Comparison of locally excavated sand with river sand in terms of strength in sandcrete blocks architecture project topics
Table Of Contents
Chapter ONE
INTRODUCTION
- 1.1Introduction
- 1.2Background of Study
- 1.3Problem Statement
- 1.4Objective of Study
- 1.5Limitation of Study
- 1.6Scope of Study
- 1.7Significance of Study
- 1.8Structure of the Research
- 1.9Definition of Terms
Chapter TWO
LITERATURE REVIEW
- 2.1Overview of Sandcrete Blocks
- 2.2Properties of Sandcrete Blocks
- 2.3Importance of Sand in Sandcrete Blocks
- 2.4Factors Affecting Sandcrete Block Strength
- 2.5Local Sand Mining Practices
- 2.6Impact of Sand Quality on Sandcrete Blocks
- 2.7Comparison Studies on Sand Types
- 2.8Environmental Concerns in Sand Mining
- 2.9Innovations in Sandcrete Block Production
- 2.10Sustainable Alternatives to River Sand
Chapter THREE
RESEARCH METHODOLOGY
- 3.1Research Design
- 3.2Sampling Techniques
- 3.3Data Collection Methods
- 3.4Data Analysis Procedures
- 3.5Experimental Setup
- 3.6Testing Procedures
- 3.7Statistical Tools Used
- 3.8Ethical Considerations
Chapter FOUR
DATA PRESENTATION AND ANALYSIS
- 4.1Analysis of Sandcrete Block Strength
- 4.2Comparison of Locally Excavated Sand and River Sand
- 4.3Strength Test Results
- 4.4Factors Influencing Strength Differences
- 4.5Cost Analysis of Sand Types
- 4.6Environmental Impact Assessment
- 4.7Community Perception on Sand Mining
- 4.8Recommendations for Sand Usage
Chapter FIVE
SUMMARY, CONCLUSION AND RECOMMENDATIONS
- 5.1Summary of Findings
- 5.2Conclusion
- 5.3Implications of the Study
- 5.4Contributions to Knowledge
- 5.5Recommendations for Future Research
Thesis Abstract
Abstract
This research project focuses on the comparison of locally excavated sand with river sand in terms of strength when used in sandcrete blocks for architectural purposes. Sandcrete blocks are a common building material in many regions, and the quality of the sand used plays a critical role in determining the overall strength and durability of the blocks. River sand has been traditionally preferred for its fine texture and uniformity, but due to environmental concerns and limited availability, there is a need to explore alternative sources of sand such as locally excavated sand. The aim of this study is to investigate whether locally excavated sand can be a viable substitute for river sand in the production of sandcrete blocks. The research will involve testing the compressive strength of sandcrete blocks made with both types of sand and analyzing the results to determine any significant differences in strength. In addition to strength tests, other properties such as water absorption, density, and mix proportions will also be evaluated to provide a comprehensive comparison between the two types of sand. The methodology will include collecting samples of both locally excavated sand and river sand from various sources to ensure representativeness. Standard procedures for sand quality testing will be followed to assess the particle size distribution, silt content, and other relevant characteristics of the sands. The sand will then be used to produce sandcrete blocks in accordance with industry standards, and the blocks will be cured and tested for compressive strength at specified intervals. The findings of this research project are expected to provide valuable insights into the use of locally excavated sand in sandcrete block production. If the results indicate that locally excavated sand can produce sandcrete blocks with comparable or superior strength to those made with river sand, it could have significant implications for the construction industry. Local sourcing of sand could help reduce transportation costs, minimize environmental impact, and ensure a more sustainable supply of building materials. Overall, this study aims to contribute to the knowledge base on sustainable construction practices by exploring the potential of locally excavated sand as an alternative to river sand in sandcrete block architecture. The results will be relevant to architects, engineers, construction companies, and policymakers seeking to promote environmentally friendly building practices without compromising structural integrity.
Thesis Overview
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</p><div><p>INTRODUCTION</p><p>This research work means to determine the different properties of sandcastle blocks moulded with a locally excavated sand, in terms of compressive strength, durability and cost and economic importance, and that of River Sand. And after, compare the two strengths of the sandcrete which will help in recommending the right give the desired strength for the designed strength for a particular purpose.</p><p>NSUDE as case study, Nsude is in Udi, Enugu west, Enugu State.</p><p>1.1 BACKGROUND OF THE STUDY</p><p>Sandcrete is a yellow-white building material made from a binder (Portland cement), sand in a ratio of circa 1:8, and water. Sometime other ingredients may be added to reduce the amount of Portland cement such as “pozzolanas and rice husk ash”. Sandcrete is similar but weaker than mortan for which the ratio is 1:5.</p><p>Sandcrete is usually used as hollow rectangular blocks similar to concrete masonry units, often 45cm (18”) wide, 15cm (5.9”) thick and 30cm (12”) with hollows that run from top to bottom and occupy around one third of the volume of the block.</p><p>1.2 STRENGTH AND USAGE</p><p>The final compressive strength of sandcrete can be as high as 4.6N/mm2 which is much less than concrete’s 40N/mm2. Sandcrete is unsuitable for load-bearing columns, and is mainly used for</p><p>walling of a house</p><p>– making a fence</p><p>– Septic tank and soak away tank’s</p><p>– Building a generator’s house.</p><p>In Nigeria, measured strength of commercial available sandcrete blocks was found to be between 0.5 and 1N/mm2, which is well below the 3.5N/mm2 that is legally required. This development may be due to the need of the manufacturers to keep the price low, and since the main cost-factor is the Portland cement, they reduce that, which results in a block that starts behaving more like loose sand.</p><p>1.3 SANDCRETE BLOCK SIZES</p><p>They are many different types of blocks used in modern building, they include:</p><ul><li>9” hollow blocks (450mmx225mmx225mm)</li><li>6” hollow blocks (450mmx150mmx225mm)</li><li>6” solid blocks (450mmx150mmx225mm)</li><li>5” solid blocks (450mmx125mmx225mm)</li><li>9” solid blocks (450mmx225mmx225mm)</li></ul><p>1.4 CONSTITUENT MATERIALS OF SANDCRETE BLOCKS</p><p>These include cement, fine aggregate (sharp sand) and water.</p><p>1.4.1 CEMENT</p><p>This refers to any adhesive and the material used in connection with block and it is referred to as “hydraulic cement” because the setting and hardening depends on the preserve of water. The cement widely used in civil work is called “Ordinary Portland Cement”.</p><p>1.4.2 FINE AGGREGATE</p><p>The two major types of sand used are white and coloured sand. The sand were not free from materials such as dust, silt, tree roots etc. The sources of sand include pits, rivers and sea.</p><p>1.4.3 WATER</p><p>Any type of water available can be used to mould sandcrete blocks. This includes water from stream, rivers, boreholes etc.</p><p>1.5 STATEMENT OF THE PROBLEM</p><p>Apart from bad mixing ratios, which happen even some sandcrete blocksproducers add more yield of blocks, some other things can cause blocks to be in bad condition which can affect the quality of the sandcrete produced.</p><p>1.5.1 USING OF BAD CEMENT</p><p>Due to the prevailingadverse economic conditions, some sandcrete block makers tend to go for very cheap cement which may not have the required quality to bind a solid block. These block break soon after they are made. Some cement sellers who had cement keptin stock for so long sell it at give away price to the sandcrete block makers if the notice that the quality of the cement has detoriated.</p><p>1.5.2 RE-BAG CEMENT</p><p>Another thing to note with cement is that some cement sellers re-bag cement, removing some quantity of cement or put low quality cement product in a bag of a high quality and trust cement brand. Theration you thought you are using to produce a given quality has been compromised and it will produce a low quality block that can easily break even before it is being used for the project.</p><p>1.6 THE OBJECTIVE OF THE STUDY</p><ul><li>This project research will help us to understand the different strength of sandcrete blocks produced with locally excavated sand and River sand.</li><li>This will also help to know the properties of Nsude sand after laboratory test has been carried out.</li><li>This will help us in determining the moulding methods and properties of sandcrete blocks. These properties are determined by the ratio of block constituents such as cement, water and sand.</li></ul><p>1.7 SCOPE OF THE STUDY</p><p>The scope of this project work is limited to obtaining the comparison of locally excavated sand with River sand in terms of strength in sandcrete blocks.(Nsude as case study).</p><p>1.8 SIGNIFICANCE OF THE STUDY</p><ol><li>To help us understand the strength of sandcrete blocks produced with locally excavated sand and River sand in Nsude.</li><li>To help us determine the properties of Nsude sand after carrying out laboratory test.</li></ol></div><h3></h3><br>
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