Telah dilakukan fabrikasi alloy magnet permanen komposisi (Pr15-xDyx)Fe77B8 dimana nilai x divariasi x = 0,1,2 dan 3 (wt.%) untuk meningkatkan nilai koersivitas intrinsiknya (JHc) melalui proses peleburan menggunakan alat arc-melting. Ingot hasil peleburan dikapsulasi menggunakan tabung kuarsa dengan solusi argon melalui proses vacuum sealing system dengan tingkat kevacuuman 4x10-5 mBar dan tekanan argon 0,21 mBar, kemudian dianil pada temperature 9000C selama 24 jam. Ingot hasil anil dihaluskan menggunakan disk-mill selama 15 detik dan planetary ball mill dengan variasi waktu 8,10,12 dan 15 jam dalam solusi toluene. Hasil pengujian karakteristik intrinsik terhadap ingot alloy (Pr15-xDyx)Fe77B8 dengan variasi x=0,1,2,3 menggunakan alat permagraph berupa BH-Loop menunjukkan hasil terbaik adalah yang dimilling 10 jam dan menunjukkan setiap penambahan Dy dapat meningkatkan nilai koersivitas jHc. Sampel magnet dengan komposisi x=0,1,2,3 masing-masing memiliki nilai JHc 140, 210, 270 dan 370 (kA/m), nilai magnetisasi remanen Mr = 0,27, 0,33, 0,32 dan 0,33 Tesla dan nilai produk energi maksimum (BH)maks 35,81, 54,11, 89,13, dan 119,37 kJ/m3. Disimpulkan bahwa subsitusi Dy terhadap Pr dalam alloy (Pr15-xDyx)Fe77B8 meningkatkan nilai koersivitas sampel magnet tepat digunakan untuk pembuatan magnet permanen koersivitas tinggi.

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Alloys (Pr15-xDyx)Fe77B8 of x = 0.1,2 and 3 (wt.%) compositions were fabricated to increase the intrinsic coercivity (JHc) through the arc-melting process. The ingot was encapsulated using a quartz tube through a vacuum sealing off system with a vacuum level of 4x10-5 mBar and an argon gas pressure of 0.21 mBar. The encapsulated ingot was annealed at a temperature of 900 0C for 24 hours. The annealed ingot was disk-milled for a short period of time about 15 seconds, followed using a planetary ball mill for 8,10,12 and 15 hours in wet conditions using toluene to minimize the oxidation. Magnetic properties of samples, which evaluated by Permagraph showed that the best results were obtained from samples made of powder materials after milling for 10 hours. It is found that the addition of Dy increased the coercivity of magnet samples. The coercivity of sample with x = 0,1,2,3 was 140, 210, 270 and 370 kA/m respectyivelly. The respective remanence Mr of samples was 0.27, 0.33, 0.32 and 0.33 Te and the maximum energy product (BH)max was 35.81, 54.11, 89.13, and 119, 37 kJ/m3. It is concluded that the substitution of Dy for Pr in (Pr15-xDyx)Fe77B8 alloys is effective to increase the coercivity lead to high coercivity permanent magnets.