CHEN Tianlei, NIU Mengshi, XIE Sa. “FATTING PILE EFFECT” AND CHANGE LAWS OF COLLAPSIBLE COEFFICIENTS COMPACTED WITH SDS PILES IN SELF-WEIGHT COLLAPSE LOESS FOUNDATION[J]. INDUSTRIAL CONSTRUCTION, 2020, 50(6): 6-10. doi: 10.13204/j.gyjz202006002
Citation:
Li Yan, Liang Xingwen, Liu Zejun. EXPERIMENTAL RESEARCH ON PREPARATION OF ECOLOGICAL CEMENTITIOUS COMPOSITES PVA-ECC[J]. INDUSTRIAL CONSTRUCTION, 2011, 41(4): 98-102. doi: 10.13204/j.gyjz201104021
CHEN Tianlei, NIU Mengshi, XIE Sa. “FATTING PILE EFFECT” AND CHANGE LAWS OF COLLAPSIBLE COEFFICIENTS COMPACTED WITH SDS PILES IN SELF-WEIGHT COLLAPSE LOESS FOUNDATION[J]. INDUSTRIAL CONSTRUCTION, 2020, 50(6): 6-10. doi: 10.13204/j.gyjz202006002
Citation:
Li Yan, Liang Xingwen, Liu Zejun. EXPERIMENTAL RESEARCH ON PREPARATION OF ECOLOGICAL CEMENTITIOUS COMPOSITES PVA-ECC[J]. INDUSTRIAL CONSTRUCTION, 2011, 41(4): 98-102. doi: 10.13204/j.gyjz201104021
PVA-ECC has the properties of high ductility,which ensures the capacity for large energy dissipation,but low strength. By making waste materials,an orthogonal test method is adopted to prepare PVA-ECC with high strength but also meeting a engineering requirement of deformability. This kind of PVA-ECC can be used in high-rise buildings. The results show that the replacement of cement with 45% fly ash and proper amount silica fume can make compressive strength of PVA-ECC be more than 60 MPa,by using fine sand. Fly ash can improve strain - hardening performance of PVA-ECC. Silica fume leads to less ductile behaviour of PVA-ECC.
Bilington A L. Damage-Tolerant Cement-Based Materials for Performance Based Earthquake Engineering Design: Research Needs [G]∥Fracture Mechanics of Concrete Structures. IA - FraMCos,2004:53 - 60.
[2] Fischer G,Li V C. Effect of Matrix Ductility on Deformation Behavior of Steel Reinforced ECC Flexural Members Under Reversed Cyclic Loading Conditions [J]. ACI Structural Journal,2002,99(6) :781 - 790.
[3] Li V C. On the Shear Behavior of ECC [J]. J Adv Cem Based Mater,1994,1(3) :142 - 1491.
[4] Maallej M J. Hight-Velocity Impact Resistance of Hybrid-Fiber ECC [C]∥Proceedings,FraMCos 5. 2004:1051 - 1058.
[5] Wang S,Li V C. Polyvinyl Alcohol Fiber Reinforced Engineered Cementitious Composites: Material Design and Performances [C]∥ Proceedings of Intl Workshop on HPFRCC in Structural Applications. Honolulu,Hawaii,USA. 2005:23 - 26.
[6] Alexander M G,Magee B J. Durability Performance of Concrete Containing Condensed Silica Fume [J]. Cement and Concrete Research,1999(29) :917 - 922.
[7] Martinola G,Baeuml M F,Wittmann F H. Modified ECC by Means of Internal Impregnation [J]. J of Advanced Concrete Technology,2004,12(2) :207 - 212.
[8] Li V C,Lepech M,Wang S,et al. Development of Green ECC for Sustainable Infrastructure Systems [C]∥ Proc. ,Intl Workshop on Sustainable Development and Concrete Technology,Beijing,China: Published by Iowa State Univ. ,2004: 181 - 192.
[9] Song G,Zijl G V. Tailoring ECC for Commercial Application [C]∥ Proceedings of BEFIB,Varenna,Lake Como,Italy. 2004:1391 - 1400.
[10] Li V C,Mishra D K,Wu H C. Matrix Design for Pseudo Strain- Hardening Fiber Reinforced Cementitious Composites [J]. Materials and Structures,1995,28(183) : 586 - 595.
Login
Register
E-alert
DownLoad: