The characteristic model of MUS-01 wing structure testing has been performed. Planned, this model will be used as an unmanned wing of the LSU-03NG. The test model is made of composite type e-glass. At the time of testing the structure test model is loaded according to MTOW weight. This research method also involves the unmanned aircraft mission, especially on the model test structure, model dimension, and direct experiment in the form of loading on the test model. The result of characterization of the test model during test, showed that the indicated test model has the characteristics as a test model that is unable to accept the unmanned operational load of LSU-03NG series aircraft. So it can not be used as a consideration for the structure of the unmanned aircraft.
The twin-boom structure is a component of LSU-5 unmanned aireal vehicle (UAV) construction wich was produced by Aeronautic Technology Center of LAPAN. This structure serves as a stabilizer UAV movements. In operations, the structure will recieve flight load which could result as the structure deflection. Through analytical methods involving the mission, dimensions and configuration of the structure of the twin-boom LSU 05 UAV, has done research to determine the extent of the ability of the structure in the fligth load, so the resulting deflection. From this research it was known that at flighting during 130 minutes, starting from take off the beginning of the flight until cruising with maximum velocity in 130 km/h, the maximum deflection that occurred in the structure only reaches 5.593 x 10-6 m, with a safety factor of 1.3, it’s means that the structure was relatively save. While at the landing on a relatively save was velocity below 14 km/h. If landing at the velocity exceeding 20 km/h can be believed that the twin-boom structure suffered severe damage, because the stress occurs already exceeded from 650 MPa as the yield strenght of e-glass composite materials. Abstrak:Struktur twin boom merupakan salah satu komponen konstruksi pesawat terbang nir awak LSU-05 hasil karya Pusat Teknologi Penerbangan - LAPAN. Struktur ini berfungsi sebagai penyetabil gerakan pesawat. Dalam operasionalnya, struktur menerima beban terbang yang dapat mengakibatkan timbulnya lendutan. Melalui metode analitis yang melibatkan misi, dimensi dan konfigurasi struktur twin boom pesawat LSU-05, telah dilakukan penelitian untuk mengetahui sejauh mana kemampuan struktur dalam menerima beban terbang, sehingga mengakibatkan lendutan tersebut. Dari penelitian ini diketahui bahwa pada saat penerbangan, selama 130 menit mulai dari tinggal landas di awal penerbangan sampai dengan terbang jelajah pada kecepatan maksimal 130 km/jam, lendutan maksimal yang terjadi pada struktur hanya mencapai 5,593 x 10-6 m, dengan faktor keamanan sebesar 1,3 berarti struktur relatif aman. Sedangkan untuk pendaratan, kecepatan yang relatif aman dapat dilakukan di bawah 14 km/jam. Jika mendarat pada kecepatan melebihi 20 km/jam, struktur twin boom tersebut mengalami kerusakan parah, karena tegangan yang terjadi sudah melebihi 650 MPa sebagai tegangan ijin bahan struktur yakni komposit e-glass.
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