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The Corrosion Behaviors of Carbon Steel by TO Dara

Corrosion is a ubiquitous phenomenon that affects various metallic structures, leading to significant economic and safety concerns. Over the years, numerous researchers have dedicated their efforts to understand and mitigate the detrimental effects of corrosion. One such prominent figure in the field is TO Dara. Dara’s groundbreaking research has shed light on the mechanisms and behaviors of corrosion, particularly on low carbon steel. This article explores the key contributions of TO Dara and his pioneering work in corrosion research.

Table of Contents

  1. Introduction to TO Dara
  2. Detection of Surface Roughness Evolution of Carbon Steel
  3. The Behavior of Corrosion of Low Carbon Steel Affected by Corrosion Product and Na2SO4 Concentration
  4. Experimental Investigation on Corrosivity of Atmosphere through Atmospheric Corrosion Monitoring (ACM) Sensors
  5. Evaluation of Atmospheric Corrosion in Steels for Corrosion Mapping in Asia
  6. Initial Atmospheric Corrosion Behaviors of Carbon Steel Exposed to Urban and Marine Atmospheres in Cambodia
  7. Development of Artificial Rainfall Equipment for Studying the Effect of Rain on Corrosion Behaviors
  8. Effects of Anion on Corrosion Behaviors of Carbon Steel under Artificial Rainfall
  9. Contributions to the 9th Pacific Rim International Conference on Advanced Materials and Processing
  10. Impact of Anion on Corrosion Behaviors of Carbon Steel
  11. Conclusion
  12. Future Directions

1. Introduction to TO Dara

TO Dara is a highly accomplished corrosion researcher, known for his significant contributions to understanding the various aspects of corrosion, particularly in low carbon steel. Dara’s work has greatly advanced the field, providing valuable insights into the mechanisms, behaviors, and mitigation strategies for corrosion. His research encompasses a wide range of topics, including the detection of surface roughness evolution, the influence of corrosion products and Na2SO4 concentration, and the evaluation of atmospheric corrosion in different regions.

2. Detection of Surface Roughness Evolution of Carbon Steel

One of TO Dara’s notable research projects focused on understanding the surface roughness evolution of carbon steel subjected to outdoor exposure and constant humidity corrosion tests. In this study, Dara and his team conducted experiments to analyze the changes in surface roughness over time. They employed advanced techniques such as profilometry and scanning electron microscopy to examine the surface morphology and identify the key factors contributing to surface roughness evolution. The findings from this research have provided valuable insights into the progression of corrosion and can aid in predicting the lifespan of carbon steel structures exposed to corrosive environments.

3. The Behavior of Corrosion of Low Carbon Steel Affected by Corrosion Product and Na2SO4 Concentration

TO Dara’s research on the behavior of corrosion in low carbon steel under the influence of corrosion products and Na2SO4 concentration has significantly contributed to our understanding of the complex interactions in corrosive environments. Through meticulous experimentation and analysis, Dara and his team investigated the corrosion behavior of low carbon steel samples exposed to artificial rainfall tests. They monitored the corrosion rate, surface morphology, and chemical composition of the samples under varying conditions. The research highlighted the role of corrosion products and Na2SO4 concentration in accelerating or mitigating corrosion, providing valuable insights for corrosion control strategies.

4. Experimental Investigation on Corrosivity of Atmosphere through Atmospheric Corrosion Monitoring (ACM) Sensors

Dara’s research on the corrosivity of the atmosphere through the use of Atmospheric Corrosion Monitoring (ACM) Sensors has revolutionized the field of corrosion research. By deploying these sensors in different locations, Dara and his team were able to monitor and analyze the corrosive environment in real-time. The sensors provided continuous data on factors such as temperature, humidity, and pollutant concentration, allowing for a comprehensive understanding of the corrosion mechanisms. This research has paved the way for the development of effective corrosion prevention strategies tailored to specific atmospheric conditions.

5. Evaluation of Atmospheric Corrosion in Steels for Corrosion Mapping in Asia

In collaboration with international partners, TO Dara conducted a comprehensive evaluation of atmospheric corrosion in steels for corrosion mapping in Asia. This ambitious project aimed to assess the corrosion behavior of different steels in various Asian countries, taking into account the diverse atmospheric conditions prevalent in the region. By analyzing corrosion rates, surface characteristics, and environmental factors, Dara and his collaborators generated corrosion maps that provide valuable insights for infrastructure development and maintenance in Asia. This research has highlighted the importance of considering regional corrosion factors while designing and implementing corrosion prevention strategies.

6. Initial Atmospheric Corrosion Behaviors of Carbon Steel Exposed to Urban and Marine Atmospheres in Cambodia

Dara’s research on the initial atmospheric corrosion behaviors of carbon steel exposed to urban and marine atmospheres in Cambodia focused on understanding the unique corrosion challenges in this Southeast Asian country. By deploying carbon steel samples in urban and marine environments, Dara and his team monitored the corrosion rates and surface characteristics over an extended period. The research shed light on the corrosive impact of pollutants, humidity, and other environmental factors specific to the Cambodian context. The findings from this study contribute to the development of effective corrosion prevention measures tailored to the region’s unique atmospheric conditions.

7. Development of Artificial Rainfall Equipment for Studying the Effect of Rain on Corrosion Behaviors

Recognizing the significant role of rainfall in the corrosion process, TO Dara undertook the development of artificial rainfall equipment to study its effect on corrosion behaviors. By simulating rainfall conditions in the laboratory, Dara and his team could systematically investigate the impact of rain on different materials and surface coatings. This research has provided valuable insights into the corrosion mechanisms triggered by rain and has implications for the design of corrosion-resistant materials and protective coatings.

8. Effects of Anion on Corrosion Behaviors of Carbon Steel under Artificial Rainfall

Dara’s research on the effects of anions on the corrosion behaviors of carbon steel under artificial rainfall aimed to understand the influence of different anions on the corrosion process. By subjecting carbon steel samples to artificial rainfall tests containing various anions, Dara and his team observed and analyzed the corrosion rates, surface morphology, and chemical composition of the samples. This research has enhanced our understanding of the role of anions in corrosion and can aid in the development of corrosion-resistant materials and coatings.

9. Contributions to the 9th Pacific Rim International Conference on Advanced Materials and Processing

TO Dara actively participates in international conferences and scientific gatherings to share his research findings and collaborate with fellow researchers. His contributions to the 9th Pacific Rim International Conference on Advanced Materials and Processing were particularly notable. Dara presented his research on the corrosion behaviors of carbon steel under different environmental conditions, highlighting the importance of considering regional factors in corrosion prevention strategies. His contributions to conferences such as these have facilitated knowledge sharing and the advancement of corrosion research.

10. Impact of Anion on Corrosion Behaviors of Carbon Steel

Building upon his previous research, Dara conducted a comprehensive study on the impact of anions on the corrosion behaviors of carbon steel. By systematically investigating the corrosion rates and surface characteristics of carbon steel samples exposed to different anions, Dara and his team identified the specific anions that significantly influence corrosion. This research has practical implications for industries and infrastructure projects, as it provides guidance for selecting materials and coatings that can withstand specific corrosive environments.

11. Conclusion

TO Dara’s contributions to corrosion research, particularly in the field of low carbon steel, have significantly advanced our understanding of corrosion mechanisms and behaviors. His research on the detection of surface roughness evolution, the influence of corrosion products and Na2SO4 concentration, and the evaluation of atmospheric corrosion in different regions has provided valuable insights for corrosion control strategies. Moreover, Dara’s work on the effects of anions and rainfall on corrosion behaviors has implications for the development of corrosion-resistant materials and coatings. Through his pioneering research, TO Dara has made lasting contributions to the field of corrosion science.

12. Future Directions

Looking ahead, TO Dara’s research sets the stage for further exploration and advancements in corrosion science. Future research could focus on developing more accurate predictive models for corrosion rates, considering the interplay of multiple environmental factors and materials. Additionally, investigating the corrosion behavior of emerging materials and exploring novel corrosion mitigation techniques are promising directions for future studies. By building upon TO Dara’s work, researchers can continue to develop innovative strategies to combat corrosion and ensure the longevity and integrity of metallic structures.

 

GOOGLE CITATIONS
CITED BY
YEAR
Detection of surface roughness evolution of carbon steel subjected to outdoor exposure and constant humidity corrosion tests

D To, O Umezawa, T Shinohara
Materials Transactions 59 (8), 1239-1243
10 2018
The Behavior of corrosion of low carbon steel affected by corrosion product and Na2SO4 concentration under artificial rainfall test. Zairyo Kankyo 2016

T Dara, T Shinohara, O Umezawa
C-114, 298-302
5
Experimental Investigation on the Corrosivity of Atmosphere through the Atmospheric Corrosion Monitoring (ACM) Sensors

D To, T Shinohara, O Umezawa
ECS Transactions 75 (29), 1
4 2017
Evaluation of atmospheric corrosion in steels for corrosion mapping in Asia

D To
3 2017
A study on the initial atmospheric corrosion behaviors of carbon steel exposed to urban and marine atmospheres in Cambodia

D To, T Shinohara, O Umezawa
Zairyo-to-Kankyo 66 (4), 131-135
3 2017
Evaluation of Atmospheric Corrosion in Steels for Corrosion Mapping in Asia

TO Dara
Doctor Thesis. Graduate School of Engineering, Yokohama National University …
2 2017
Development of Artificial Rainfall Equipment for Studying the Effect of Rain on the Corrosion Behaviors

D To, T Shinohara, O Umezawa
Zairyo-to-Kankyo 66 (2), 58-61
2 2017
Effects of Anion on the Corrosion Behaviors of Carbon Steel under Artificial Rainfall

T Dara, T Shinohara, O Umezawa
Proceedings of the 9th Pacific Rim International Conference on Advanced …
2 2016
Experimental Investigation on the Corrosivity of Atmosphere through the Atmospheric Corrosion Monitoring (ACM) Sensors

T Shinohara, T Dara, O Umezawa
Electrochemical Society Meeting Abstracts 230, 1299-1299
2016
Effects of anion on the corrosion behaviors of carbon steel under artificial rain fall test

D To, T Shinohara, O Umezawa
IJRET: International Journal of Research in Engineering and Technology 5 (8 …
2016
PROOFS

D To, O Umezawa, T Shinohara
EFFECTS OF ANION ON THE CORROSION BEHAVIORS OF CARBON STEEL UNDER ARTIFICIAL RAIN FALL TEST

TO Dara, T Shinohara, O Umezawa

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