Cikkek nyilvánosan hozzáférhető megbízással - Lan-Ping QianTovábbi információ
Sehol sem hozzáférhető: 8
Artificial alkali-activated aggregates developed from wastes and by-products: A state-of-the-art review
LP Qian, LY Xu, Y Alrefaei, T Wang, T Ishida, JG Dai
Resources, Conservation and Recycling 177, 105971, 2022
Megbízások: National Natural Science Foundation of China
Experimental study on full-volume fly ash geopolymer mortars: Sintered fly ash versus sand as fine aggregates
LP Qian, YS Wang, Y Alrefaei, JG Dai
Journal of Cleaner Production 263, 121445, 2020
Megbízások: National Natural Science Foundation of China
Enhancing long-term tensile performance of Engineered Cementitious Composites (ECC) using sustainable artificial geopolymer aggregates
LY Xu, BT Huang, Q Lan-Ping, JG Dai
Cement and Concrete Composites 133, 104676, 2022
Megbízások: National Natural Science Foundation of China
Development of artificial geopolymer aggregates with thermal energy storage capacity
Y Fang, MR Ahmad, JC Lao, LP Qian, JG Dai
Cement and Concrete Composites 135, 104834, 2023
Megbízások: National Natural Science Foundation of China, Research Grants Council, Hong Kong
Recycling of red mud and flue gas residues in geopolymer aggregates (GPA) for sustainable concrete
LP Qian, MR Ahmad, JC Lao, JG Dai
Resources, Conservation and Recycling 191, 106893, 2023
Megbízások: National Natural Science Foundation of China, Research Grants Council, Hong Kong
A multiscale study on gel composition of hybrid alkali-activated materials partially utilizing air pollution control residue as an activator
MR Ahmad, LP Qian, Y Fang, A Wang, JG Dai
Cement and Concrete Composites 136, 104856, 2023
Megbízások: National Natural Science Foundation of China, Research Grants Council, Hong Kong
Experimental and computational assessments of progressive collapse resistance of reinforced concrete planar frames subjected to penultimate column removal scenario
L Qian, Y Li, M Diao, H Guan, X Lu
Journal of Performance of Constructed Facilities 34 (3), 04020019, 2020
Megbízások: Australian Research Council, National Natural Science Foundation of China
Experimental Study of the Horizontal Progressive Collapse of RC Frames
M Diao, L Qian, Y Li, H Guan, X Lu, Y Yang
Structures Conference 2018, 311-318, 2018
Megbízások: National Natural Science Foundation of China
Valahol hozzáférhető: 6
Development of artificial one-part geopolymer lightweight aggregates by crushing technique
LY Xu, LP Qian, BT Huang, JG Dai
Journal of Cleaner Production 315, 128200, 2021
Megbízások: National Natural Science Foundation of China
Probability-based progressive collapse-resistant assessment for reinforced concrete frame structures
Y Li, X Lu, H Guan, P Ren, L Qian
Advances in Structural Engineering 19 (11), 1723-1735, 2016
Megbízások: Australian Research Council, National Natural Science Foundation of China
Pelletization and properties of artificial lightweight geopolymer aggregates (GPA): One-part vs. two-part geopolymer techniques
LP Qian, Ling-YuXu, BT Huang, JG Dai
Journal of Cleaner Production, 133933, 2022
Megbízások: National Natural Science Foundation of China, Research Grants Council, Hong Kong
Foaming processes and properties of geopolymer foam concrete: Effect of the activator
YL Liu, C Liu, LP Qian, AG Wang, DS Sun, D Guo
Construction and Building Materials 391, 131830, 2023
Megbízások: National Natural Science Foundation of China
Concrete made with high-strength artificial geopolymer aggregates: Mechanical properties and failure mechanisms
LP Qian, BT Huang, LY Xu, JG Dai
Construction and Building Materials 367, 130318, 2023
Megbízások: National Natural Science Foundation of China
Numerical analysis for the fire-induced progressive collapse of a RC frame structure
M Diao, L Qian, Y Li, X Lu, H Guan
World Congr Adv Struct Eng Mech, 25-29, 2015
Megbízások: Australian Research Council, National Natural Science Foundation of China
A publikációs és a finanszírozási adatokat számítógépes program határozza meg, automatikusan.