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Abstract
The design of this output hand loader aims to be a place to receive samples that have passed testing in order to improve ergonomics during the irradiation sampling process by utilizing existing materials (acrylic). The hand loader output testing method is by calculating the travel time for empty capsules and capsules containing five variations of samples when sent from the pneumatic lab to the AAN lab, and followed by testing the functional integrity of the capsules when transferred. The results show that the travel time required for the capsule to reach the hand loader is 2 seconds and the capsule is not damaged, broken or other defects. The conclusions obtained from the design of the output hand loader were the design and use of acrylic material that did not damage the capsules during testing and improved ergonomics during the sampling process compared to the previous sampling site. Apart from that, the problem when making an output hand loader lies in making bolt holes that are not parallel to other parts, which requires making new holes.
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References
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References
BRIN, 2023. 44 Tahun Reaktor Nuklir Kartini Mengabdi. Badan Riset Dan Inovasi Nasional. https://www.brin.go.id/news/111586/44-tahun-reaktor-nuklir-kartini-mengabdi. [Accessed 15 July 2024].
Karmanto EE, Basuki A. 2012. Kajian Waktu Pemindahan Sampel Pada Sistem Transfer Pneumatik. Prosiding Seminar Penelitian dan Pengelolaan Perangkat Nukir. Yogyakarta. 314-317.
Kartini RN. 2007. https://id.wikipedia.org/wiki/Reaktor_Nuklir_Kartini. [Accessed 3 August 2024].
BRIN. 2024. https://brin.go.id/page/111336/sejarah-riset-dan-inovasi-indonesia. [Accessed 3 August 2024].
Satria KWR. 2021. Reinstalasi Fasilitas Pneumatik Transfer System Reaktor Kartini Pasca Renovasi. Proceedings of International Conference on Nuclear Science, Technology, and Application 2020 (ICONSTA 2020). Jakarta: 2381
SolidWorks. 2024. https://dte.telkomuniversity.ac.id/solidworks-pengertian-fungsi-jenis/. [Accessed 3 August 2024].