PERANCANGAN PERBAIKAN KUALITAS KOMPONEN HINGE FWD PESAWAT AIRBUS A350 MENGGUNAKAN METODE SIX SIGMA DI PT DIRGANTARA INDONESIA
PT Dirgantara Indonesia is the only aircraft manufacturer in Indonesia, even in Southeast Asia. As a manufacturer of aircraft and its components, PT Dirgantara Indonesia has a diverse market demand from different parts of the world. In order to meet this demand, PT Dirgantara Indonesia has a frac...
Saved in:
| Main Author: | |
|---|---|
| Format: | Final Project |
| Language: | Indonesia |
| Online Access: | https://digilib.itb.ac.id/gdl/view/84135 |
| Tags: |
Add Tag
No Tags, Be the first to tag this record!
|
| Institution: | Institut Teknologi Bandung |
| Language: | Indonesia |
| Summary: | PT Dirgantara Indonesia is the only aircraft manufacturer in Indonesia, even in
Southeast Asia. As a manufacturer of aircraft and its components, PT Dirgantara
Indonesia has a diverse market demand from different parts of the world. In order
to meet this demand, PT Dirgantara Indonesia has a fraction limit of defective
products on the Airbus A350 that must not exceed 1%. However, there are still some
components with a high percentage of defects, such as Hinge FWD with a percent
of defect of 20,49%. Furthermore, it is known that the sigma value calculated based
on the stability and process capacity at PT Dirgantara Indonesia is 2,5260. The
sigma values indicate that the company's performance is still poor in producing the
Hinge FWD. To reduce the existing defect rate, a method is used as a step in
improving the quality of Hinge FWD products. The method used is the Six Sigma
method through the DMAIC approach. (Define, Measure, Analyze, Improve, and
Control). Then, to identify the factor and subfactor causing the defect of each type
of defect on the Hinge FWD used the Delphi method. Based on the results of the
Delphy method, the priority defect type was chosen using FMEA and RPN
calculations, i.e. hole diameter oversized, undercut, and hole not center. Then from
the type of defect was designed the improvement by making a prototype of sound
detection and SOP (Standar Operational Procedure) related to the use of the
prototipe. From the results of use of prototypes of voice detection found that the run
out spindle or cutter that causes the type defect diameter hole oversized, undercut,
and hole not center has a sound frequency of more than 4000 Hz, while for the
normal CNC machine only emits a sound Frequency in the range 800-3000 Hz. The
sound frequency differential is used as a basis for early detection of defects on the
Hinge FWD so that the prototype can prevent the occurrence of defective products
while the machining process is in progress.
|
|---|