eprintid: 18228
rev_number: 2
eprint_status: archive
userid: 1
dir: disk0/00/01/82/28
datestamp: 2024-06-04 14:10:23
lastmod: 2024-06-04 14:10:23
status_changed: 2024-06-04 14:01:49
type: article
metadata_visibility: show
creators_name: Mesri, M.
creators_name: Shamsudin, Z.
creators_name: Dom, A.H.M.
creators_name: Hassan, R.
creators_name: Mulyadi, M.
title: EXPERIMENTAL AND VALIDATION OF GLASS-CERAMIC COMPOSITE PROPERTIES DERIVED FROM WASTE MATERIALS AT ELEVATED SINTERING TEMPERATURE
ispublished: pub
note: cited By 0
abstract: The glass-ceramic composite (GCC) from waste material has limited performance especially strength properties that can be improved by reinforced with filler under sintering temperature controlled which commonly used in two steps sintering process. In this study, the influence of elevated sintering temperature using single step or direct sintering process on mechanical properties and microstructural analysis of GCC at various filler loadings were investigated and assessed. The GCC was prepared using eggshell (ES), spent bleach earth (SBE) and soda lime silicate glass (SLSG). Eggshell acted as filler was calcined at temperature of 1000 Â°C before sintered to direct sintering process. This combination was aimed to improve the performance of GCC by controlling the sintering temperature. The sample was sintered at four types of sintering temperatures at 750, 800, 850 and 900 Â°C using 2 Â°C/min heating rate with constant holding time. The GCC was formed with the inclusion of eggshell at 0, 5, 10, and 15 wt as filler. The performance of GCC was analysed through mechanical testing while microstructure of the samples was characterized by using Field emission scanning electron microscopy (FESEM). The results revealed the average of Vickers Micro-hardness and flexural strength was a function of sintering temperature and filler loading. The analyses from these results were indicating that it is possible to produce a good GCC using local waste contributed by 15 of eggshell with the highest value of micro-hardness (1011.64 HV) and with highest flexural strength (54.82 MPa) obtained. Validation via fractography analysis indicated, at high content of filler, the microstructure was more densified as number of pores was minimized. These findings concluded that the suitable sintering temperature can be controlled for alternative materials for structural applications. Â© 2023 M.Mesri et al. Published by Penerbit Universiti Teknikal Malaysia Melaka. This is an open article under the CC-BY-NC-ND license (https://creativecommons.org/licenses/by-nc-nd/4.0/)
date: 2023
official_url: https://www.scopus.com/inward/record.uri?eid=2-s2.0-85187533021&partnerID=40&md5=1a67565db44343d8f2fb9f755fecbb2a
full_text_status: none
publication: Journal of Advanced Manufacturing Technology
volume: 17
number: 3
refereed: TRUE
citation:   Mesri, M. and Shamsudin, Z. and Dom, A.H.M. and Hassan, R. and Mulyadi, M.  (2023) EXPERIMENTAL AND VALIDATION OF GLASS-CERAMIC COMPOSITE PROPERTIES DERIVED FROM WASTE MATERIALS AT ELEVATED SINTERING TEMPERATURE.  Journal of Advanced Manufacturing Technology, 17 (3).