COMPARATIVE STUDY ON THE STRENGTH OF LIGHTWEIGHT FOAMED CONCRETE USING DIFFERENT REAGENTS (LITHOFOAM & SODIUM LAURYL SULPHATE)

  • Type: Project
  • Department: Civil Engineering
  • Project ID: CVE0237
  • Access Fee: ₦5,000 ($14)
  • Pages: 66 Pages
  • Format: Microsoft Word
  • Views: 472
  • Report This work

For more Info, call us on
+234 8130 686 500
or
+234 8093 423 853

ABSTRACT

This project presents the results of the investigation conducted on a lightweight foamed concrete using different reagents; Sodium Lauryl Sulphate (SLS) and Lithofoam, with a view to determining its potential as a construction material in Nigeria. The properties investigated on the foamed concrete having target density of 1800kg/m3 were: workability, bulk density and compressive strength. The foamed concretes produced using SLS were developed using a w/c ratio of 0.5 and a mix ratio of 1:3:0.0075. The concrete specimens were produced using two different fine aggregate grades. Specimens were cured in water for 7, 21 and 28 days. The results revealed that the curing ages significantly affected the strength and that suitable strengths can be achieved using SLS as a foaming agent. The 28th day strengths for the concrete specimens were 11.27N/mm2 and 11.04N/mm2 respectively. These strengths were about 23.2% and 25.8% less than the foamed concrete produced using Lithofoam as the reagent.


TABLE OF CONTENT

DEDICATION.......................................................................... ii

ACKNOWLEDGEMENT....................................................... iii

ABSTRACT............................................................................ iv

TABLE OF CONTENT............................................................ v

LIST OF FIGURES.............................................................. viii

LIST OF TABLES.................................................................. ix

LIST OF PLATES.................................................................... x

CHAPTER 1............................................................................. 1

INTRODUCTION..................................................................... 1

1.1    BACKGROUND OF STUDY........................................... 1

1.2    STATEMENT OF PROBLEM.......................................... 2

1.3    RESEARCH OBJECTIVES.............................................. 3

1.4    RESEARCH SIGNIFICANCE.......................................... 3

1.5    SCOPE OF RESEARCH WORK...................................... 3

CHAPTER 2............................................................................. 4

LITERATURE REVIEW.......................................................... 4

2.1    CONCRETE...................................................................... 4

2.2    LIGHTWEIGHT CONCRETE (LWC)............................... 5

2.2.1     Lightweight aggregate concrete (LWAC)............ 6

2.2.2     No-fines concrete.................................................... 7

2.2.3     Cellular concrete.................................................. 7

2.3    AIR ENTRAINMENT..................................................... 12

2.3.1     Air entraining agent............................................. 13

2.3.2     Foaming agent....................................................... 18

2.3.3     Factors influencing the amount of air entrained. 19

2.4    CURING.......................................................................... 22

2.4.1     Autoclaving.......................................................... 23

2.4.2     Non autoclaved.................................................... 23

CHAPTER 3........................................................................... 24

METHODOLOGY.................................................................. 24

3.1    MATERIALS................................................................... 24

3.1.1     Cement.................................................................... 24

3.1.2     Fine aggregate....................................................... 24

3.1.3     Foaming agent....................................................... 28

3.1.4     Water...................................................................... 28

3.2    CONCRETE.................................................................... 29

3.2.1     Mix Design & Proportioning................................. 29

3.2.2     Moulds.................................................................... 29

3.2.3     Mix Procedure....................................................... 30

3.2.4     Slump test............................................................... 32

3.2.5     Curing..................................................................... 33

3.2.6     Compressive strength test.................................... 34

CHAPTER 4........................................................................... 36

RESULTS and DISCUSSION.............................................. 36

4.1    SIEVE ANALYSIS TEST RESULT................................ 36

4.2    MOISTURE CONTEST TEST RESULT........................ 39

4.3    WORKABILITY.............................................................. 40

4.4    BULK DENSITY............................................................. 41

4.5    COMPRESSIVE STRENGTH TEST RESULT.............. 42

CHAPTER 5........................................................................... 48

CONCLUSION AND RECOMMENDATION........................ 48

5.1    CONCLUSION................................................................ 48

5.2    RECOMMENDATION................................................... 49

REFERENCES....................................................................... 50

APPENDICES........................................................................ 54

APPENDIX A......................................................................... 54

QA/QC CRUSHING STRENGTH OF CONCRETE/SANDCRETE - 001 54

APPENDIX B......................................................................... 56

QA/QC CRUSHING STRENGTH OF CONCRETE/SANDCRETE - 00256

COMPARATIVE STUDY ON THE STRENGTH OF LIGHTWEIGHT FOAMED CONCRETE USING DIFFERENT REAGENTS (LITHOFOAM & SODIUM LAURYL SULPHATE)
For more Info, call us on
+234 8130 686 500
or
+234 8093 423 853

Share This
  • Type: Project
  • Department: Civil Engineering
  • Project ID: CVE0237
  • Access Fee: ₦5,000 ($14)
  • Pages: 66 Pages
  • Format: Microsoft Word
  • Views: 472
Payment Instruction
Bank payment for Nigerians, Make a payment of ₦ 5,000 to

Bank GTBANK
gtbank
Account Name Obiaks Business Venture
Account Number 0211074565

Bitcoin: Make a payment of 0.0005 to

Bitcoin(Btc)

btc wallet
Copy to clipboard Copy text

500
Leave a comment...

    Details

    Type Project
    Department Civil Engineering
    Project ID CVE0237
    Fee ₦5,000 ($14)
    No of Pages 66 Pages
    Format Microsoft Word

    Related Works

    ABSTRACT This project presents the results of the investigation conducted on a lightweight foamed concrete using different reagents; Sodium Lauryl Sulphate (SLS) and Lithofoam, with a view to determining its potential as a construction material in Nigeria. The properties investigated on the foamed concrete having target density of 1800kg/m 3 were:... Continue Reading
    ABSTRACT This project presents the results of the investigation conducted on a lightweight foamed concrete using different reagents; Sodium Lauryl Sulphate (SLS) and Lithofoam, with a view to determining its potential as a construction material in Nigeria. The properties investigated on the foamed concrete having target density of 1800kg/m3 were:... Continue Reading
    ABSTRACT The work has gone a long way in determining strength of concrete made of various aggregates such as granites stone, black gravel, washed gravel and surface gravel. Some factors such as porosity of the aggregate temperature coursing lose of water plate form... Continue Reading
    INTRODUCTION This work was obligated to present in one. The fundamental and practical information in the filed of the comparative analysis of the strength of concrete made from various aggregate which may be useful to people involve in civil and structural engineering and particularly, those that found pleasure in the design and related structure.... Continue Reading
    CHAPTER ONE 1.1 INTRODUCTION This work was to present in one weight, the fundamental and practical information in the filed of the comparative analysis of the strength of concrete made from various aggregate which may be useful to people involve in civil and structural... Continue Reading
    ABSTRACT The work has gone a long way in determining strength of concrete made of various aggregates such as granites stone, black gravel, washed gravel and surface gravel. Some factors such as porosity of the aggregate temperature causing loss of water plate form for mixing of concrete mix affect the workability and eventually the strength of... Continue Reading
    INTRODUCTION This work was obligated to present in one. The fundamental and practical information in the filed of the comparative analysis of the strength of concrete made from various aggregate which may be useful to people involve in civil and structural engineering and particularly, those that found pleasure in the design and related structure.... Continue Reading
    ABSTRACT The work has gone a long way in determining strength of concrete made of various aggregates such as granites stone, black gravel, washed gravel and surface gravel. Some factors such as porosity of the  aggregate temperature causing loss of water plate form for mixing of concrete mix affect the workability and eventually the strength of... Continue Reading
    ABSTRACT In an attempt to reduce non-renewable material usage, reduce green-house substances and at the same time be relevant to our environment, this research presents the progress of investigation going on to evaluate some properties of EPO-FBA as partial replacement of cement in the production of structural concrete. This research work is... Continue Reading
    ABSTRACT The purpose of this project work is to assess the strength of No-fines concrete pavement. No-Fines concrete is use in low traffic volume, pathways, sidewalk and parking lots. No-fines concrete is produced by using ordinary Portland cement, coarse aggregates, and water. In this study, Two (2) batches of no-fines concrete each with two... Continue Reading
    Call Us
    whatsappWhatsApp Us