EXPERIMENT OF EARLY AGE CONCRETE WITH FLY-ASH USING HIGH-STRENGTH DESIGN

EXPERIMENT OF EARLY AGE CONCRETE WITH FLY-ASH USING HIGH-STRENGTH DESIGN Final Project Submitted to comply with one the requirement Behavior Muhammadiyah University of Surakarta Submitted by : BINTAR TRY LAKSONO NIM : D 100 112 003 CIVIL ENGINEERING DEPARTMENT ENGINEERING FACULTY MUHAMMADIYAH UNIVERSITY OF SURAKARTA 2017

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ABSTRAK Tujuan dalam penelitian ini adalah untuk menganalisa pengaruh kualitas dari beton dengan penambahan zat yang ditambahkan terbang abu dan dibandingkan dengan normal ( beton tanpa tambahan terbang abu ).variation terbang abu untuk menggantikan semen yang digunakan adalah dari 0 %, 7 %, 9 %, 11 %, 13 %, dan 15 %, perbuat itu adalah sampel sampel yang adalah 12 sekitar 18 sampel usia 1 hari dan 6 28hari.based sampel usia beton hasil analisis dan pengujian hasil. Pada umur 1 hari Nilai kuat tekan yang didapatkan pada kadar fly ash 0 % yaitu 15,287 MPa, hasil yang diperoleh pada kadar fly ash 7 % lebih kuat nilai kuat tekannya dibandingkan dengan beton normal (tanpa menggunakan fly ash) yaitu 15,994 MPa. Pada kadar fly ash 9% diperoleh peningkatan sebesar 18,401 MPa dan kadar fly ash 11% diperoleh sebesar 19,250 Mpa, Sedangkan pada kadar fly ash 13% dan 15 % mengalami penurunan yaitu sebesar 15,287 MPa dan 15,853 MPa, dengan demikian nilai kuat tekan dengan menggunakan fly ash paiton optimalnya pada kadar 9% - 11%, karena kuat tekannya lebih tinggi dibandingkan beton normal atau tanpa menggunakan fly ash. Pada umur 28 hari nilai kuat tekan yang didapatkan pada beton normal (tanpa menggunakan fly ash) Mengalami peningkatan,kuat tekan beton normal diperoleh hingga melampaui kuat tekan rencana yaitu sebesar 31,706 MPa. Pada kadar fly ash 7% didapatkan nilai lebih tinggi dibandingkan beton normal yaitu sebesar 30,007 MPa, sedangkan pada kadar fly ash 9%,11%,13,dan 15% juga mengalami peningkatan nilai kuat tekan sebesar 36,235 MPa, 31,706 MPa, 35,103 MPa dan 28,309 MPa pada kadar fly ash 7% dan 15% pada umur 28 hari dibandingkan dengan beton normal (tanpa menggunakan fly ash) perbedaanya terlalu kecil,maka didapat kadar optimal pada umur 28 hari adalah 9 % - 13 % dari berat semen. Kata Kunci: Fly Ash, 1 hari, 28 hari, Perbandingan kuat tekan yang lebih baik. ABSTRACTION Purpose in this research is to analyze the influence of the quality of co ncrete by the addition of substance added fly ash and compared with concrete normal ( without more fly ash ).Variation fly ash to substitute cement used is of 0 %, 7 %, 9 %, 11 %, 13 %, and 15 %, sample made is about 18 sample that is 12 sample the age of 1 days and 6 sample the age of concrete 28hari.Based on the results of analysis and testing the results. At the age of one day result strong press or on the fly ash 0 % namely 15,287 MPa, the result of the fly ash 7 % stronger result strong complained bitterly compared with concrete normal ( without the use fly ash the 15,994 MPa. On the fly ash 9 % obtained an increase of 18,401 MPa and the fly ash 11 % receive is 19,250 MPa, while in the fly ash 13 % and 15 % decline is as much as 15,287 MPa and 15,853 MPa, thus result strong press with use fly ash deficient in the 9 % to 11 %, because strong complained bitterly higher than concrete normal or no use fly ash. At the age of 28 days result strong press or on the concrete normal (without the use fly ash) have increased, strong press concrete normal obtained to beyond strong press plan is as much as 31,706 MPa. On the fly ash 7 % obtained result higher than concrete normal is as much as 30,007 MPa, while in the fly ash 9 %, 11 %, 13, and 15 % has been an increase in result strong press of 36,235 MPa, 31,706 MPa, 35,103 MPa and 28,309 MPa on the fly ash 7 % and 15 % at the age of 28 days compared with concrete normal ( without the use fly ash ) the v

difference too small, so obtained the optimal at the age of 28 days was 9 % to 13 % of the weight of a cement. Keywords: Fly Ash, 1 day, 28 day, Strong complained bitterly compared. vi

PREFACE Assalaamualaikuum Wr. Wb Alhamdulillah, all the praise o Allah SWT who has given blessing and mercies until this Final Project with the title EXPERIMENT OF EARLY AGE CONCRETE WITH FLY ASH USING HIGH STRENGTH CONCRETE DESIGN can be completed. This Final Project made to fulfill the requirement to achive S-1 graduate degree in Civil Engineering Departement, Engineering Faculty, University muhammadiyah Surakarta. The author is grateful to all the parties who give their support, help, and guidance until this Final Project can be completed. Because of that the author say thanks to: 1. Mr. Sri Sunarjono, PhD as Dean of the Engineering Faculty of University Muhammadiyah Surakarta. 2. Mr. Mochamad Solikin, PhD as Head of Civil Engineeing of University Muhammadiyah Surakarta. 3. Mr. Anto Budi Listyawan,S.T., M.Sc as first academic advisor and Mrs. Yenny Nurchasanah, S.T., M.T as secondary academic advisor who has given many suggestion for academic, guide and taught the author. 4. Mr. H. Suhendro Trinugroho, M.T as Supervisor for the final project who has given many suggestion for academic, guide and taught the author. 5. Mr. Ir. Aliem Sudjatmiko, M.T as first examiner who give some advises to make this final project better. 6. Mr. Basuki, S.T.,M.T as secondary examiner who give some advises to make this final project better. 7. All lecturers in Civil Engineering Departement of Engineering Faculty of Universitas Muhammadiyah Surakarta for all the knowledge, patience and the guidance that has been given to the author. 8. Beloved Mom, dad, my sister, my brother and all my family who always give me their support, prayer and advice. vii

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CONTENTS THE TITLE PAGE... i VALIDITY SHEET... ii APPROVAL SHEET... iii DECLARATION OF AUTHORSHIP... iv MOTTO... v ABSTRACTION... vi PREFACE... vii CONTENS... ix TABLE LIST... xi FIGURE LIST... xii CHAPTER I INTRODUCTION... 1 A. Backdround... 1 B. Purpose... 1 C. Identification of the Problem... 2 D. Limitation of Problems... 2 E. Benefits Research... 2 F. Authenticity Research... 2 CHAPTER II LITERATURE REVIEW... 3 A. Concrete... 3 B. Concrete High Quality... 3 C. Material Added... 3 D. Factors Influencing Quality and Concrete Durability... 6 E. The Procedure Production Process Concrete... 7 ix

CHAPTER III THEORITICAL... 9 A. Concrete Constituent Materials Of High Quality...... 9 B. Testing The Sample... 13 CHAPTER IV METHOD OF RESEARCH... 14 A. Material Of Research... 14 B. Equpment Research... 16 C. The Implementation Of Research... 21 D. The Steps Of Research... 28 CHAPTER V THE RESULTS OF RESEARCH AND DISCUSSION.. 30 A. Testing Material And Mortar Concrete... 30 1) Research testing of fine aggregate... 30 2) The Testing Coarse Aggregate... 32 3) Testing Fly Ash... 34 4) The Proportion of Mixture of Normal Concrete.. 35 5) Result of Slump Test... 35 B. The results of testing the mechanical characteristics of concrete... 37 BAB VI CONCLUSION AND RECOMMENDATIONS... 41 A. CONCLUSION... 41 B. RECOMMENDATION... 42 CLOSING LITERATURE APPENDIX x

TABLE LIST Table III.1 Gradations sand/ Fine Agregate... 10 Table III.2 Gradations Coarse Agregrate... 11 Table IV.1 Chemical Composision Fly Ash... 15 Table V.1 Research testing of fine aggregate... 30 Table V.2 The testing gradations fine aggregate... 31 Table V.3 The coarse aggregate testing... 33 Table V.4 Chemical Composition Fly Ash (% massa)... 34 Table V.5 The proportion of a mixture of mortar concrete to any variation fly ash per 1 mortal... 35 Table V.6 Result Of Slump Test... 36 Table V.7 Analysis calculation strong press at the age of 1 day... 37 Table V.8 Analysis calculation strong press at the age of 28 days... 38 xi

FIGURE LIST Figure 4.1 Physically Fly Ash... 15 Figure 4.2 Cement Used In Research... 16 Figure 4.3 Measuring Glass... 16 Figure 4.4 Volumetric Flash... 17 Figure 4.5 Sieve... 17 Figure 4.6 Vibrator Sieve (Siever)... 18 Figure 4.7 Weight 3kg... 18 Figure 4.8 Weight 30kg... 18 Figure 4.9 Oven... 19 Figure 4.10 Cone Abram s and Tamper... 19 Figure 4.11 Cylinder Mould... 20 Figure 4.12 Universal Testing Machine... 20 Figure 4.14 Supporting Equuipment... 21 Figure 4.15 Charts Research... 29 Figure 5.1Graph Sand Gradation... 32 Figure 5.2 Graph Agregate Gradation... 33 Figure 5.3 Graph Slump Test... 36 Figure 5.4 Relations Press Concrete... 39 xii