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PZT ceramic powder has been incorporated into cement material to form composite smart materials in earlier studies and showed promising outcome.
Through a series of MTS compression tests, feasibility of using cement-sand based PZT composite materials in civil engineering is evaluated.
The studies of the applications for the piezoelectric materials in civil engineering have been done as well.
piezoelectric composites, Materials Letters 76 (2012) p208-210 [7] Song G., Sethi V., Li H.
-N., Vibration control of civil structures using piezoceramic smart materials: A review, Engineering Structures, 28 (2006) p 1513-1524

Materials Science Forum. 1068 (2022) 231–238
Journal of Materials Processing Tech.. 299 (2022) 1–15
Materials Science Forum. 1038 (2021) 330–335
Materials Science Forum. 1006 (2020) 47–54
Materials Science Forum. 1038 (2021) 492–499 [37] D.

The mixture which is included waste brick, mortar, ordinary cement and some auxiliary materials can be produced lightweight blocks.
One reason is the research of the construction waste needs the comprehensive knowledge of the engineering, material science, environmental science and chemistry.
Study on the construction waste disassembled and the old materials reuse, Tianjin university degree of master thesis, (2009)
Recycling of Solid waste and the Building of Circular Economical System, Journal of central south university of forestry &technology (social sciences), Nov. 2009, Vol.3 No.6, p.58-62
Review of construction waste reusing, Advanced Materials Industry,2008(4) , p.41-46

Synthesis and Characterization of Novel Sulfonated Aromatic Polyamides for proton exchange membranes Yaping Hu1,a, Guang Li2,b aState Key Laboratory for Modification of Chemical Fibers and Polymer Materials, Shanghai 201620,China bCollege of Material Science and Engineering, Donghua University, Shanghai 201620,China ahuyaping0311@163.com, blig@dhu.edu.cn Keywords: Sulfonated polyamides; PEM; Ion-exchange capacity; Proton conducticity Abstract.
Experiment Materials.
Progress in Polymer Science. 36 (2011), p.813–843
Journal of Polymer Science: Part A: Polymer Chemistry, Vol. 42 (2004), p.3116 –3129
Journal of Membrane Science. 405-106(2012), p.68-78

[2] M M Trexle, N N Thadhani, Progress in Materials Science. 55 (2010) 759–839
[5] Madoka Ohtsuki, Kyoko Nagata, Ryuji Tamura, Shin Takeuchi, Materials Transactions. 46 (2005) 48-53
[6] R Yoshimoto, Y Nogi, R Tamura, S Takeuchi, Materials Science and Engineering A. 449-451 (2007) 260-263
[7] Z Y Suo, Y L Song, B Yu, K Q Qiu, Materials Science and Engineering A. 528 (2011) 2912-2916
[14] Hengdou Wei, Xueding Chen, Lei Hao, Jing Zhang, Rare Metal Materials and Engineering, 35 (2006) 1720-1724

Analysis Material and Grinding parameters.
Sponsored by the National Natural Science Foundation of China (No.10672134, No.50875214).
References: [1]M.J.Balart, A.Bouzina, L.Edwards and M.E.Fitzpatrick, The onset of tensile residual stresses in grinding of hardened steels, Materials Science and Engineering A 367 (2004) 132–142 [2]Mofid Mahdi, Liangchi Zhang, Apply mechanism grinding –V. thermal residual stresses, Int.J.Mach.Tools manufacture.
Chattopadhyay, A study of effects of cry-cooling in grinding, International Journal of Machine Tools and Manufacture 35 (1) (1995) 109–117
Chandrasekar, Simulation of thermal stresses due to grinding, International Journal of Mechanical Sciences 43 (2001) 831-851 [9] D.A.Doman,A.Warkentin,R.Bauer, Finite element modeling approaches in grinding, International Journal of Machine Tools & Manufacture 49 (2009) 109–116 [10] Malkin S.

Neubert: Materials Characterization, 86 (2013), p. 59, doi: 10.1016/j.matchar.2013.09.010
Neubert: International Journal of Materials Research, 103 (2012), p. 814, doi: 10.3139/146.110712
Solberg: Materials Science and Engineering, A 444 (2007), p. 284, doi: 10.1016/j.msea.2006.08.097
Neubert: Materials Science and Engineering, A 548 (2012), p. 27, doi: 10.1016/j.msea.2012.03.063
Karlsson: Journal of Materials Science, 32 (1997), p. 4383, doi: 10.1023/A: 1018680024876

Materials and Methods The subject material on this study was the A319 series aluminium alloy.
Vieregge, “Recent Development in Aluminium Alloys for the Automotive Iindustry,” Materials Science and Engineering A280 (2000) 37–49 [4] E.
DeRiccardis, “Effects of thermal treatments on microstructure and mechanical properties in a thixocast 319 aluminum alloy,” Materials Science and Engineering A284 (2000) 254–260 [5] Guiqing Wang, “Effect of Mg on age hardening and precipitation behavior of an AlSiCuMg cast alloy,” Journal of Materials Science 39 (2004) 2535 – 2537 [6] M.
Doty, “Effect of metallurgical parameters on the hardness and microstructural characterization of as-cast and heat-treated 356 and 319 aluminum alloys,” Materials Science and Engineering A 443 (2007) 185–201 [7] F.H.
Esseltine, “The removal of copper-phase segregation and the subsequent improvement in mechanical properties of cast 319 aluminum alloys by a two-stage solution heat treatment,” Journal of Materials Processing Technology 53 (1995) 385-392 [9] J.L.

Designing ecological material flow Popularly speaking，steel industry producing process is the process of transforming iron ore into steel products，which is “iron raw material—process—steel products”.
Regarding waste gas and waste slag which are usually very cheap or even free as raw material or energy for the power plant and building materials factory producing，enterprises not only reduce the waste disposal cost，but also save the production cost.
(Jilin Province Social Science Fund 2013BS75, 2013BS76, 2014B213, 2014B213) Study of High Energy Consuming Industries Ecological Early Warning Counter measures in Jilin Province Based on Ecological System Theory The Ministry of education Social Science Fund（12YJA630035） ） References [1] Li Suqin，Cang Dajiang，Li Hong.
Industrial ecology at factory level e a conceptual model[J].Journal of Cleaner Production，2012，31：30-39 [4]Chao GU，Sebastien LEVENEUR，Lionel ESTEL，Adnan YASSINE.
The dynamics of industrial symbiosis: a proposal for a conceptual framework based upon a comprehensive literature review[J].Journal of Cleaner Production，2011，19（9/10）：905-911

Drag Reduction Technology with Nanomaterial ShUNP2-10 in Oilfield GU Chunyuan1,a, DI Qinfeng1,b, SHI Liyi2,c, Zhang Jianping2,d, Cheng YiChong1,e 1Shanghai University, Shanghai Institute of Applied Mathematics and Mechanics,Shanghai Key Laboratory of Mechanics in Energy and Environment Engineering, Shanghai 200072, China 2Research Center of Nano Science and Nano Technology, Shanghai University, Shanghai 200072, China awein1989@163.com, bqinfengd@sina.com, csly@163.com, djpzh@163.com, eycCheng@shu.edu.cn Keywords: nanomaterial ShUNP2-10; high hydrophobicity; micro- and nano- structure; drag reduction.
Acknowledgements This work was financially supported by NSFC (51274136 and 50874071),the China Postdoctoral Science Foundation(20090450687) and Innovation Foundation of Shanghai University（10040111004） References [1] Wang Keliang, Liang Shoucheng, Wang Cuicui: Advanced Materials Research, Vol.92(2010),p. 207 [2] JU Binshan, Dai Shugao, Luan Zhian et al: SPE 77938(2002),p. 915 [3] Gu Chunyuan，Di Qinfeng，Fang Haiping: Journal of Hydrodynamics Ser.B,Vol.19(2007),p. 365 [4] DI Qinfeng, GU Chunyuan, SHI Liyi, FANG Haiping: Drilling & Production Technology,Vol.30(2007),p. 91 [5] Lu Guang-zhong, ZHANG Jiang-qiao:.Journal of Functional Materials, Vol.37(2006）,p.1110 [6] CHEN Yi-ming, XIE Kai, ZHAO Da-fang, XIAO Jia-yu: Journal of Functional Materials,Vol.36(2005）,p. 903 [7] Wang li, Wang duo, Zhu gui-ru, Gao Cong-jie: Journal of Functional Materials,Vol.41(2010),p. 822 [8] Yang Jing, Chen Jie-rong: Journal of Materials Engineering,Vol.10(2008).p. 177 [9] Li Xiao-bing, Liu Ying: Journal
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