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Study on the Properties of Wheat Resistant Starch HUANG Tian-li1,a，WEN Yan-mei2,b , LIU Shu-xing3,c 1Jiaozuo Teachers College, Jiaozuo 454002, China； 2College of Life Science and Engineering, Shaanxi University of Science & Technology, Xi’an 710021, China Key words：Wheat starch; Resistant starch; Properties Abstract.
Materials and methods Materials.Wheat starch was supplied by Shaanxi DahePowder Industry Co., Ltd; Pepsin P-7000(800-2500U/g) and Pullulanase E2412-50mL (1100-1300U/mL) were both purchased from Sigma Chemical Company (St.
European Journal of Clinical Nutrition, 1992, 46(Supp2): S1-148
[5]Huanxin Zhang,Yaoqi Tian,Yuxiang Bai et.al.Structure and properties of maize starch processed with a combination of α-amylase and pullulanase.International Journal of Biological Macromolecules,2013,52:38-44
Journal of the Chinese Cereals and Oils Association,2009,24(5)2:58-61.

Materials and methods Materials Simulated Dyestuff Wastewater.
MA: Journal of Zhejiang Normal University: Natural Science Edition, Vol 18(1995), p. 72-73.
YIN: Journal of Shenyang Architectural and Civil Engineering Institute: Natural Science Edition, Vol 11(1995), p. 350-353.
JIANG: Journal of Chengde Petroleum College, Vol 4 (2002), p. 9-11.

Introduction Zinc-based alloys have high strength and hardness, damping, good wear resistance, friction coefficient, friction and low temperature rise, low-cost materials and manufacturing, they are extensively applied in many fields, e.g.
Acknowledgements This work was financially supported by Foundation for University Youth Key Teacher by the Ministry of Education of He’ Nan（09003046）and Program for Science＆Technology Innovation Talents in Universities of Henan Province (2010HASTIT032).
[2] William Hoke and Calvin Amenhener: Welding Journal. 10(1993), p. 65
[3] Moon K Y, Wang C P and Chung C H: Journal of Electronic Materials. 34 (7) (2005), p. 994 - 996
[5] Hui Diao, Chunqing Wang and Zhenqing Zhao: The Chinese Journal of Nonferrous Metals. 17(3) (2007), p. 410-416

Determination and distribution of heavy metals in the municipal waste incinerator slags from Guangdong Province Jingyong Liu1, a, Shuiyu Sun1,b, Rongxue Zhang2,c,Sheng Zhong1,d 1Faculty of Environmental Science and Engineering, Guangdong University of Technology, Guangdong Guangzhou, 510006, China 2Chao Zhou Chuang Jia Electronic limited liability company, Chao zhou, 515600, China awww053991@126.com, bCorresponding author: sysun@gdut.edu.cn, crxchang@126.com,dgdutzs@sohu.com Keywords: Municipal solid waste, Combustion ash, Atomic absorption spectrophotometer(AAS), heavy metals Abstract.
Materials and Methods Sample collecting and prtreatment.
Acknowledgment The authors acknowledge the financial support by supported by Key Specific Program for Science and Technology of Guangdong Province（2010A080804002）.
Eighmy: Journal of Hazardous Materials, Vol.47(1996),p.43 [3]Lin Feng: Environmental protection, Vol. 10(1999),p.13 [4]A.Tessier, P.G.C.Campbell and M.Bission: Anal.
Liu: Journal of South China Agricultural University, Vol. 17(1996),p.58(In Chinese) [6]Kuen-sheng Wang,Kung-yuh Chiang,Chin-chang: Chemosphere,Vol,38(1999),p.1833 [7]M.Y.Wey, C.Y.Chao, M.C Wei: Journals Air and Waste Management Association, Vol. 52(2002),p.198 [8]J.T.

Experimental Procedures Raw Materials and Mix Proportion.
(3) Erosion 1 d under artificial-climates environment is equivalent to the corrosion of 10.3 d under field expose condition Conclusions Acknowledgements It is a project supported by the Science and Technology Plan Project of the Ministry of Water Resources of P.
China (200901065) and the National Natural Science Foundation of China (50879079).
References [1] Dita Vorechovska, Bretislav Teply, Markéta Chroma: Journal of Performance of Constructed Facilities.
Vol. 29 (1999), p. 487-495 [10] Hongfa Yu, Wei Sun, Haiyan Ma, Journal of Building Materials.

Materials and Methods Sediment samples High arsenic aquifer sediment samples were collected at the depth interval of 18.3～18.5m in a 50-m deep borehole (39°.30'N，112°.55'E), at Shanyin county, Datong basin and 15.7～16.0m (30°09'N, 113°41'E), at Xiantao city , Jianghan plain, respectively.
Earth Science Frontiers, 2007, 14(2): 225-235 (in Chinese) [4]Xin He, Teng Ma, Yanxin Wang, et al.
Journal of Arid Land Resources and Environment, 2010, 24(2): 192-194 (in Chinese) [6]Dongmei Yu, Xuehua Wu, Xianghong Cui.
Journal of Agricultural Sciences, 2011, 32(4): 45-47 (in Chinese) [7]K L Lu, C W Liu, S W Wang, et al.
Journal of Hazardous Materials, 2011, 185(2-3): 1458–1466 [8] MY Duan， ZM Xie， YX Wang， XJ Xie (2009) Microcosm studies on iron and arsenic mobilization from aquifer sediments under different conditions of microbial activity and carbon source.

Experimental study on conduction heating of ultra-high strength boron steel Liang Weikang1, Zhou Minglin1, Liu Huiqiang1, * Zhang Yisheng1 State Key Laboratory of Material Processing and Die & Mould Technology, Huazhong University of Science and Technology, Wuhan 430074, China * Corresponding author: zhangys@mail.hust.edu.cn Keywords: Conduction heating; Average temperature rising rate; Uniform temperature region; Energy efficiency Abstract.
Acknowledgements This work was financially supported by the National Natural Science Foundation of China (51275185).
CIRP-Journal of Manufacturing. 2011 (60): 299–302
Maeno, et al: CIRP Journal of Manufacturing.2012 (61): 255–258
Journal of Chongqing University. 2011 (34): 67-72.In chinese.

Study on the Heat-press Bonding Optimum Technics of Stitchless Apparel Jiefang Tang1,a, Lijun Wang 1,b, Fengyuan Zou12,c , Hongyi Sou3,d 1Zhejiang Sci-Tech University, Hangzhou, 310018, China 2 key laboratory of advanced textile materials and manufacturing technology of ministry of education, Zhejiang Sci- Tech University, Hangzhou, 310018, China 3 Zhejiang province new textile research & development emphasised laboratory atjf_999@hotmail.com, bwanglijunhz@126.com, czfy166@zist.edu.cn, d619086957@qq.com Keywords: Stitchless Apparel, Water Proof and Breathable Fabric, Heat-press Bonding, Pressing Technology.
Experiment Experiment Material.
The material and the adhesive specifications are shown at tab.1 and table 2.
Acknowledgment This work is supported by Project (2007C4023) of Zhejiang Provincial Science & Technology Department.
[4] Guangyao Zhu, Saifang Xu: submitted to Journal of Donghua University (2002) [5] Guanluo Yuan, Huaizhu Zhang, Yingzi Shi: Journal of Silk (2000), p.26-30 [6] Zhiqin Wan: Journal of Northwest Institute of Textile Science and Technology (1998), p. 223-228 [7] Rong Chen, in: Influnce Study on garment properties of Fusing Clothing Fabric with Fusible Interlining (2004)

Materials and methods The following steps were taken during this study: (1)The 10g natural sepiolites were added into 100ml 1mol/l H2SO4, HCl and HNO3, respectively.
Majdan: Journal of Food Engineering, 91:423-427(2009)
[6]Deniz Bingol, Nalan Tekin, Mahir Alkan, et al.: Applied Clay Science, 50:315-321(2010)
Tabaka, E.Eren, B.Afsin, et al.: Journal of Hazardous Materials, 161:1087-1094(2009)
[8]Yingming Xu, Xuefeng Liang, Guohong Sun, et al.: Environmental Science, 31:1560-1567(2010).

Tekkaya: Microstructure analysis of aluminum extrusion: Prediction of microstructure on AA6060 alloy, Journal of Materials Processing Technology, Volume 201 (2008), pp. 156-162; [3] H.
Blum: Dynamic recovery: sufficient mechanism in the hot deformation of Al (<99.99), Materials Science and Engineering A, Volume 290(2000), pp 95-107; [5] H.J.
McQueen: Geometric dynamic recrystallization in hot torsion of Al-5Mg-0.6Mn (AA5083), Materials Science and Engineering A, Volume 205 (1996), pp. 23-30; [8] M.
Bakhshi-Jooybari: A theoretical and experimental study of friction in metal forming by the use of the forward extrusion process, Journal of Materials Processing Technology, Volume 125-126 (2002), pp. 369-374; [9] M.
Kleiner: The role of friction in the extrusion of AA6060 aluminum alloy, process analysis and monitoring, Journal of Materials Processing Technology, Volume 191 (2007), pp. 288-292 [10] S.