Revolutionizing Road Pavements: Advancing Traffic Safety and Aesthetics Through Chrome Oxide and Iron Oxide Pigmented Coloured Asphalt Binders

This paper investigates the pivotal role of asphalt binder in road pavement and its profound impact on overall road performance. Emphasizing the paramount importance of traffic safety, particularly in public spaces, the study explores the introduction of coloured asphalt as a means to enhance road s...

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Published in:INTERNATIONAL JOURNAL OF PAVEMENT RESEARCH AND TECHNOLOGY
Main Authors: Khalifa, Nasradeen Ali; Al Bargi, Walid Abdullah; Radwan, Ashraf Abdalla M.; Younus, Basim; Ali, Shaban Ismael Albrka; Suhandrig, Hendy F.; Al-Mansob, Ramez A.
Format: Article; Early Access
Language:English
Published: SPRINGERNATURE 2024
Subjects:
Online Access:https://www-webofscience-com.uitm.idm.oclc.org/wos/woscc/full-record/WOS:001355287400001
author Khalifa
Nasradeen Ali; Al Bargi
Walid Abdullah; Radwan
Ashraf Abdalla M.; Younus
Basim; Ali
Shaban Ismael Albrka; Suhandrig
Hendy F.; Al-Mansob
Ramez A.
spellingShingle Khalifa
Nasradeen Ali; Al Bargi
Walid Abdullah; Radwan
Ashraf Abdalla M.; Younus
Basim; Ali
Shaban Ismael Albrka; Suhandrig
Hendy F.; Al-Mansob
Ramez A.
Revolutionizing Road Pavements: Advancing Traffic Safety and Aesthetics Through Chrome Oxide and Iron Oxide Pigmented Coloured Asphalt Binders
Construction & Building Technology; Engineering; Materials Science
author_facet Khalifa
Nasradeen Ali; Al Bargi
Walid Abdullah; Radwan
Ashraf Abdalla M.; Younus
Basim; Ali
Shaban Ismael Albrka; Suhandrig
Hendy F.; Al-Mansob
Ramez A.
author_sort Khalifa
spelling Khalifa, Nasradeen Ali; Al Bargi, Walid Abdullah; Radwan, Ashraf Abdalla M.; Younus, Basim; Ali, Shaban Ismael Albrka; Suhandrig, Hendy F.; Al-Mansob, Ramez A.
Revolutionizing Road Pavements: Advancing Traffic Safety and Aesthetics Through Chrome Oxide and Iron Oxide Pigmented Coloured Asphalt Binders
INTERNATIONAL JOURNAL OF PAVEMENT RESEARCH AND TECHNOLOGY
English
Article; Early Access
This paper investigates the pivotal role of asphalt binder in road pavement and its profound impact on overall road performance. Emphasizing the paramount importance of traffic safety, particularly in public spaces, the study explores the introduction of coloured asphalt as a means to enhance road safety. The coloured asphalt mixture comprises aggregates, bitumen binder, and two distinct colour pigments iron oxide for red and chrome oxide for green. These pigments are meticulously mixed in proportions of 15%, 25%, and 35%, with tests conducted to evaluate colour intensity. Assessment of strength and quality involves penetration and softening point tests for the binder, sieve analysis for aggregates, and dynamic creep and resilient modulus tests for coloured asphalt. The findings reveal that oxide pigments effectively produce coloured asphalt suitable for public spaces in Malaysia. The study successfully achieves its objectives, demonstrating that both red and green asphalt exhibit satisfactory results. Furthermore, the experiment underscores the crucial influence of iron oxide and chrome oxide in controlling and reducing pavement temperature. This research contributes valuable insights into the utilization of coloured asphalt for safety enhancements and aesthetic improvements in road pavements.
SPRINGERNATURE
1996-6814
1997-1400
2024


10.1007/s42947-024-00485-1
Construction & Building Technology; Engineering; Materials Science

WOS:001355287400001
https://www-webofscience-com.uitm.idm.oclc.org/wos/woscc/full-record/WOS:001355287400001
title Revolutionizing Road Pavements: Advancing Traffic Safety and Aesthetics Through Chrome Oxide and Iron Oxide Pigmented Coloured Asphalt Binders
title_short Revolutionizing Road Pavements: Advancing Traffic Safety and Aesthetics Through Chrome Oxide and Iron Oxide Pigmented Coloured Asphalt Binders
title_full Revolutionizing Road Pavements: Advancing Traffic Safety and Aesthetics Through Chrome Oxide and Iron Oxide Pigmented Coloured Asphalt Binders
title_fullStr Revolutionizing Road Pavements: Advancing Traffic Safety and Aesthetics Through Chrome Oxide and Iron Oxide Pigmented Coloured Asphalt Binders
title_full_unstemmed Revolutionizing Road Pavements: Advancing Traffic Safety and Aesthetics Through Chrome Oxide and Iron Oxide Pigmented Coloured Asphalt Binders
title_sort Revolutionizing Road Pavements: Advancing Traffic Safety and Aesthetics Through Chrome Oxide and Iron Oxide Pigmented Coloured Asphalt Binders
container_title INTERNATIONAL JOURNAL OF PAVEMENT RESEARCH AND TECHNOLOGY
language English
format Article; Early Access
description This paper investigates the pivotal role of asphalt binder in road pavement and its profound impact on overall road performance. Emphasizing the paramount importance of traffic safety, particularly in public spaces, the study explores the introduction of coloured asphalt as a means to enhance road safety. The coloured asphalt mixture comprises aggregates, bitumen binder, and two distinct colour pigments iron oxide for red and chrome oxide for green. These pigments are meticulously mixed in proportions of 15%, 25%, and 35%, with tests conducted to evaluate colour intensity. Assessment of strength and quality involves penetration and softening point tests for the binder, sieve analysis for aggregates, and dynamic creep and resilient modulus tests for coloured asphalt. The findings reveal that oxide pigments effectively produce coloured asphalt suitable for public spaces in Malaysia. The study successfully achieves its objectives, demonstrating that both red and green asphalt exhibit satisfactory results. Furthermore, the experiment underscores the crucial influence of iron oxide and chrome oxide in controlling and reducing pavement temperature. This research contributes valuable insights into the utilization of coloured asphalt for safety enhancements and aesthetic improvements in road pavements.
publisher SPRINGERNATURE
issn 1996-6814
1997-1400
publishDate 2024
container_volume
container_issue
doi_str_mv 10.1007/s42947-024-00485-1
topic Construction & Building Technology; Engineering; Materials Science
topic_facet Construction & Building Technology; Engineering; Materials Science
accesstype
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url https://www-webofscience-com.uitm.idm.oclc.org/wos/woscc/full-record/WOS:001355287400001
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