Zairyo-to-Kankyo
New Arrival Alert : OFF

You can use this feature after you logged into the site.
Please click the button below.

Log in / Sign up
ONLINE ISSN: 1881-9664
PRINT ISSN: 0917-0480

Zairyo-to-Kankyo Vol. 66 (2017), No. 6

  • Cultivation of Human Resources in Young Members and Expectation of Their Development in the Future

    pp. 195-196

    Bookmark

    You can use this feature after you logged into the site.
    Please click the button below.

    Log in / Sign Up

    DOI:10.3323/jcorr.66.195

  • Development of Self-Healing Coating with Capsules Containing Healing Agent for Corrosion Protection of Metal

    pp. 202-208

    Bookmark

    You can use this feature after you logged into the site.
    Please click the button below.

    Log in / Sign Up

    DOI:10.3323/jcorr.66.202

    In a previous study, self-healing polyurethane coatings with microcapsules containing healing agents have been developed for the protection of metal from corrosion. At the initial stage of the development of these coatings, we synthesized the microcapsules containing healing agents by adding organic solvents to inhibit the solidification of the whole capsule. In this study, the structure of the capsules formed with different solvents, such as chlorobenzene, toluene and xylene was examined. We also evaluated the self-healing ability of coatings with these capsules after damaging the coating by scratching.The amount of healing agents contained in capsules depends on the kind and the amount of solvents added. In the capsule formed with 20 or 50 wt%-chlorobenzene, there is almost no healing agent of liquid phase, while in the capsule formed with 70 wt%-chlorobenzen healing agents are contained. Toluene and xylene are more effective inhibitors than chlorobenzene. The capsule formed with 70 wt%-toluene or xylene contains much more amounts of the healing agent of liquid phase than that formed with 70 %-chlorobenzene, and the coatings with the former capsules have an appreciable self-healing ability.
  • Effects of Environment Factors on Stress Corrosion Cracking of Austenitic Stainless Steels in Atmospheric Environments

    pp. 209-213

    Bookmark

    You can use this feature after you logged into the site.
    Please click the button below.

    Log in / Sign Up

    DOI:10.3323/jcorr.66.209

    Effects of sensitization, relative humidity (RH), and chloride concentration on stress corrosion cracking (SCC) behaviors at low temperature in atmospheric environments were studied by using U-bend specimens of as-received (cold-worked) and sensitized Type 304 steels. NaCl and MgCl2 salts were put on the specimens, and the specimens were set in the constant temperature and humidity chamber with 40~70% RH at 40°C for 720h. The results showed that the Type 304 steel became more susceptive to SCC when increasing humidity and chloride concentration. MgCl2 was more effective to SCC while NaCl was less effective. In the sensitized specimens, deep cracks were observed with small branches and the crack propagated through grain boundaries.
  • Corrosion Behavior of Stainless Steels in Crevice under Cyclic Corrosion Test- Effect of Alloying Elements -

    pp. 214-222

    Bookmark

    You can use this feature after you logged into the site.
    Please click the button below.

    Log in / Sign Up

    DOI:10.3323/jcorr.66.214

    Cyclic corrosion tests, consisting of 0.86 kmol・m‒3 NaCl solution spraying, drying, and wetting process, were conducted using a crevice-structured spot-weld specimen of ferritic stainless steels in order to investigate the effect of alloying elements on the corrosion behavior. The addition of Ni to 18Cr1Mo ferritic stainless steels was the most effective in decreasing the maximum corrosion depth in the crevice. Mo was an effective alloying element and the increase of Cr was not effective. Ni and Mo acted as effective elements decreasing the critical passive current densities and the addition of Ni was the most effective in lowering repassivation pH in acidic NaCl aqueous solutions. The result that the maximum corrosion depth decreases remarkably in the crevice could be attributed to the benefitical effect of Ni that inhibit anodic dissolution and accelerate repassivation.

Article Access Ranking

01 Oct. (Last 30 Days)

  1. Perspective toward Long-term Global Goal for Carbon Dioxide Mitigation in Steel Industry Tetsu-to-Hagané Vol.105(2019), No.6
  2. Recent Progress of Instrumentation Technology for Process Automation in Steel Industry Tetsu-to-Hagané Vol.106(2020), No.9
  3. Accuracy Improvement of the XRD-Rietveld Method for the Quantification of Crystalline Phases in Iron Sintered Ores through the Correction of Micro-absorption Effects ISIJ International Advance Publication
  4. Melting Erosion Failure Mechanism of Tuyere in Blast Furnace ISIJ International Advance Publication
  5. Review on the High-Temperature Thermophysical Properties of Continuous Casting Mold Fluxes for Highly Alloyed Steels Tetsu-to-Hagané Advance Publication
  6. Mechanism of Corrosion Protection at Cut Edge of Zn-11%Al-3%Mg-0.2%Si Coated Steel Sheets ISIJ International Vol.60(2020), No.9
  7. Potential Influences of Impurities on Properties of Recycled Carbon Steel ISIJ International Advance Publication
  8. Evaluation and Prediction of Blast Furnace Status Based on Big Data Platform of Ironmaking and Data Mining ISIJ International Advance Publication
  9. Permeability Coefficient of Oxygen in Molten Slags and Its Mechanisms ISIJ International Vol.60(2020), No.9
  10. Composition Changes of Inclusions by Reaction with Slag and Refractory: A Review ISIJ International Vol.60(2020), No.9

Search Phrase Ranking

01 Oct. (Last 30 Days)

  1. blast furnace
  2. blast furnace permeability
  3. blast furnace productivity
  4. ultrasonic testing bar small diameter
  5. ultrasonic inclusion
  6. isij international
  7. jeong-sik kim
  8. 柳修介
  9. continuous casting of copper alloys
  10. tetsu