Bermacam jenis beton telah digunakan sebagai dinding yang berfungsi menyerap radiasi dan pelindungan bahaya kerusakan yang ditimbulkan oleh partikel nuklir. Bahaya radiasi ditinjau secara biologi adalah terjadinya interaksi ion dalam tubuh manusia, meningkatnya radiasi yang bersumber dari luar tubuh atau terjadinya kombinasi dalam tubuh yang disebabkan oleh bahan radioaktif, gejala-gejala ini dilihat beberapa saat sesudah terjadi interaksi ion. Perisai radiasi harus bisa mengurangi energi bahkan menahan radiasi. Kemampuan mereduksi radiasi tergantung dari kerapatan beton. Beton kerapatan tinggi diperoleh dengan cara menggunakan agregat bernomor atom dan berat jenis yang tinggi. Tebal beton perisai ditentukan oleh besarnya koefisien attenuasi energi sumber radiasi yang digunakan dan komposisi bahan penyusun beton. Penelitian ini menggunakan Cesium-137 berenergi 662 keV. Agregat penyusun beton adalah pasir besi tailing dan bahan aditif (sepert: viscocrete dan sika fume) dengan ketebalan bervariasi 3 cm sampai 10 cm. Hasil uji terhadap beton berat menujukan, berat jenis beton sebesar 3,618 gr/cm3 berat jenis pasir besi dan tailing sebesar 3,655 gr/cm3 dan 2, 726 gr/cm3, kuat tekan beton pada umur 28 hari sebesar 67,661 MPa; 52,109 MPa; 58,201 MPa dan 34,991 MPa dengan variasi agregat yaitu pasir besi, tailing dan aditif. Koefisien attenuasi energi masing- masing beton adalah, Cesium-137 berenergi 662 keV.

Concrete of various types have been used extensively in construction of building structure for shielding against human from harmful nuclear. Biological effects of radiation, the interraction of ionizing radiation the body, arising either from external sources out side the body or from internal contamination of the body by radiactive substances, leads to biological effects which may later show up as clinical symptoms. In addition the concrete must be able to reduce the radiation of the atomic substance during its operatio n. Since the ability of concrete to absorb Gamma ray is almost proportional to its density. The density of concrete can be increased by using aggregates that have higher atomic number and of high specific gravity. The thickness of shielding required depend on the activity and energy of the source and on the dose rate and protection capability of the shielding material. In this research, Cesium-137 with 662 keV, will be used as Gamma ray sources. The materials of concrete consist of iron sand and tailing with the thickness from 3 cm up to 10 cm Results of the study shows that specific gravity of heavy concrete as much as 3.618 gr/cm3, specific gravity of ironsand aggregates as much as 3.655 gr/cm 3 and specific gravity of lailing aggregates as much as 2.726 gr/cm3, the compression strength of concrete at 28 days of age as much as 67.661 MPa; 52.109 MPa; 58.201 MPa and 34.991 MPa, on variation aggregates of ironsand, tail ing and addtive. Attenuation coeficient of the thickness of heavy concrete on each thickness for Cesium (Cs-137) 662 keV.

Kata Kunci : pasir besi dan tailing, beton berat, sinar gamma