PENGARUH PERLAKUAN PANAS PADA REGANGAN DAN TEGANGAN SISA PADUAN Zr-1%Sn-1%Nb-1%Fe
| Main Authors: | ., Sugondo, ., Futichah |
|---|---|
| Other Authors: | PTBN-BATAN |
| Format: | Article application/pdf eJournal |
| Bahasa: | ind |
| Terbitan: |
PTBN - BATAN
, 2013
|
| Online Access: |
http://jurnal.batan.go.id/index.php/jtbn/article/view/453 |
Daftar Isi:
- ABSTRAK PENGARUH PERLAKUAN PANAS PADA REGANGAN DAN TEGANGAN SISA PADUAN Zr-1%Sn-1%Nb-1%Fe. Telah dilakukan karakterisasi pengaruh perlakuan panas pada regangan dan tegangan sisa paduan Zr-1%Sn-1%Nb-1%Fe dengan metode difraksi sinar-X. Sintesa paduan menggunakan teknik peleburan. Sampel dipanaskan pada suhu 1100 °C selama 2 jam, diikuti quenching dalam air. Kemudian sampel dibersihkan dan dipanaskan pada suhu 500, 600, 700 dan 750 °C selama 2 jam. Sampel dipoles sampai grid 1200 mesh untuk menghilangkan oksida selama proses berlangsung. Identifikasi kristal dilakukan dengan difraksi sinar-X. Pembuatan difraktogram menggunakan alat JEOL-DX-GERP-12 dengan spesifikasi sebagai berikut: tube Cu, filter Ni, tegangan 36 kV, arus 20 MA dan laju 2 °/menit. Transformasi pemanasan Zr-1%Sn1%Nb-1%Fe cenderung mengarah pada bidang (002) dan (101). Pada suhu pemanasan 750 °C, bidang (110) dan (103) dalam Zr-1%Sn-1%Nb-1%Fe lenyap. Pemilihan suhu pemanasan Zr-1%Sn-1%Nb-1%Fe dapat ditentukan dengan mengidentifikasi jarak kisi bidang (002), (101) dan (102) sampel uji. Jika jarak kisi sama dengan jarak kisi sampel referensi berturut-turut 2,575; 2,460; dan 1,894 Å, maka suhu pemanasan sudah tepat. Pemanasan paduan Zr-1%Sn-1%Nb-1%Fe menghasilkan tarikan pada arah radial dan kompresi pada arah aksial. Suhu pemanasan paduan Zr-1%Sn-1%Nb-1%Fe pada 700 °C menghasilkan regangan dan tegangan sisa maksimum. Harga regangan dan tegangan sisa minimum menunjukkan ketepatan suhu pemanasan Zr-1%Sn-1%Nb-1%Fe. KATA KUNCI: Regangan sisa, Tegangan sisa, Paduan Zr-1%Sn-1%Nb-1%Fe, Difraksi sinar-X, Zircaloy, PWR ABSTRACT EFFECT OF HEAT TREATMENT ON MICROSTRAIN AND MICROSTRESS OF Zr-1%Sn-1%Nb-1%Fe ALLOY. Characterization of heat treatment effect on microstrain and microstress of Zr-1%Sn-1%Nb-1%Fe alloy had been conducted using X-ray diffraction. The alloy was prepared using arc melting furnace. The samples were heated at 1100 °C for 2 hours, followed by quenching in water. Afterward the samples were cleaned and heated at 500, 600, 700 and 750 °C for 2 hours. The samples were polished using grid 1200 mesh to eliminate the oxide which was formed during the process. The samples were exposed to X-ray diffraction to identify the parameter of crystals. The diffractograms were obtained from JEOL-DX-GERP-12 using Cu target, Ni filter, voltage 36 kV, current 20 MA, and speed 2 °/min. The heating transformation of Zr-1% Sn-1%N b1%Fe tended towards (002) and (101) planes. The (110) and (103) planes of Zr-1% Sn1% Nb-1%Fe were disappeared by heating at temperature of 750 oC. Determination of heating temperature of Zr-1% Sn-1% Nb-1% Fe could be determined by identifying the lattice spacings of (002), (101), and (102) planes. If the lattice spacings match those of the reference, which are 2.575, 2.460, and 1.894 Å respectively, the heating temperature is correct. Heating of Zr-1% Sn-1% Nb-1% Fe alloy resulted in tension in radial direction and compression in axial direction. The heating temperature of Zr-1% Sn-1% Nb-1% Fe alloy at 700 °C yielded maximum strain and residual stress. Minimum strain and residual stress indicated correct heating temperature of Zr-1%Sn-1%Nb-1%Fe alloy.FREE TERMS: Microstrain, Microstress, Zr-1%Sn-1%Nb-1%Fe alloy, X-ray diffraction, Zircaloy, PWR