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Online since: November 2010
Authors: Tian Duo Li, Peng Fei Yang, Jun Ying Li
Characterization on Propylene Oxide Polymerization with in-situ FT-IR
Peng Fei Yang1,2,a, Jun Ying Li2,b, Tian Duo Li2,c
1 Instrumental Analysis Centre, Shandong Institute of Light Industry, Jinan 250353, China
2 Shandong Provincial Key Laboratory of Fine Chemicals, Shandong Institute of Light Industry, Jinan 250353, China
aypfyyh@gmail.com; bxiaozhexie@163.com; clitianduo@163.com
Keywords: propylene oxide; polymerization; chain-transfer; in-situ FT-IR
Abstract.
Yang, H.
Yang, J.
Yang, H.
Yang, J.
Online since: August 2011
Authors: Yong Zhong Wu, Xue Zhao, Xiao Peng Hao
In Yang’s experiment, Au nanorods exhibited absorption over the whole visible region, consisting of at least two broad absorption bands [23].
Tian, N.
Tian, Synthesis of Zn nanofibres through simple thermal vapour-phase deposition, J.
Yang, H.B.
Tian, H.Q.
Tian, N.
Tian, Synthesis of Zn nanofibres through simple thermal vapour-phase deposition, J.
Yang, H.B.
Tian, H.Q.
Online since: October 2014
Authors: Dong Bok Lee
Tian et al. studied the isothermal oxidation behavior of Cr2AlC at 1100 and 1250 oC for 20 h [5].
Yang et al. proposed that the growth of the Al2O3 layer was governed by the outward diffusion of Al3+ ions along the pre-existing Al2O3 grain boundaries [11].
Tian, P.
Tian, P.
Yang, Y.
Yang et al. proposed that the growth of the Al2O3 layer was governed by the outward diffusion of Al3+ ions along the pre-existing Al2O3 grain boundaries [11].
Tian, P.
Tian, P.
Yang, Y.
Online since: September 2014
Authors: Bai Wen Zeng, Ming Hua Tang, Sheng Shui Wang, Zi Ping Wang, Ding Lin Xu
References
[1] Yang J J, Strukov D B and Stewart D R 2013 Nat.
[2] Yang Y C, Pan F, Liu Q, Liu M and Zeng F 2009 Nano Lett. 9 1636
[6] Tang M H, Zeng Z Q, Li J C, Wang Z P, Xu X L, Wang G Y, Zhang L B, Yang S B, Xiao Y G, Jiang B 2011 Solid-State Electron. 63 100104
Liao M, Wu H C, Tian X X, Xu D S, Cross G L W, Duesberg G S, Shvets I V and Yu D P 2011 Nano Lett. 11 4601.
[2] Yang Y C, Pan F, Liu Q, Liu M and Zeng F 2009 Nano Lett. 9 1636
[6] Tang M H, Zeng Z Q, Li J C, Wang Z P, Xu X L, Wang G Y, Zhang L B, Yang S B, Xiao Y G, Jiang B 2011 Solid-State Electron. 63 100104
Liao M, Wu H C, Tian X X, Xu D S, Cross G L W, Duesberg G S, Shvets I V and Yu D P 2011 Nano Lett. 11 4601.
Online since: October 2008
Authors: Jian Ping Gao, Wei Chen
Villaverde[7] and Tian Zhichang[8]
had also proposed similar idea that was to use part of the structure such as roof or thermal insulating
layer as the mass block of TMD, and use laminated rubber bearings to replace the spring damper in
TMD to reduce the seismic response of building.
(In Chinese) [4] Han Shengzhang, Qiu Kuining and Yang Jian-Jiang.
[8] Tian Zhichang and Qian Jiaru.Roof Isolation System-A Vibration Absorber for Buildings.
(In Chinese) [11] Zhang Zhongxian,Yang Shu and Wen Yinping.
(In Chinese) [4] Han Shengzhang, Qiu Kuining and Yang Jian-Jiang.
[8] Tian Zhichang and Qian Jiaru.Roof Isolation System-A Vibration Absorber for Buildings.
(In Chinese) [11] Zhang Zhongxian,Yang Shu and Wen Yinping.
Online since: August 2013
Authors: Zhong Guo Zhao, Pei Ling Zhao, Xiao Long Wu, Chun Lei Xu
Ma Wu Shan normal faults, 3.Qing Gang syncline, 4.Tian Xing anticline, 5.Huo Shi Ya overthrust fault, 6.
Shao Ji Tan thrust fault, 15.Gong Tan syncline, 16.Tian Guan anticline, 17.
You Yang syncline, 22.Ji Gong Ling anticline.
Yang, et al.: The Principle of Rock Slope Stability Analysis (China Water Conservancy and Hydropower Press, China 2005)
Shao Ji Tan thrust fault, 15.Gong Tan syncline, 16.Tian Guan anticline, 17.
You Yang syncline, 22.Ji Gong Ling anticline.
Yang, et al.: The Principle of Rock Slope Stability Analysis (China Water Conservancy and Hydropower Press, China 2005)
Online since: September 2011
Authors: Wen Jie Zou, Jian Cheng Weng, Jian Rong, Wei Zhou
In traffic control subarea division field, Yagoda[1] established the subdivision method of control areas based on by analyzing the traffic flow and road length; James and Paul[2], proposed the statistical designation method of traffic control subareas through the coordination control study of traffic flow in intersections; Zong Tian et al[3] put forwarded a system partition approach to divide the traffic control area dynamically by analyzing the traffic control subarea bandwidth.
In China, the experts also carried out some studies, such as: Yu Quan[4] used random alliance strategies to achieve the dynamic division of urban traffic control area; Shi Jianjun[5] divided the traffic control area dynamically through the v/c, signal cycle and spacing analysis of intersection; Yang Bo[6] established the improvement of the method about the partition of traffic zone by the nature analysis of land use; Li Xiaodan[7] used the intersection as the basic study object, achieve the dynamic division of traffic control area by analyzing the correlation of the adjacent intersection.
[3] Zong Tian, Thomas Urbanik.
Road Traffic & Safety, 2007, 7(1):27-29. ( In Chinese) [6] Yang Bo, Liu Hai-zhou.
In China, the experts also carried out some studies, such as: Yu Quan[4] used random alliance strategies to achieve the dynamic division of urban traffic control area; Shi Jianjun[5] divided the traffic control area dynamically through the v/c, signal cycle and spacing analysis of intersection; Yang Bo[6] established the improvement of the method about the partition of traffic zone by the nature analysis of land use; Li Xiaodan[7] used the intersection as the basic study object, achieve the dynamic division of traffic control area by analyzing the correlation of the adjacent intersection.
[3] Zong Tian, Thomas Urbanik.
Road Traffic & Safety, 2007, 7(1):27-29. ( In Chinese) [6] Yang Bo, Liu Hai-zhou.