Straipsniai su viešo pasiekiamumo įpareigojimais - Xueyu PangSužinokite daugiau
Niekur nepasiekiama: 14
Cement hydration kinetics study in the temperature range from 15 C to 95 C
X Pang, L Sun, F Sun, G Zhang, S Guo, Y Bu
Cement and Concrete Research 148, 106552, 2021
Įpareigojimai: National Natural Science Foundation of China
Influence of curing temperature on the hydration and strength development of Class G Portland cement
X Pang, L Sun, M Chen, M Xian, G Cheng, Y Liu, J Qin
Cement and Concrete Research 156, 106776, 2022
Įpareigojimai: National Natural Science Foundation of China
Long-term strength retrogression of silica-enriched oil well cement: A comprehensive multi-approach analysis
X Pang, J Qin, L Sun, G Zhang, H Wang
Cement and Concrete Research 144, 106424, 2021
Įpareigojimai: National Natural Science Foundation of China
Influences of different admixtures on the properties of oil well cement systems at HPHT conditions
J Qin, X Pang, G Cheng, Y Bu, H Liu
Cement and Concrete Composites 123, 104202, 2021
Įpareigojimai: National Natural Science Foundation of China
Silica sand enhanced cement mortar for cementing steam injection well up to 380 C
H Liu, Y Bu, A Zhou, J Du, L Zhou, X Pang
Construction and Building Materials 308, 125142, 2021
Įpareigojimai: National Natural Science Foundation of China
Hydration kinetics and strength retrogression mechanism of silica-cement systems in the temperature range of 110° C–200° C
L Sun, X Pang, S Ghabezloo, H Wang, J Sun
Cement and Concrete Research 167, 107120, 2023
Įpareigojimai: National Natural Science Foundation of China
Comparison of three different deconvolution methods for analyzing nanoindentation test data of hydrated cement paste
Z Zhang, J Qin, Z Ma, X Pang, Y Zhou
Cement and Concrete Composites 138, 104990, 2023
Įpareigojimai: National Natural Science Foundation of China
Controlling the hydration rate of alkali-activated slag by the slow release of NaOH
S Guo, Y Li, T Chen, D Zheng, J Du, Y Bu, A Zhou, X Pang, H Liu
Geoenergy Science and Engineering 228, 211960, 2023
Įpareigojimai: National Natural Science Foundation of China
Mechanism of gas migration through microstructure of cemented annulus in deep-water environment
X Wang, H Shen, B Sun, Z Wang, Y Gao, H Li, X Pang
Journal of Natural Gas Science and Engineering 78, 103316, 2020
Įpareigojimai: National Natural Science Foundation of China
Experimental study of the effect of curing temperature and pressure on the property evolution of oil well cement
L Sun, X Pang, Y Bu, C Wang
ARMA US Rock Mechanics/Geomechanics Symposium, ARMA-2021-1397, 2021
Įpareigojimai: National Natural Science Foundation of China
Effect of main functional groups of cement slurry additives on the stability of methane hydrate: Experiment and molecular dynamics simulation
M Huo, H Liu, Y Bu, R Ma, H Xu, J Du, X Pang, A Zhou, C Ma
Geoenergy Science and Engineering 228, 212024, 2023
Įpareigojimai: National Natural Science Foundation of China
Anti-strength retrogression cementing materials for deep and ultra-deep wells
G Cheng, X Pang, H Wang, J Sun, Z Qiu
Construction and Building Materials 411, 134407, 2024
Įpareigojimai: National Natural Science Foundation of China
Well Cement Composition Optimization for Deep Well Applications
G Cheng, X Pang, Z Qiu, J Qin, N Li
ISRM Congress, ISRM-15CONGRESS-2023-358, 2023
Įpareigojimai: National Natural Science Foundation of China
Establishment and Application of THM Coupling Model of Casing-Cement Ring-Formation in Thermal Recovery Wells
Y Bu, S Shen, Z Liu, H Liu, S Guo, X Pang
Arabian Journal for Science and Engineering 48 (7), 9085-9097, 2023
Įpareigojimai: National Natural Science Foundation of China
Kur nors pasiekiama: 15
Various admixtures to mitigate the long-term strength retrogression of Portland cement cured under high pressure and high temperature conditions
J Qin, X Pang, A Santra, G Cheng, H Li
Journal of Rock Mechanics and Geotechnical Engineering 15 (1), 191-203, 2023
Įpareigojimai: National Natural Science Foundation of China
Measuring and modeling cement hydration kinetics at variable temperature conditions
X Pang, WC Jimenez, J Singh
Construction and Building Materials 262, 120788, 2020
Įpareigojimai: National Natural Science Foundation of China
Effects of curing pressure on the long-term strength retrogression of oil well cement cured under 200 C
H Liu, J Qin, B Zhou, Z Liu, Z Yuan, Z Zhang, Z Ai, X Pang, X Liu
Energies 15 (16), 6071, 2022
Įpareigojimai: National Natural Science Foundation of China
Effect of tartaric acid on the hydration of oil well cement at elevated temperatures between 60° C and 89° C
F Sun, X Pang, S Kawashima, G Cheng, S Guo, Y Bu
Cement and Concrete Research 161, 106952, 2022
Įpareigojimai: National Natural Science Foundation of China
Experimental study of pure Class G cement hydration up to 150° C and 50 MPa
L Sun, X Pang, H Liu, C Wang, J Yu, P Zhao
Journal of Materials Research and Technology 25, 1463-1482, 2023
Įpareigojimai: National Natural Science Foundation of China
Mechanism of long-term strength retrogression of silica-enriched Portland cement assessed by quantitative X-ray diffraction analysis
J Qin, X Pang, H Li, Z Zhang
Frontiers in Materials 9, 982192, 2022
Įpareigojimai: National Natural Science Foundation of China
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