Microwave nondestructive testing of textile and composite materials using free-space microwave measurement system / Associate Professor Dr. Jamil Salleh … [et al.]

Microwave Nondestructive Testing (MNDT) is a procedure for determining the quality or characteristics of material, part, or assembly, without permanently altering the material or its properties, by microwaves. It is used to find internal anomalies in the structure without degrading its properties. T...

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Main Authors: Salleh, Jamil, Ghodgaonkar, Deepak Kumar, Wan Ahmad, Wan Yunus, Khadri, Norasimah, Mohd Tamyis, Najihah
Format: Research Reports
Language:English
Published: 2002
Subjects:
Online Access:https://ir.uitm.edu.my/id/eprint/76974/1/76974.pdf
https://ir.uitm.edu.my/id/eprint/76974/
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spelling my.uitm.ir.769742023-08-21T09:25:34Z https://ir.uitm.edu.my/id/eprint/76974/ Microwave nondestructive testing of textile and composite materials using free-space microwave measurement system / Associate Professor Dr. Jamil Salleh … [et al.] Salleh, Jamil Ghodgaonkar, Deepak Kumar Wan Ahmad, Wan Yunus Khadri, Norasimah Mohd Tamyis, Najihah Microwave communication systems Microwave Nondestructive Testing (MNDT) is a procedure for determining the quality or characteristics of material, part, or assembly, without permanently altering the material or its properties, by microwaves. It is used to find internal anomalies in the structure without degrading its properties. The advantages of MNDT are [1] a) Microwaves can transverse empty space, therefore coupling can be easier than using the ultrasonic methods. b) No material contamination problem occurs from the coupling material. c) Microwaves do not penetrate to any significant depth in electrical conductors, therefore they can be used as reflectors. d) Microwave can penetrate most commercial plastics and glass-reinforced structures. e) Unlike ultrasonic, microwave is not totally reflected at interfaces between solids and air. f) Information about amplitude and phase of propagating microwaves is measurable. g) Microwave can be used in hostile environment such as blast furnaces and nuclear reactor silos or bunkers to measure depth of burden, depth of grain, or depth of cooling water. h) Microwave components can be measured from metal stock, and the electronics power supplies and controllers can stand reasonably difficult environments of vibration, temperature and corrosion. 2002 Research Reports NonPeerReviewed text en https://ir.uitm.edu.my/id/eprint/76974/1/76974.pdf Microwave nondestructive testing of textile and composite materials using free-space microwave measurement system / Associate Professor Dr. Jamil Salleh … [et al.]. (2002) [Research Reports] (Unpublished)
institution Universiti Teknologi Mara
building Tun Abdul Razak Library
collection Institutional Repository
continent Asia
country Malaysia
content_provider Universiti Teknologi Mara
content_source UiTM Institutional Repository
url_provider http://ir.uitm.edu.my/
language English
topic Microwave communication systems
spellingShingle Microwave communication systems
Salleh, Jamil
Ghodgaonkar, Deepak Kumar
Wan Ahmad, Wan Yunus
Khadri, Norasimah
Mohd Tamyis, Najihah
Microwave nondestructive testing of textile and composite materials using free-space microwave measurement system / Associate Professor Dr. Jamil Salleh … [et al.]
description Microwave Nondestructive Testing (MNDT) is a procedure for determining the quality or characteristics of material, part, or assembly, without permanently altering the material or its properties, by microwaves. It is used to find internal anomalies in the structure without degrading its properties. The advantages of MNDT are [1] a) Microwaves can transverse empty space, therefore coupling can be easier than using the ultrasonic methods. b) No material contamination problem occurs from the coupling material. c) Microwaves do not penetrate to any significant depth in electrical conductors, therefore they can be used as reflectors. d) Microwave can penetrate most commercial plastics and glass-reinforced structures. e) Unlike ultrasonic, microwave is not totally reflected at interfaces between solids and air. f) Information about amplitude and phase of propagating microwaves is measurable. g) Microwave can be used in hostile environment such as blast furnaces and nuclear reactor silos or bunkers to measure depth of burden, depth of grain, or depth of cooling water. h) Microwave components can be measured from metal stock, and the electronics power supplies and controllers can stand reasonably difficult environments of vibration, temperature and corrosion.
format Research Reports
author Salleh, Jamil
Ghodgaonkar, Deepak Kumar
Wan Ahmad, Wan Yunus
Khadri, Norasimah
Mohd Tamyis, Najihah
author_facet Salleh, Jamil
Ghodgaonkar, Deepak Kumar
Wan Ahmad, Wan Yunus
Khadri, Norasimah
Mohd Tamyis, Najihah
author_sort Salleh, Jamil
title Microwave nondestructive testing of textile and composite materials using free-space microwave measurement system / Associate Professor Dr. Jamil Salleh … [et al.]
title_short Microwave nondestructive testing of textile and composite materials using free-space microwave measurement system / Associate Professor Dr. Jamil Salleh … [et al.]
title_full Microwave nondestructive testing of textile and composite materials using free-space microwave measurement system / Associate Professor Dr. Jamil Salleh … [et al.]
title_fullStr Microwave nondestructive testing of textile and composite materials using free-space microwave measurement system / Associate Professor Dr. Jamil Salleh … [et al.]
title_full_unstemmed Microwave nondestructive testing of textile and composite materials using free-space microwave measurement system / Associate Professor Dr. Jamil Salleh … [et al.]
title_sort microwave nondestructive testing of textile and composite materials using free-space microwave measurement system / associate professor dr. jamil salleh … [et al.]
publishDate 2002
url https://ir.uitm.edu.my/id/eprint/76974/1/76974.pdf
https://ir.uitm.edu.my/id/eprint/76974/
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score 13.214268