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Online since: August 2013
Authors: Hong Luo, Jie Xue, Bao Liu Zhang
(in Chinese)
[16] Guo Ru, Cao Xiaojing, Yang Xinyu, et al, The strategy of energy-related carbon emission reduction in Shanghai.
(in Chinese) [25]Hu Tao,Tian Chunxiu,Li Liping.
(in Chinese) [26] Tian Chunxiu,Li Liping, Hu Tao,et al, Synergistic effect of climate change and environmental policy [J].
(in Chinese) [29]Yang Hongwei, Quantitive analysis of impacts on China climate change policy from co-benefits of mitigation technologies by applying AIM/LOCAL China model [J].Resources and Environmental Protection2004, 18(21):1-4.
(in Chinese) [25]Hu Tao,Tian Chunxiu,Li Liping.
(in Chinese) [26] Tian Chunxiu,Li Liping, Hu Tao,et al, Synergistic effect of climate change and environmental policy [J].
(in Chinese) [29]Yang Hongwei, Quantitive analysis of impacts on China climate change policy from co-benefits of mitigation technologies by applying AIM/LOCAL China model [J].Resources and Environmental Protection2004, 18(21):1-4.
Online since: February 2024
Authors: Jem Valerie D. Perez, Isaac Jerome C. Dela Cruz, Nathaniel Saporsantos
., Tian, L., Liu, M., Li, Y., Rao, W., Liu, T., & Liao, L. (2021).
ACS Omega, 6(7), 4597–4608. https://doi.org/10.1021/acsomega.0c05091 [9] Zhang, S., Ding, J., & Tian, D. (2022).
T., & Yang, T.
Materials, 10(6). https://doi.org/10.3390/ma10060610 [15] Lu, Yang & Liu, Chaozheng & Mei, Changtong & Sun, Jinsheng & Lee, Juhyeon & Wu, Qinglin & Hubbe, Martin & Li, Mei-Chun. (2022).
ACS Omega, 6(7), 4597–4608. https://doi.org/10.1021/acsomega.0c05091 [9] Zhang, S., Ding, J., & Tian, D. (2022).
T., & Yang, T.
Materials, 10(6). https://doi.org/10.3390/ma10060610 [15] Lu, Yang & Liu, Chaozheng & Mei, Changtong & Sun, Jinsheng & Lee, Juhyeon & Wu, Qinglin & Hubbe, Martin & Li, Mei-Chun. (2022).
Online since: October 2018
Authors: Yu Fan, An Min Liu, Pei Zhi Li, Chong Hao Zhang, Kun Chen, Ke Pu
Yang Yuling et al studyed the influence of laser power and scanning speed on iron based laser nitriding layer, the nitrogen pressure is 0.6 MPa, only the power density is greater than or equal to 7.8 × 105 W·cm-2 and the scanning speed is less than 8.33 mm·s-1 to produce iron nitride [12].
Tian, Y.
Yang, et al., Nitridation of iron by CW-CO2 laser nitriding technologies, Mater.
Tian, A.M.
Tian, Y.
Yang, et al., Nitridation of iron by CW-CO2 laser nitriding technologies, Mater.
Tian, A.M.
Online since: October 2010
Authors: Xiang Jie Yang, Guang Bin Yi, Fen Min Cai, Wen Yi Peng, Tian He
Effects of RE on the Microstructure and Mechanical Properties of electrodeposited copper foil
Tian He1, a, Guangbin Yi2,b , Fenmin Cai 1, c, Wenyi Peng1, d , Xiangjie Yang2,e
1School of Materials Science and Engineering, Nanchang University, Nanchang 330031, China
2School of Mechanical and Electronic Engineering, Nanchang University, Nanchang 330031, China
avchetian@126.com, byiguangbin@ncu.edu.cn, chuahuacaifm@126.com, dwenyi.peng@163.com, eyangxj@ncu.edu.cn
Keywords: Electrodeposited copper foil; RE addition; Microstructure; Mechanical properties
Abstract.
Tian and A.
Tian and A.
Online since: May 2014
Authors: Jian Zhang, Ke Ping Zhou, Hong Wei Deng, Chun Fang Dong, Jie Lin Li, Wei Gang Tian
Experimental Study on Sandstone Freezing-thawing Damage Properties under Condition of Water Chemistry
Deng Hongwei*a, Dong Chunfangb, Li Jielinc, Zhou Kepingd, Tian Weigange, Zhang Jianf
School of Resources and Safety Engineering, Hunan Key Lab of Mineral Resources Exploitation and Hazard Control for Deep Metal Mines, Central South University, Changsha 410083, Hunan, China
adenghw208@126.com,b852748970@qq.com,clijielin@163.com,dkpzhou@263.net
Keywords: Water Chemistry, Rock Mechanics, Freezing and Thawing Cycles, Porosity,Brazilian Splitting Test
Abstract.
Yang and Y.B.
Yang: Chinese Journal of Rock Mechanics and Engineering, Vol. 27 (2008) No.8, p.1688-1694
Yang and Y.B.
Yang: Chinese Journal of Rock Mechanics and Engineering, Vol. 27 (2008) No.8, p.1688-1694
Online since: September 2011
Authors: Yang Hang Shi, Chong Wu, De Hai Yu, Li Dan Yang, Jing Yu Xu
Strategies on Earthquake Prevention and Disaster Mitigation in Rural
Yang-hang SHI, Lidan YANG, Chong WU, Dehai YU, Jingyu XU
College of Civil Engineering, HuaQiao University, Quanzhou, Fujian 362021, China
d.s666@163.com, yanglidan0000@163.com, wuchong20@126.com
Key Words: Rural, Earthquake prevention and disaster mitigation, Collapse mechanism, Potential risks; Strategy for disaster reduction
Abstract.
Tian, J.Y.
Tian, J.Y.
Online since: August 2012
Authors: Guang Jin Wang, Xiang Yun Kong, Tian Jun Liu, Wen Bin Dong
The application of cellular automata in the
dumping site analysis
Guang-jin Wang1, a, Tian-jun Liu 2,b , Wen-bin Dong 2,b , Xiang-yun Kong 1,d
1 Kunming University of Science and Technology, Kunming·China
2 Yunnan Jinyongdao Mining Technology Limited Company, Kunming·China
3 Kunming Coal Design&Research Institute, Kunming·China
a wangguangjin2005@163.com, b420590089@qq.com, c290240715@qq.com,
d kxyun0527@163.com
Keywords: super-high dumping site; particle size grading; cellular automaton; slope stability analysis.
Hou-yang Weng pointed out in studing on scale effect: the difference between scaled test gradation and original graded led to the different gradation and density of specimen adopting different scale method. even if it had the same test conditions, test results would also appear quite different.
References [1] Yang CAO, Jianghua LI, Ronggui YAN, et al.
Hou-yang Weng pointed out in studing on scale effect: the difference between scaled test gradation and original graded led to the different gradation and density of specimen adopting different scale method. even if it had the same test conditions, test results would also appear quite different.
References [1] Yang CAO, Jianghua LI, Ronggui YAN, et al.
Online since: October 2013
Authors: Ling Da Kong, Chun Guang Tian, Ting Han, Ying Xin Guan, Xiao Juan Han
Advanced Control of Boiler Drum Water Level Based on Cloud Model Theories
Lingda Kong 1, a, Chunguang Tian 2 b, Ting Han 1,c, Yingxin Guan 3,d
and Xiaojuan Han 1, e
1 Department of Control and Computer Engineering, North China Electric Power University, Beijing 102206, China
2 Jilin Electric Power Research Institute of Jilin Electric Power Company Limited, Changchun 130021, China
3 Department of Thermal power enterprise, China Resources Power Holding Limited Company, Shenzhen 518010, China
a eason159@126.com, b jlcctiancg@163.com, c hardy889@163.com,d guanyingxin@crp.net.cn.
[3] Peng Daogang, Yang Ping, Yang Yanhua, LIiuYuling.
[3] Peng Daogang, Yang Ping, Yang Yanhua, LIiuYuling.