메뉴 건너뛰기
소속 기관 / 학교 인증
인증하면 논문, 학술자료 등을  무료로 열람할 수 있어요.
한국대학교, 누리자동차, 시립도서관 등 나의 기관을 확인해보세요
(국내 대학 90% 이상 구독 중)
고객센터 ENG
주제분류

논문 기본 정보

저자정보
출처
Wiley International Journal of Ceramic Engineering & Science 7(1)
오류 신고하기
표지

검색

    초록·키워드

    Abstract This study delves into the impact of different potassium‐waterglass (K‐WG) compositions on the early reaction dynamics and strength evolution in metakaolin‐based geopolymers (GP). By maintaining a constant SiO 2 /Al 2 O 3 ratio of 4, the study explores the influence of varying H 2 O/K 2 O and K 2 O/Al 2 O 3 ratios on GP properties under both dry and saturated curing conditions. Early reaction kinetics are examined using isothermal calorimetry at room temperature (21°C), and pH measurements provide insights into alkali leaching. A strong correlation was found between total heat release and strength gain, as evidenced by ultrasonic cement analyzer (UCA) readings. The study further identifies that increased H 2 O/K 2 O ratios prolong setting times and delay the geopolymerization peaks, while a higher K 2 O/Al 2 O 3 ratio enhances the geopolymerization process. Vicat tests confirmed the results obtained by calorimetry and UCA: only the GP4 formulation (H 2 O/K 2 O = 8.7 and K 2 O/Al 2 O 3 = 1.3) hardened in less than 7 days. Additionally, it was found that saturated curing conditions decelerate strength development, with an initial notable decline in compressive strength at 24 h compared with dry curing. However, this difference diminishes to a negligible 7.6% after 3 days. Optimal ratios of H 2 O/K 2 O = 8.7 and K 2 O/Al 2 O 3 = 1.3 were determined to be critical for achieving reliable strength measurements at 1 day of curing. pH assessments indicated strong water resistance in all GP formulations, with leaching primarily governed by diffusion mechanisms. Specifically, the K‐WG composition with SiO 2 /K 2 O = 1.53 and H 2 O/K 2 O = 8.69 showcased minimal leachability. These fundamental findings are crucial for the later design of GP materials that require rapid strength development, especially crucial for applications necessitating cementing under extreme conditions, such as deep‐sea drilling, geothermal energy production, and high‐temperature industrial processes.

    본문·목차

    최근 본 자료 전체보기