The rate of exposure to X-ray radiation on the radiation shielding wall at the Laboratory 3 of Radiology Study Program Purwokerto Diploma Three Program has been analyzed, to find out the difference in the effectiveness of the radiation shielding wall between a 10 cm thick Lead (2 mm) coated partition and a 28 cm thick stucco brick wall. Measurements were made using a radiation source, namely a mobile unit X-ray machine with a Fluke survey meter radiation measuring instrument. Measurement of the rate of exposure to X-ray radiation is carried out by adjusting the distance of the radiation source with the radiation shield wall from 100 cm, 150 cm and 200 cm and taken from 5 measurement points that represent the radiation shield wall. The measurement results show that measurement point C produces the highest radiation exposure rate and measurement point A produces the lowest radiation exposure rate for Do and D. There is a radiation exposure rate of more than 1 μSv/Hr after passing through a 10 cm thick Lead-coated partition wall (2 mm) at a distance of 100 cm to 150 cm. Radiation shielding walls of walls covered with stucco bricks with a thickness of 28 cm were more effective than partitions covered with lead (2 mm) with a thickness of 10 cm. It is necessary to pay attention to aspects of radiation protection, the use of a mobile unit X-ray machine in placing the X-ray tube in the direction of the X-ray tube and, the radiation source distance of at least 2 meters from the lead-coated partition radiation wall.

Akhadi, M., 2000, “Dasar-Dasar Proteksi Radiasi” Edisi I, Rineka Cipta, Jakarta.

IAEA, 2006, Applying Radiation Safety Standars in Diagnostic Radiology and Interventional Procedures Using X Rays, Safety Report Series No. 39, Vienna.

G. A. Schlapper, “Measurement and Detection of Radiation,” Nucl. Technol., vol. 67, no. 1, pp.182 – 183, Apr. 1984, doi:10.13182/nt84-a33542.

Peraturan Kepala Badan Pengawas Tenaga Nuklir No. 8 Tahun 2011. Tentang Keselamatan Radiasi Dalam Penggunaan Pesawat Sinar-X Radiologi.

Peraturan Kepala Badan Pengawas Tenaga Nuklir Nomor 4 Tahun 2013 Tentang Proteksi Dan Keselamatan Radiasi Dalam Pemanfaatan Tenaga Nuklir.

Peraturan Badan Pengawas Tenaga Nuklir Republik Indonesia Nomor 4 Tahun 2020 Tentang Keselamatan Radiasi Pada Penggunaan Pesawat Sinar-X Dalam Radiologi Diagnostik Dan Intervensional.

PERMENKES No. 1014/MENKES/SK/XI/2008. Tentang Standar Pelayanan Radiologi Diagnostik di Sarana Pelayanan Kesehatan.

Laitabun,YM, sutanto, H.Anam, C, 2013, pengukuran laju paparan radiasi sinar-X pada ruang operator RSUD Prof.DR.W.Z.Johanes Kupang, Jurusan Fisika Fakultas Sains dan Matematika Universitas Diponegoro, Semarang.

Rini, Siti, Edy, Yeti, Ardi, Darmini, Bagus, Rasyid, Emi, 2017. Proteksi Radiasi Bidang Radiodiagnostik dan Intervensional. Inti Media Pustaka. Magelang.

Rudi, Pratiwi dan Susilo, 2012, Pengukuran Paparan Radiasi Pesawat Sinar-X di Instalasi Radiodiagnostik untuk Proteksi Radiasi, Unnes Physics Journal, Vol.1, No1, Jur. Fisika Unnes.

Suyatno, F, 2008, Aplikasi Radiasi Sinar-X di bidang kedokteran untuk menunjang Kesehatan masyarakat, seminar nasional untuk SDM teknologi nuklir, Yogyakarta.

Wiryosimin, S., 1995. Mengenal Asas Proteksi Radiasi. Penerbit ITB Bandung.