Coal is an alternative energy that is used as energy for electricity generation and so on. The results of burning coal produce several wastes that are difficult to process and reuse, one of the wastes produced is fly ash, fly ash waste has several contents similar to cement material, one of which is silica. Use of fly ash as an additive to concrete bricks. This research aims to determine the effect of using fly ash as an additional material on compressive strength tests on concrete bricks and  to determine the highest and lowest values of the composition of fly ash and sand. In this research, we will use the full factorial method to determine the number of specimens that will be made in the research, variations in the composition of fly ash: sand used are 30%: 40%, 20%: 50%, and 10%: 60%, with a ratio of cement: water fixed 2 : 1 and drying for 3 and 5 days. Compressive strength testing will be carried out on 6 specimens with 3 replications on each specimen so that the total number of specimens tested is 18 specimens. Based on the results of the best compressive strength test on specimen No.1 with a mixture of fly ash (30%): sand (40%), with a drying time of 3 days, the average maximum strength was 56,86 kg/cm².

ACI Committee 232, 2018. Report on the use of fly ash in concrete, American Concrete Institute.

Sumarna, R. M. S., & Walujodjati E., 2021. Pengaruh fly ash terhadap permeabilitas beton. Jurnal Konstruksi, Vol. 19, No. 1, pp. 251- 262.

Putri, N. F. R. A., 2023. Penambahan fly ash pada pembuatan bata press sekam padi dan pengaruhnya terhadap aspek teknis, biaya produksi, serta peredaman panas, Tugas Akhir Jurusan Teknik Sipil, Universitas Islam Indonesia, Yogyakarta.

Prasetyo, A., 2022. Pengaruh fly ash pada batako terhadap kuat tekan, peyerapan air, dan redaman suhu, Tugas Akhir Jurusan Teknik Sipil, Universitas Islam Indonesia, Yogyakarta.

Sulistyowati, N. A., 2018. Bata beton berlubang dari abu batu bara (fly ash dan bottom ash) yang ramah lingkungan Jurnal Teknik Sipil & Perencanaan, Vol. 15, No. 1, pp. 87-96.

Budi, A.S., Safitri E., Kuncoro F. B., 2021. Kajian kuat tekan, kuat tarik belah, dan modulus elastisitas beton dengan bahan pengganti semen fly ash kadar 15%, 30%, dan 40% terhadap beton normal. Jurnal Matriks Teknik Sipil, Vol. 9, No. 3, pp. 170-177.

Elvi, A., 2018. Analisis kelayakan kualitas batako hasil produksi industri kecil di Kota Payakumbuh dan Kabupaten Lima Puluh Kota. Jurnal Teknik Sipil, Vol. Xll, No. 7, pp. 28-34

Nasution, S., 2017. Variabel penelitian. Jurnal Raudhah, Vol. 5, No. 2, pp. 1-9.

Ridha, N., 2017. Proses penelitian, masalah, variabel dan paradigma penelitian. Jurnal Hikmah, Vol. 14, No. 1, pp. 62-70.

Badan Stadarisasi Nasional, 2019. Persyaratan beton struktural untuk bangunan gedung dan penjelasan.

Maulana, D. H., Wahyudie I. A., Erwansyah, 2023. Pengaruh fly ash terhadap densitas dan kuat tekan bata ringan. Jurnal Inovasi Teknogi Terapan, Vol. 1, No. 2, pp. 486-490.