Author:
Harmi Tjahjanti Prantasi,Hardy Sujiatanti Septia
Abstract
The structure and construction of ships made of aluminum alloy, generally of the type of wrought aluminum alloy, when experiencing fatigue failure caused by cracking of the ship structure, is a serious problem. Judging from the ‘weaknesses’ of aluminum material for ships, this chapter will explain the use of alternative materials for ship building, namely aluminum-based composite material which is an aluminum alloy AlSi10Mg (b) ship building material based on the European Nation (EN) Aluminum Casting (AC) - 43,100, with silicon carbide (SiC) reinforcement which has been treated with an optimum composition of 15%, so that the composite material is written with EN AC-43100 (AlSi10Mg (b) + SiC * / 15p. Composite ship model using ANSYS (ANalysis SYStem) software to determine the distribution of stress. The overall result of the voltage distribution has a value that does not exceed the allowable stress (sigma 0.2) and has a factor of safety above the minimum allowable limit, so it is safe to use. The reduction in plate thickness on the EN AC-43100 (AlSi10Mg (b)) + SiC * /15p composite vessel is significant enough to reduce the ship’s weight, so it will increase the speed of the ship.
Reference11 articles.
1. Zhou zhao, Song Zhijian and Xu Yingkum, 1991,"Effect of microstructure on the mechanical properties of an Al alloy 6061 ", J. material science and engineering, A132, p83
2. Pearce PJ, Grabovac I,1994, ‘Composite Reinforcement of Ship Superstructures’, naval platform technology seminar Singapore, December
3. Sielski.RA, Taylor P, 2008, ‘Predicting the failure of aluminum exposed to simulated fire and mechanical loading using finite element model’, Journal of Offshore and Arcric Engineering, 3(1),pp57–65
4. Huang Scott Xiaodi and Paxton Kip,1998, ‗A Macrocomposite Al Brake Rotor for Reduced Weight and Improved Performance, Journal of materials‘ innovations in aluminum, Part IV, August 1998
5. Froyen L. and Verlinden B, 1994, ‘Aluminium Metal Matrix Composite Material’, Training In Application Technologies, 1994. p. 20-21