but is always neglected. Traditionally, price has been the foremost consideration when comparing similar materials or materials designated for the same function. That is why by the post-war period, the concrete was adopted as a universal building material in response of the massive housing demand. The intergovernmental concerns never took into consideration both the sustainability factor and the cultural one, not until the 1990s when research on climate change expanded and the sustainable development took an important place in the different academic cross fields: engineering, biology, technology and architecture. The main focus by then was the reduction the CO2 gas emissions emitted by the building sector which is now approximately 30% of the global energy-related. Researchers are focusing on creating a completely new green eco-material an alternative to the concrete, but in this paper, I will demonstrate why is it worth to reinvigorate centuries-old eco-construction material. Adobe bricks are currently the best choice to built affordable housings in response to the chronicle demand. Not only they have a track record that makes their thermal mass performance easier to evaluate, but also they can last 400 years or more when properly maintained. Comparatively, new technologies require testing over time to determine their long-range effectiveness.
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Šatrevičs, Vladimirs, Irina Voronova, and Diana Bajare. "Investigation of Social Opinion on Green Lifestyle and Eco-friendly Buildings. Decision Making Criteria." Journal of Sustainable Architecture and Civil Engineering 28, no. 1 (June 22, 2021): 56–71. http://dx.doi.org/10.5755/j01.sace.28.1.28092.

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The present paper develops decision-making criteria through literature research to assess the social opinion on green life style and eco-friendly buildings. Validity of criteria was ensured among company executives and academic staff, based on elaborated criteria small pilot survey was performed and analysed. Current research focuses on the influence of demographic variables (e.g., age, gender) and individual subjective characteristic factors; external influencing factors (e.g., social norms, policies) are not used. According to the research results, our concept helps to outline the most crucial factors in industry regarding customer subjective requirements on eco-friendly building and innovative building materials. Nowadays companies need to meet customer requirements in order to adjust them in terms of eco-innovation approach and industry’s green ecosystem development and remove the gaps in value preposition. This paper helps to investigate respondents’ awareness, requirements, and willingness-to-pay for the eco-friendly houses.
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Pham, Anh-Duc, Quang Trung Nguyen, Duc Long Luong, and Quynh Chau Truong. "The Development of a Decision Support Model for Eco-Friendly Material Selection in Vietnam." Sustainability 12, no. 7 (April 1, 2020): 2769. http://dx.doi.org/10.3390/su12072769.

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In recent years, the awareness of sustainable construction has increasingly risen in countries around the world, with the main goal being to avoid depleting energy resources and raw materials and to greatly reduce carbon emissions. Therefore, the selection of eco-friendly building materials becomes a difficult task and choosing the best construction strategy is a complicated process. Most of the studies of the building material selection often focus on optimizing material-related green building scores with budget constraints based on the environmental impacts of those materials. However, these studies do not pay attention to the impact of sustainable materials on two important aspects of a project: The initial investment cost and the total labor-working days. Hence, this study developed a model that optimizes a material mix for buildings considering the building budget, total labor-working days, and material-related green building scores. A case study in Vietnam was conducted to illustrate the effectiveness of the proposed model. This proposed model provides a guidance for decision-makers in selecting approximate materials for buildings toward sustainability.
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Lee, Sungwoo, Sungho Tae, Hyungjae Jang, Chang U. Chae, and Youngjin Bok. "Development of Building Information Modeling Template for Environmental Impact Assessment." Sustainability 13, no. 6 (March 11, 2021): 3092. http://dx.doi.org/10.3390/su13063092.

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Eco-friendly building designs that use building information modeling (BIM) have become popular, and a variety of eco-friendly building assessment technologies that take advantage of BIM are being developed. However, existing building environmental performance assessment technologies that use BIM are linked to external assessment tools, and there exist compatibility issues among programs; it requires a considerable amount of time to address these problems, owing to the lack of experts who can operate the programs. This study aims to develop eco-friendly templates for assessing the embodied environmental impact of buildings using BIM authoring tools as part of the development of BIM-based building life cycle assessment (LCA) technologies. Therefore, an embodied environmental impact unit database was developed, for major building materials during production and operating stages, to perform embodied environmental impact assessments. Moreover, a major structural element library that uses the database was developed and a function was created to produce building environmental performance assessment results tables, making it possible to review the eco-friendliness of buildings. A case study analysis was performed to review the feasibility of the environmental performance assessment technologies. The results showed a less than 5% effective error rate in the assessment results that were obtained using the technology developed in this study compared with the assessment results based on the actual calculation and operating stage energy consumption figures, which proves the reliability of the proposed approach.
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Chang, Yu Sheng, and Kuei Peng Lee. "Life Cycle Carbon Dioxide Emission Assessment of Housing in Taiwan." Applied Mechanics and Materials 479-480 (December 2013): 1071–75. http://dx.doi.org/10.4028/www.scientific.net/amm.479-480.1071.

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In the building industry, decreasing the CO2 emission not only is an important environmental issue but also an international responsibility in the future. This research analyzed building life cycle CO2 emission and used a building life cycle CO2 emission index (LCCO2). LCCO2 allows us to compare the impacts of different building designs to the environment and finds out the most efficient CO2 reduction strategy. A low floor house life cycle simulation showed that most CO2 emission in the life cycle comes from the daily use stage. Therefore, energy preservation in the daily life is the most important strategy to reduce CO2 emission in a building. Compared with the RC house, the light weight steel house uses more eco-friendly building materials and heat preservation materials. Therefore, the LCCO2 of the light weight steel house is reduced 31.34%. The research also showed that proper increase in the life span of the building also decreases CO2 emission. The light weight steel house is more eco-friendly than the RC house in the buildings life cycle.
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Dissertations / Theses on the topic "Eco-friendly building materials"

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Okeyinka, Oriyomi M. "The applicability of recycled waste paper as lightweight building materials." Thesis, University of Wolverhampton, 2016. http://hdl.handle.net/2436/620495.

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In this era of increasing standard of living and rapid growth of civil engineering construction, environmental issues pertaining to natural resources depletion, global warming, energy crisis, waste pollution and greenhouse gas emission have been major issues of concern throughout the world and most especially in the construction industry. This research was conducted to investigate the applicability of recycled wastepaper as lightweight building materials with focus on contributing to sustainability in the creation of the built environment. The major aim was to develop an eco-friendly lightweight non-loadbearing block from recycled wastepaper without the use of cement as binder. This study specifically addressed the drawback of low strength development that usually occur with increasing wastepaper content in the existing cement-based-wastepaper blocks. It also indirectly addresses; the environmental impacts associated with the construction industry (including; high consumption of natural resources, greenhouse gas emission, high energy consumption and so on), the environmental pollution resulting from unsustainable waste generation, and the generic drawback of high water absorption that plagues wastepaper-based blocks. To achieve this, research methods including; laboratory experimentation and simulation modelling were employed. The research outcome is an eco-friendly block unit designated as Cement-less Wastepaper-based Lightweight Block (CWLB) which contains 75% waste content and exhibiting properties that satisfy the requirements for application as non-loadbearing lightweight blocks in building construction. CWLB displayed compressive strength that far outweighs those recorded for the existing cement-based wastepaper blocks available in the literature. The properties recorded for the optimal CWLB includes; 2.71 MPa average compressive strength, 901.5 kg/m3 average density, 0.19 W/m.k thermal conductivity, 989.9 m/s ultrasonic pulse velocity, 0.0026 g/m2.S0.5 average coefficient of capillary water absorption and 883.38 MPa estimated elastic modulus. The approximate compressive strength of 2.38 MPa and 1.58 MPa were respectively predicted and recorded for the solid and hollow finite element model samples of CWLB. The impressive satisfactory properties of CWLB for the intended application and its eco-friendliness in terms of natural resources conservation and improved compressive strength suggests that CWLB shall indeed serve as a more sustainable alternative to the reigning/existing cement-based-wastepaper blocks and to the conventional masonry blocks of the same category. Amongst other things, future work will address the validation of the approximate compressive strength predicted for the solid and hollow CWLB insitu samples in order to take further the subject matter.
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Sarangapani, Harini. "Zero energy garage apartment." Thesis, Manhattan, Kan. : Kansas State University, 2008. http://hdl.handle.net/2097/563.

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Verikas, Vaidas. "Ekologiškų namų racionalaus varianto intelektinės sistemos kūrimas." Master's thesis, Lithuanian Academic Libraries Network (LABT), 2011. http://vddb.laba.lt/obj/LT-eLABa-0001:E.02~2010~D_20110701_094009-04225.

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Baigiamajame magistro darbe nagrinėjamos ekologiškos statybinės medžiagos, analizuojami namo dalių konstrukciniai variantai, statant namus iš šių medžiagų. Taip pat sudaroma kompiuterinė sistema, padedanti vartotojui išsirinkti racionaliausią ekologiškų medžiagų panaudojimo variantą. Darbą sudaro trys dalys. Pirmojoje dalyje apžvelgiama ekologiškų statybinių medžiagų samprata, pagrindiniai principai, aprašomas statybinių medžiagų gyvavimo ciklas, aptariama aplinkai nekenksmingų medžiagų situacija Europoje. Antrojoje dalyje plačiau aprašomos gamtai nekenksmingos statybinės medžiagos, galimi tokių medžiagų konstrukciniai variantai. Analizuojami sienų, stogo dangos, šilumos izoliacijos ir šildymo sistemos pritaikymo galimybės statant ekologišką namą. Trečiojoje dalyje nagrinėjamas praktinis ekologiško namo konstrukcijų pritaikymo modelis. Sudaroma alternatyvų ir kriterijų sistema, apibūdinanti nekenksmingo aplinkai namo konstrukcinius elementus. Panaudojant kiekybinius ir kokybinius kriterijus ir galimas medžiagų alternatyvas, atliekama daugiakriterė statybinių medžiagų ir jų konstrukcijų analizė, sudaroma kompiuterinė sistema.
Ecological and environmentally friendly building materials and constructional options, that are used to build houses, are considered in this master work. It also contains the computer system enabling the user to choose the most rational option of ecological materials. This master work consists of three parts: In the first part the concept of ecological building materials and main principles are described. It also contains information about the life cycle of building materials and the situation of environmentally friendly materials in Europe are discussed. The second part describes environmentally friendly building materials and possible structural variations of such materials. It analyzes walls, roof, heat insulation and possibilities of heating system in the ecological house. In the third part the practical model of the ecological house is considered. An alternative and criteria system that describes the environmentally friendly house constructional elements is created. Using quantitative, qualitative criteria and possible material alternatives multiple criteria analysis of building materials and their construction is performed. The computer system is also made.
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Books on the topic "Eco-friendly building materials"

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Horsfall, Mary. Creating Your Eco-Friendly Garden. CSIRO Publishing, 2008. http://dx.doi.org/10.1071/9780643096202.

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Creating Your Eco-friendly Garden shows you how to develop an environmentally friendly garden for little cost. Practically written, it is based on the author’s first-hand experience as well as the wealth of knowledge she has amassed working at Grass Roots, Australia’s most popular self-sufficiency magazine. The book offers advice on planning your garden, choosing plants, planting times, watering options and pest management following organic principles. It explains how to assess the soil and microclimatic effects of surrounding buildings and vegetation so that you can determine the style of garden that best suits your property. Water efficiency, biodiversity, soil conservation, use of native and biodiversity-friendly plants, organic methods, use of recycled materials and avoidance of environmental weeds are themes that feature strongly throughout the book, and will appeal to gardeners with strong environmental values.
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Book chapters on the topic "Eco-friendly building materials"

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Waghmode, Meghmala S., Aparna B. Gunjal, Namdeo N. Bhujbal, Neha N. Patil, and Neelu N. Nawani. "Eco-Friendly Construction." In Reusable and Sustainable Building Materials in Modern Architecture, 80–92. IGI Global, 2019. http://dx.doi.org/10.4018/978-1-5225-6995-4.ch004.

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Increase in urbanization leads to more construction of houses, dams, and streets. Reduction of the global warming effects can be carried out by recycling of construction material and searching for eco-friendly construction material. Greenhouse gas emissions can be reduced with the help of construction material which requires less energy for their production. The concept of eco-friendly construction is based on biomimetic (i.e., finding natural material with potential of endurance and self-cleaning properties). Construction materials like Portland cement and concrete can be replaced by eco-friendly biocement and bioconcrete. Production of biocement and bioconcrete can be done by using plants, algae, and bacteria. Use of less cement in concrete leads to less pollution. Concrete is the mixture of cement, sand, gravel, and water. By addition of pozzolan in concrete, the requirement of cement will be reduced. In the current review, major emphasis is given to eco-friendly construction material.
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da Silva, Gilson. "Green Propellants." In Energetic Materials Research, Applications, and New Technologies, 170–84. IGI Global, 2018. http://dx.doi.org/10.4018/978-1-5225-2903-3.ch008.

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Friendly or green compositions are being sought in many kinds of applications, such as fertilization, building materials, energy generation, and so on. Thus, this classification (green) can be established after the subjection of the compound to a thorough toxicity study. The research for low toxicity and no damage to the environment has stimulated the development of specific investigation lines in many areas. Inevitably, the criteria for safe handling, sensitivity and, mainly, specific impulse (efficiencies) of propellant compositions is still superior compared to ecological appeals. Nowadays, however, the solid or liquid propulsion, as aerospace as military, has already compounds to efficiency and eco-friendly characteristics. Thus, the chapter proposed will show a review in the energetic materials area, aiming at the most promising materials to be used as oxidizers and combustibles in a green propulsion system.
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Waghmode, Meghmala S., Aparna B. Gunjal, Namdeo N. Bhujbal, Neha N. Patil, and Neelu N. Nawani. "Eco-Friendly Construction." In Research Anthology on Environmental and Societal Well-Being Considerations in Buildings and Architecture, 439–48. IGI Global, 2021. http://dx.doi.org/10.4018/978-1-7998-9032-4.ch020.

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Increase in urbanization leads to more construction of houses, dams, and streets. Reduction of the global warming effects can be carried out by recycling of construction material and searching for eco-friendly construction material. Greenhouse gas emissions can be reduced with the help of construction material which requires less energy for their production. The concept of eco-friendly construction is based on biomimetic (i.e., finding natural material with potential of endurance and self-cleaning properties). Construction materials like Portland cement and concrete can be replaced by eco-friendly biocement and bioconcrete. Production of biocement and bioconcrete can be done by using plants, algae, and bacteria. Use of less cement in concrete leads to less pollution. Concrete is the mixture of cement, sand, gravel, and water. By addition of pozzolan in concrete, the requirement of cement will be reduced. In the current review, major emphasis is given to eco-friendly construction material.
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Chowdhury, R. "TECHNOLOGIES FOR THE USE OF HAZARDOUS WASTES FLY ASH AND CONDENSED SILICA FUMES FOR ECO-FRIENDLY BUILDING MATERIALS." In Achieving Sustainability in Construction, 399–406. Thomas Telford Publishing, 2005. http://dx.doi.org/10.1680/asic.34044.0046.

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Conference papers on the topic "Eco-friendly building materials"

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Hospodarova, Viola, Nadezda Stevulova, Vojtech Vaclavik, Tomas Dvorsky, and Jaroslav Briancin. "Cellulose Fibres as a Reinforcing Element in Building Materials." In Environmental Engineering. VGTU Technika, 2017. http://dx.doi.org/10.3846/enviro.2017.104.

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Nowadays, construction sector is focusing in developing sustainable, green and eco-friendly building materials. Natural fibre is growingly being used in composite materials. This paper provides utilization of cellulose fibres as reinforcing agent into cement composites/plasters. Provided cellulosic fibres coming from various sources as bleached wood pulp and recycled waste paper fibres. Differences between cellulosic fibres are given by their physical characterization, chemical composition and SEM micrographs. Physical and mechanical properties of fibre-cement composites with fibre contents 0.2; 0.3and 0.5% by weight of filler and binder were investigated. Reference sample without fibres was also produced. The aim of this work is to investigate the effects of cellulose fibres on the final properties (density, water absorbability, coefficient of thermal conductivity and compressive strength) of the fibrecement plasters after 28 days of hardening. Testing of plasters with varying amount of cellulose fibres (0.2, 0.3 and 0.5 wt. %) has shown that the resulting physical and mechanical properties depend on the amount, the nature and structure of the used fibres. Linear dependences of compressive strength and thermal conductivity on density for plasters with cellulosic fibres adding were observed.
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Mahmoud, Abdelrahman, Mohammed Naser, Mahmoud Abdelrasool, Khalid Jama, Mohamed Hussein, Asma Abdulkareem, Peter Kasak, and Anton Popelka. "Development of PLA Fibers as an Antimicrobial Agent with Enhanced Infection Resistance using Electrospinning/Plasma Technology." In Qatar University Annual Research Forum & Exhibition. Qatar University Press, 2020. http://dx.doi.org/10.29117/quarfe.2020.0079.

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Humans are vulnerable and easily prone to all kind of injuries, diseases, and traumas that can be damaging to their tissues (including its building unit, cells), bones, or even organs. Therefore, they would need assistance in healing or re-growing once again. Medical scaffolds have emerged over the past decades as one of the most important concepts in the tissue-engineering field as they enable and aide the re-growth of tissues and their successors. An optimal medical scaffold should be addressing the following factors: biocompatibility, biodegradability, mechanical properties, scaffold architecture/porosity, precise three-dimensional shape and manufacturing technology. There are several materials utilized in the fabrication of medical scaffolds, but one of the most extensively studied polymers is polylactic acid (PLA). PLA is biodegradable thermoplastic aliphatic polyester that is derived from naturally produced lactic acid. PLA is characterized with its excellent mechanical properties, biodegradability, promising eco-friendly, and excellent biocompatibility. PLA can be fabricated into nanofibers for medical scaffolds used through many techniques; electrospinning is one of the widely used methods for such fabrication. Electrospinning is a favorable technique because in the preparation of scaffolds, some parameters such as fiber dimensions, morphology, and porosity are easily controlled. A problem that is associated with medical scaffolds, such as inflammation and infection, was reported in many cases resulting in a degradation of tissues. Therefore, a surface modification was thought of as a needed solution which mostly focuses on an incorporation of extra functionalities responsible for the surface free energy increase (wettability). Therefore, plasma technique was a favorable solution for the surface treatment and modification. Plasma treatment enables the formation of free radicals. These radicals can be easily utilized for grafting process. Subsequently, ascorbic acid (ASA) could be incorporated as anti-inflammatory and anti-infection agent on the plasma pretreated surface of scaffolds.
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Mane, Shubham S., R. Naresh, R. Parameshwaran, and V. Vinayaka Ram. "Study on thermal properties of an eco-friendly phase change material for roof cooling application in buildings." In Proceedings of the 25th National and 3rd International ISHMT-ASTFE Heat and Mass Transfer Conference (IHMTC-2019). Connecticut: Begellhouse, 2019. http://dx.doi.org/10.1615/ihmtc-2019.1120.

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El Wardi, Fatima Zohra, Soumia Mounir, Aziza Atbir, Abdelhamid Khabbazi, and Khalid Ibaas. "Effect of artificial porosity on the thermal behavior and the lightness of an eco-friendly building material based on clay and granular cork." In AMT2020: THE 6TH INTERNATIONAL CONGRESS ON THERMAL SCIENCES. AIP Publishing, 2021. http://dx.doi.org/10.1063/5.0049385.

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