Open AccessANALISA EKSPERIMENTAL MODULUS ELASTISITAS BAHAN KOMPOSIT GLASS FIBER REINFORCED PLASTIC (GFRP) BERDASARKAN VARIASI DIAMETER SERAT AKIBAT BEBAN IMPAK LAJU REGANGAN TINGGI
Author(s) -
Achmad Jusuf Zulfikar
Publication year - 2018
Publication title -
jmemme (journal of mechanical engineering, manufactures, materials and energy)
Language(s) - English
Resource type - Journals
eISSN - 2549-6239
pISSN - 2549-6220
DOI - 10.31289/jmemme.v1i2.538
Subject(s) - composite material , fibre reinforced plastic , materials science , glass fiber , impulse (physics) , structural engineering , physics , engineering , quantum mechanics
GFRP composite is one of the alternative materials that the most common as a replacement for metal. This material has a light weight, easy to shape, good strength, and the production cost is relatively cheaper. This study aims to investigate the effects of fiber diameter variation of mechanical behavior, particularly on the load of high strain rate impact. The application of impulse momentum theory in the elastic region is the basic science for this case. The AGC apparatus is equipment that used for this test because it could generate the high strain wave rate in the single direction loading. Specimen is placed in the position of tight end against the end of the input bar. The results showed that the increase in fiber diameter variations affect the value of E that is produced. Thus, it is become a recommendation for the use of this material in certain circumstances.