SISTIM SEPARASI TINGKAT ROKET - KM Ristek
SISTIM SEPARASI TINGKAT ROKET - KM Ristek
SISTIM SEPARASI TINGKAT ROKET - KM Ristek
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6<br />
DAFTAR lSI<br />
Judul .................................................................................................................................<br />
Lembar............. ........ .... .....................................................................................................<br />
Ringkasan................................... .......................................................................................<br />
Prakata..............................................................................................................................<br />
Daftar lsi........................................... ................................................................................<br />
Daftar Tabel ...................................................................................................................... <br />
Tabel 1. Besar beban untuk mencapai kondisi plastis dan patah....................<br />
Tabel 2. Tegangan untuk variasi enforced displacement ujung clam..............<br />
Tabel 3. Tegangan maksimum struktur clam dan deformasi ujung calam<br />
untuk variasi beban tarik searah pembautan .................................................. <br />
Daftar Gambar <br />
Gambar 1. Jenis Sistim Separasi Tingkat Roket........ .. ............................... .. .. ..<br />
Gambar 2. Baut Eksplosif Dan V-Clamp Band.................................................<br />
Gambar 3. Sistim Separasi Hefboom-Grendel/Pin<br />
Gambar 4. Desain Sistim Separasi Metoda Eksplosif pyrobolt dan Clamp<br />
Band .............................................................................................. <br />
Gambar 5. Komponen Sistim Separasi............................................................<br />
Gambar 6. Tampak Atas Sistim Separasi......................................... .... ............<br />
Gambar 7. Desain Clamp-Band........................................................................<br />
Gambar 8. Desain Vee-Shoe............................................................................<br />
Gambar 9. Desain Mur dan Baut................ ............. ....................... ................<br />
Gambar 10. Desain Assembly Pyrobolt...........................................................<br />
Gambar 11. Desain Bagian Dalam Pyrobolt........................ .............................<br />
Gambar 12. Desain Piston Pyrobolt....................... ..........................................<br />
Gambar 13. Desain Cap Stopper PyrobolL.....................................................<br />
Gambar 14. Desain Baut Penutup Pyobolt......................................................<br />
Gambar 15. Desain Bushing Pyrobolt..............................................................<br />
Gambar 16. Spring Pyrobolt dan Clamp-Band Saat Tertekan..........................<br />
Gambar 17. Geometri pyrobolt.......................................................................<br />
Gambar 18. pyrobolt Solid Mesh Modeling....................................................<br />
Gambar 19. Permukaan dimana constraint dan pembebanan diterapkan.....<br />
1 <br />
2 <br />
4 <br />
5 <br />
6 <br />
22 <br />
27 <br />
28 <br />
9 <br />
9 <br />
10 <br />
14 <br />
15 <br />
15 <br />
16 <br />
16 <br />
17 <br />
17 <br />
18 <br />
18 <br />
19 <br />
19 <br />
20 <br />
20 <br />
21 <br />
21 <br />
21 <br />
Gambar 20. Hasil Simulasi Tegangan pyrobolt dengan Load = 1000 N,<br />
22 <br />
or P = 8845644 Pa ......................................................................... <br />
Gambar 21. Hasil Simulasi Tegangan Pyrobolt dengan kondisi yield.............. 23 <br />
Gambar 22. Hasil Simulasi Tegangan Saat Beban Maksimum......................... 24 <br />
Gambar 23. Hasil Simulasi Tegangan Akibat Beban Torsi 60 Nm.................... 24 <br />
Gambar 24. Hasil Simulasi Tegangan Saat Kondisi yield................................. 25 <br />
Gambar 25. Geometri sistem separasi............................................................ 26 <br />
Gambar 26. Lokasi dimana constraint dan pembebanan diterapkan............. 26 <br />
Gambar 27. Hasil Simulasi Tegangan Clamp-Band Akibat Perpindahan <br />
9,92 mm..................................................................................... 28 <br />
Gambar 28. Hasil Simulasi Tega gan Clamp Band Sa at Kondisi yield............. 29 <br />
Gambar 29. Hasil Simulasi Tega ga Clamp Band Sa at Beban Tarik 1350.... 30 <br />
Gambar 30. Hasil Simulasi Tegangan Qam p Band Sa at Beban Tarik 337,5 N. 30 <br />
Gambar 31. Desain da n Hasi a ~ 'ka-' 0 • ponen.......................................... 31 <br />
Gambar 32. Perala ta n P e -c- ay! Penggerak Piston Pendorong 32 <br />
Hefboom . .._ _
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