"멀티 스케일 건축재료 연구실"의 두 판 사이의 차이

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(새 문서: *소속: 서울 공과대학 건축공학부 *영문명: Multi-scale Construction Materials Lab *실장: 배성철 공과대학 건축공학부 교수 *홈페이...)
 
4번째 줄: 4번째 줄:
 
*홈페이지: https://sites.google.com/view/hyumcmlab
 
*홈페이지: https://sites.google.com/view/hyumcmlab
 
= 주요 연구 =
 
= 주요 연구 =
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=== Environmental Impact of Concrete ===
 +
* The manufacturing of Portland cement account for 5 to 7% of the CO2 that humans produce
 +
* Solutions to improve the properties of concrete and reduce the quantity of Portland cement used in concrete are crucial!
 +
 +
=== Synchrotron Technology on Concrete Research ===
 +
* Local-binding structure and morphological details of C-S-H
 +
* Hydrated tricalcium silicate(C3S), C-S-H with different molar ratios of Ca/Si, were synthesized (Syn-CSH)
 +
* Silicate polymerization influenced the multiple scattering of distant shell atoms more than the binding energy of the core atoms.
 +
* First observation of chemical shift of X-ray Absorption due to hydration
 +
 +
=== Multi-scale Concrete Research ===
 +
* Multi-scale approach from electronic or atomic to macro scale 
 +
* To understand and enhance the properties of concrete
 +
* Multidisciplinary research (Physics, Chemistry, Material Science, Environmental Engineering, Structural Engineering, Geochemical Engineering)

2019년 11월 11일 (월) 15:07 판

주요 연구

Environmental Impact of Concrete 

  • The manufacturing of Portland cement account for 5 to 7% of the CO2 that humans produce
  • Solutions to improve the properties of concrete and reduce the quantity of Portland cement used in concrete are crucial!

Synchrotron Technology on Concrete Research

  • Local-binding structure and morphological details of C-S-H
  • Hydrated tricalcium silicate(C3S), C-S-H with different molar ratios of Ca/Si, were synthesized (Syn-CSH)
  • Silicate polymerization influenced the multiple scattering of distant shell atoms more than the binding energy of the core atoms.
  • First observation of chemical shift of X-ray Absorption due to hydration

Multi-scale Concrete Research

  • Multi-scale approach from electronic or atomic to macro scale
  • To understand and enhance the properties of concrete
  • Multidisciplinary research (Physics, Chemistry, Material Science, Environmental Engineering, Structural Engineering, Geochemical Engineering)