A facile development of homemade substrate using ‘quench free’glass-ceramic composite and printing microstrip patch antenna on it
A facile development of homemade substrate using ‘quench free’glass-ceramic composite and printing microstrip patch antenna on it
The development of a non-conventional (NC) LTCC glass-ceramic composite using a unique ‘quench free glass’, and subsequent realization of a patch antenna on this substrate, are reported. This novel composition is comprised of Sr2ZnTeO6 (SZT) and 5 wt% of ZBPT (10 mol% ZnO – 2 mol% B2O3 – 8 mol% P2O5 – 80 mol% TeO2) glass where the latter reaction mixture can be added directly to the ceramic, bypassing the high temperature melt quenching step. The average particle size distribution shows a more uniform and narrow distribution of powder prepared through non-conventional approach, compared to the conventional approach (C) where the quenched glass powder was added to the ceramic. The sintered tapes show εr values of 11.64 and 12.12 for both SZT + ZBPT (C) and SZT + ZBPT (NC) respectively. The breakdown strength of both sintered tapes comes > 1100 V/2 mil. The SZT + ZBPT (NC) tape show lower leakage current and better resistivity (5.3 × 108 Ω·cm) compared to SZT + ZBPT (C) (2.9 × 108 Ω·cm). In order to check the feasibility of developed LTCC tape as microwave substrates, a prototype of ceramic patch antenna operating at 2.5 GHz was designed and printed on sintered LTCC tapes of SZT + ZBPT (NC) and its radiation characteristics were analyzed and discussed.
38-46
Pullanchiyodan, Abhilash
4ba23b91-eb04-4b14-8ef5-8d4e9f872e54
Babu, Roshni
fe7dbe92-1f6b-44e7-94de-4321ff68284a
Pezholil, Mohanan
ad56adea-87b3-4cab-b428-1f5d4272a230
Kuzhichalil Peethambaran, Surendran
a515b25a-1ed5-43af-aba9-5b77e0b20db0
5 January 2018
Pullanchiyodan, Abhilash
4ba23b91-eb04-4b14-8ef5-8d4e9f872e54
Babu, Roshni
fe7dbe92-1f6b-44e7-94de-4321ff68284a
Pezholil, Mohanan
ad56adea-87b3-4cab-b428-1f5d4272a230
Kuzhichalil Peethambaran, Surendran
a515b25a-1ed5-43af-aba9-5b77e0b20db0
Pullanchiyodan, Abhilash, Babu, Roshni, Pezholil, Mohanan and Kuzhichalil Peethambaran, Surendran
(2018)
A facile development of homemade substrate using ‘quench free’glass-ceramic composite and printing microstrip patch antenna on it.
Materials & Design, 137, .
(doi:10.1016/j.matdes.2017.10.015).
Abstract
The development of a non-conventional (NC) LTCC glass-ceramic composite using a unique ‘quench free glass’, and subsequent realization of a patch antenna on this substrate, are reported. This novel composition is comprised of Sr2ZnTeO6 (SZT) and 5 wt% of ZBPT (10 mol% ZnO – 2 mol% B2O3 – 8 mol% P2O5 – 80 mol% TeO2) glass where the latter reaction mixture can be added directly to the ceramic, bypassing the high temperature melt quenching step. The average particle size distribution shows a more uniform and narrow distribution of powder prepared through non-conventional approach, compared to the conventional approach (C) where the quenched glass powder was added to the ceramic. The sintered tapes show εr values of 11.64 and 12.12 for both SZT + ZBPT (C) and SZT + ZBPT (NC) respectively. The breakdown strength of both sintered tapes comes > 1100 V/2 mil. The SZT + ZBPT (NC) tape show lower leakage current and better resistivity (5.3 × 108 Ω·cm) compared to SZT + ZBPT (C) (2.9 × 108 Ω·cm). In order to check the feasibility of developed LTCC tape as microwave substrates, a prototype of ceramic patch antenna operating at 2.5 GHz was designed and printed on sintered LTCC tapes of SZT + ZBPT (NC) and its radiation characteristics were analyzed and discussed.
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Published date: 5 January 2018
Identifiers
Local EPrints ID: 505724
URI: http://eprints.soton.ac.uk/id/eprint/505724
ISSN: 0264-1275
PURE UUID: 28ee2ce0-415c-42e7-956c-1c5289ac82bc
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Date deposited: 16 Oct 2025 17:27
Last modified: 16 Oct 2025 17:27
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Author:
Abhilash Pullanchiyodan
Author:
Roshni Babu
Author:
Mohanan Pezholil
Author:
Surendran Kuzhichalil Peethambaran
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