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Online since: November 2016
Authors: Georg Götz, Maximilian Rohrhirsch, Christian Gebbe, Christoph Richter, Gunther Reinhart
In the future, the energy and material consumption of packaging machine will also be integrated into the model in order to model the effects of energy and material efficiency on the NPV.
Nambiar, Trends in food packaging and manufacturing systems and technology, Trends in Food Science & Technology 21 (2010), pp. 117-128
Reinhart, Improving Resource and Energy Efficiency of Packaging Machines: Contribution of an Increasing Format Flexibility, Applied Mechanics and Materials, Vol. 805 (2015), pp. 257-264
International Journal of Computer Integrated Manufacturing, Vol. 22 No. 5 (2009), pp. 428-442
Krunke, Life cycle oriented evaluation of flexibility in investment decisions for automated assembly systems, CIRP Journal of Manufacturing Science and Technology, Vol. 6 (2013), pp. 274-280
Nambiar, Trends in food packaging and manufacturing systems and technology, Trends in Food Science & Technology 21 (2010), pp. 117-128
Reinhart, Improving Resource and Energy Efficiency of Packaging Machines: Contribution of an Increasing Format Flexibility, Applied Mechanics and Materials, Vol. 805 (2015), pp. 257-264
International Journal of Computer Integrated Manufacturing, Vol. 22 No. 5 (2009), pp. 428-442
Krunke, Life cycle oriented evaluation of flexibility in investment decisions for automated assembly systems, CIRP Journal of Manufacturing Science and Technology, Vol. 6 (2013), pp. 274-280
Online since: January 2013
Authors: Kang Bi Luo, Hu Ping Li
Austria Linz Chemical Company built the first factory of the sulfuric acid and cement production taking the phosphogypsum as raw material in 1969 [4].
The sulfuric acid process producing directly by the reaction coupling method is mainly that the calcium sulfate and related materials dissociate the sulfate radical ion in the liquid phase, couple with the separation process at the same time, let the sulfate timely separate and combine with the hydrogen ions, and form the sulfuric acid.
Guizhou Chemical Industry Vol. 35 (2010), p. 48-50 (In Chinese) [9] Xiushan YANG, Jingfeng LIU, Jia-xin YU, et al: Modern Chemical Industry Vol. 31(2010), p. 8-12 (In Chinese) [10] Luojun JI, Qiang CHEN: Sulphur Phosphorus & Bulk Materials Handling Related Engineering Vol. 16 (2006), p. 5-9 (In Chinese) [11] Linshu ZHENG, Ying LAN, Xuefeng XU, et al: Chemical Production and Technology Vol. 9 (2002), p. 43-44 (In Chinese) [12] Chunhong LI, Gang QIN, Jichuan HUO: Sichuan Building Materials Vol. 37 (2011), p. 1-3 (In Chinese) [13]Gang ZHANG, Guixing CHEN, Zhengjun HE: Inorganic Chemicals Industry Vol. 41 (2009), p. 54-56 (In Chinese) [14] Hongjian LI, Yahui ZHUANG, P.R.China Patent 1,203,833A. (1998) [15] Likui JIANG, Tianrong LI: Phosphate & Compound Fertilizer Vol. 25 (2010), p. 17-19 (In Chinese) [16] Shengnan LI, Yi MEI, Yuanhua DAI: Inorganic Chemicals Industry Vol. 43 (2011), p. 10-13 (In Chinese) [17] Yi MEI, Dongcheng DUAN, Yabin YANG, et al: Inorganic Chemicals Industry Vol
. 43 (2011), p. 1-5 (In Chinese) [18] Qing HAN, Kangbi LUO, Huping LI, et al: Science & Technology in Chemical Industry Vol. 20 (2012), p. 53-58 (In Chinese) [19] Daijun LIU, Xinlong WANG, Wenwei JIANG, et al: Phosphate & Compound Fertilizer Vol. 24 (2009), p. 11-13 (In Chinese) [20] Xingfa ZHANG, Jianjun ZHAO, Xiangying CHEN, et al: Journal of Hefei University of Tecinology Vol. 25 (2002), p. 419-422 (In Chinese) [21]Dongsheng HE, Zeqiang ZHANG, Hanquan ZHANG, et al: Journal of Wuhan Institute of Technology Vol. 33 (2011), p. 12-14 (In Chinese) [22]Yue LI, Xiaoxia ZHENG, Yunfang WANG, et al: Applied Chemical Industry Vol. 38 (2009), p. 1774-1776, 1779 (In Chinese) [23]Jia LIU, Tian XIE, Shuyi QIU, et al: Inorganic Chemicals Industry Vol. 41 (2009), p. 42-45 (In Chinese) [24] Wanfu ZHANG: Phosphate & Compound Fertilizer Vol. 25 (2010), p. 66-67 (In Chinese) [25] Xingfa ZHANG, Guangchao QIN, Zhangwen HU, et al: Journal of Hefei University of Technology Vol. 27 (2004), p. 928-930
(In Chinese) [26] Fangyi LU, Xiaohong LIU, Risheng Sun, et al: Sulphuric Acid Industry Vol. 12 (2000), p. 47-49 (In Chinese) [27] Yueyuan HUANG, Fenyan ZHANG, Tiancheng ZHAO, et al: Journal of Northwest University (Natural Science Edition) Vol. 31 (2001), p. 399-402 (In Chinese) [28] Zhanneng DONG, Lai DENG, Ping LUO, et al: Science & Technology in Chemical Industry Vol. 19 (2011), p. 34-36 (In Chinese) [29] Yishun CUI: Industrial Minerals & Processing Vol. 26 (2010), p. 8-10 (In Chinese)
The sulfuric acid process producing directly by the reaction coupling method is mainly that the calcium sulfate and related materials dissociate the sulfate radical ion in the liquid phase, couple with the separation process at the same time, let the sulfate timely separate and combine with the hydrogen ions, and form the sulfuric acid.
Guizhou Chemical Industry Vol. 35 (2010), p. 48-50 (In Chinese) [9] Xiushan YANG, Jingfeng LIU, Jia-xin YU, et al: Modern Chemical Industry Vol. 31(2010), p. 8-12 (In Chinese) [10] Luojun JI, Qiang CHEN: Sulphur Phosphorus & Bulk Materials Handling Related Engineering Vol. 16 (2006), p. 5-9 (In Chinese) [11] Linshu ZHENG, Ying LAN, Xuefeng XU, et al: Chemical Production and Technology Vol. 9 (2002), p. 43-44 (In Chinese) [12] Chunhong LI, Gang QIN, Jichuan HUO: Sichuan Building Materials Vol. 37 (2011), p. 1-3 (In Chinese) [13]Gang ZHANG, Guixing CHEN, Zhengjun HE: Inorganic Chemicals Industry Vol. 41 (2009), p. 54-56 (In Chinese) [14] Hongjian LI, Yahui ZHUANG, P.R.China Patent 1,203,833A. (1998) [15] Likui JIANG, Tianrong LI: Phosphate & Compound Fertilizer Vol. 25 (2010), p. 17-19 (In Chinese) [16] Shengnan LI, Yi MEI, Yuanhua DAI: Inorganic Chemicals Industry Vol. 43 (2011), p. 10-13 (In Chinese) [17] Yi MEI, Dongcheng DUAN, Yabin YANG, et al: Inorganic Chemicals Industry Vol
. 43 (2011), p. 1-5 (In Chinese) [18] Qing HAN, Kangbi LUO, Huping LI, et al: Science & Technology in Chemical Industry Vol. 20 (2012), p. 53-58 (In Chinese) [19] Daijun LIU, Xinlong WANG, Wenwei JIANG, et al: Phosphate & Compound Fertilizer Vol. 24 (2009), p. 11-13 (In Chinese) [20] Xingfa ZHANG, Jianjun ZHAO, Xiangying CHEN, et al: Journal of Hefei University of Tecinology Vol. 25 (2002), p. 419-422 (In Chinese) [21]Dongsheng HE, Zeqiang ZHANG, Hanquan ZHANG, et al: Journal of Wuhan Institute of Technology Vol. 33 (2011), p. 12-14 (In Chinese) [22]Yue LI, Xiaoxia ZHENG, Yunfang WANG, et al: Applied Chemical Industry Vol. 38 (2009), p. 1774-1776, 1779 (In Chinese) [23]Jia LIU, Tian XIE, Shuyi QIU, et al: Inorganic Chemicals Industry Vol. 41 (2009), p. 42-45 (In Chinese) [24] Wanfu ZHANG: Phosphate & Compound Fertilizer Vol. 25 (2010), p. 66-67 (In Chinese) [25] Xingfa ZHANG, Guangchao QIN, Zhangwen HU, et al: Journal of Hefei University of Technology Vol. 27 (2004), p. 928-930
(In Chinese) [26] Fangyi LU, Xiaohong LIU, Risheng Sun, et al: Sulphuric Acid Industry Vol. 12 (2000), p. 47-49 (In Chinese) [27] Yueyuan HUANG, Fenyan ZHANG, Tiancheng ZHAO, et al: Journal of Northwest University (Natural Science Edition) Vol. 31 (2001), p. 399-402 (In Chinese) [28] Zhanneng DONG, Lai DENG, Ping LUO, et al: Science & Technology in Chemical Industry Vol. 19 (2011), p. 34-36 (In Chinese) [29] Yishun CUI: Industrial Minerals & Processing Vol. 26 (2010), p. 8-10 (In Chinese)
Online since: February 2012
Authors: Jian Hua Huang, Hong Lu Xie, Lin Lu Zheng, Yan Lin Wu, Wei Xuan Zhu
Experiment
Materials.
The molar ratio of the materials was 1:1.
Low viscosity is conducive to the transfer of materials, and promoting the liquefaction of solid polymeric materials.
The property of viscosity was beneficial to the transfer of materials in the ionic liquid.
Science, 2002, 297(2): 799-803
The molar ratio of the materials was 1:1.
Low viscosity is conducive to the transfer of materials, and promoting the liquefaction of solid polymeric materials.
The property of viscosity was beneficial to the transfer of materials in the ionic liquid.
Science, 2002, 297(2): 799-803
Online since: June 2012
Authors: Zeng Liang Gao, Xiao Gui Wang, Zhen Yu Ding
The 16MnR steel is one of the most widely used pressure vessel materials in China.
Acknowledgments The research work was supported by the National Natural Science Foundation of China (51175469, 50975260) and the Natural Science Foundation of Zhejiang Province of China (Z1091027).
International Journal of Plasticity 21 (2005) 1720-1740
International Journal of Fatigue. 27 (2005) 1319-1327
Journal of Engineering Materials and Technology, 126 (2004) 77-86
Acknowledgments The research work was supported by the National Natural Science Foundation of China (51175469, 50975260) and the Natural Science Foundation of Zhejiang Province of China (Z1091027).
International Journal of Plasticity 21 (2005) 1720-1740
International Journal of Fatigue. 27 (2005) 1319-1327
Journal of Engineering Materials and Technology, 126 (2004) 77-86
Online since: January 2016
Authors: Suzana Ali Ernie, Syazana Ahmad Zubir, Sahrim Ahmad
Plant oils are promising raw materials as they are readily available, abundant and low in cost [1].
Materials and Methodology Materials.
Journal of Applied Polymer Science 112:736-743
Biomedical Materials 8 (3). doi:10.1088/1748-6041/8/3/035003 [6] Miao S, Zhang S, Su Z, Wang P (2013).
Journal of Polymer Science, Part B: Polymer Physics 40 (7):670-677 [9] Ray SS, Okamoto M (2003).
Materials and Methodology Materials.
Journal of Applied Polymer Science 112:736-743
Biomedical Materials 8 (3). doi:10.1088/1748-6041/8/3/035003 [6] Miao S, Zhang S, Su Z, Wang P (2013).
Journal of Polymer Science, Part B: Polymer Physics 40 (7):670-677 [9] Ray SS, Okamoto M (2003).
Online since: July 2011
Authors: Yu Feng Zheng, Ai Lian Liu, Jia Wen Xu, Li Gao
Effect of Y addition on mechanical properties of Ni50Mn28Ga22 magnetic shape memory alloy
Ailian Liu1,2,a, Jiawen Xu2,b, Li Gao3,c, Yufeng Zheng1,d
1 Center for Biomedical Materials and Engineering, Harbin Engineering University, Harbin 150001, China
2 School of Materials Science and Engineering, P.O.
Cesari: Acta Materials Vol. 48 (2000), p. 3027 [4] S.J.
Wang: Journal of Rare Earths Vol. 22(2004) , p.567-570 [8] L.
Wang: Journal of Rare Earths Vol. 22 (2004), p. 632 [11] L.
Gao: Scripta Materials Vol. 57 (2007), p. 659-662 [13] L.
Cesari: Acta Materials Vol. 48 (2000), p. 3027 [4] S.J.
Wang: Journal of Rare Earths Vol. 22(2004) , p.567-570 [8] L.
Wang: Journal of Rare Earths Vol. 22 (2004), p. 632 [11] L.
Gao: Scripta Materials Vol. 57 (2007), p. 659-662 [13] L.
Online since: June 2015
Authors: E.V.V. Ramanamurthy
Cawley et al [2], have investigated the usage of measured natural frequencies for the quality production of composite materials.
Kyriazoglou et al. [5], have presented and explained that the damping parameter in composite materials is very sensitive for the identification of small damages or cracks.
The properties of composite material were represented in table 1.
Journal of Sound and Vibration, (1999), Vol. 226(5), pp.1029-1042
[11] Ramanamurthy.E.V.V., et al., “vibration analysis on a composite beam to identify damage and damage severity”, International Journal of Engineering Science and Technology (IJEST), 2011, ISSN : 0975-5462 Vol. 3 No.7, p.p 5865-5888.
Kyriazoglou et al. [5], have presented and explained that the damping parameter in composite materials is very sensitive for the identification of small damages or cracks.
The properties of composite material were represented in table 1.
Journal of Sound and Vibration, (1999), Vol. 226(5), pp.1029-1042
[11] Ramanamurthy.E.V.V., et al., “vibration analysis on a composite beam to identify damage and damage severity”, International Journal of Engineering Science and Technology (IJEST), 2011, ISSN : 0975-5462 Vol. 3 No.7, p.p 5865-5888.
Online since: December 2010
Authors: Zhen Fu Chen, Wei Liu
Introduction
Self-compacting concrete (SCC) is a new kind of high performance concrete materials, which can be close-grained molding in its own weight without vibration.
Experimental Materials The main raw materials used for experiment: Cement (C) was selected by P·O 32.5 level, river sands was used as fine aggregates(S), 5~20mm pebbles (G) as coarse aggregates, Xiang-tang Ⅱ level gray as fly ash admixture (FA), efficient polycarboxylate additive was used as admixture (SP).
Journal of Fuzhou University (Natural Science) Vol. 32 (2004), p. 339-343
MsD Hunan University of Science and Technology, China (2009)
Journal of Zhejiang University (Engineering Science) Vol. 43 (2009), p. 366-369
Experimental Materials The main raw materials used for experiment: Cement (C) was selected by P·O 32.5 level, river sands was used as fine aggregates(S), 5~20mm pebbles (G) as coarse aggregates, Xiang-tang Ⅱ level gray as fly ash admixture (FA), efficient polycarboxylate additive was used as admixture (SP).
Journal of Fuzhou University (Natural Science) Vol. 32 (2004), p. 339-343
MsD Hunan University of Science and Technology, China (2009)
Journal of Zhejiang University (Engineering Science) Vol. 43 (2009), p. 366-369
Online since: April 2023
Authors: Jutika Devi, Neelotpal Sharma, Kandarpa Kumar Saikia, Pranayee Datta, Himadri Duwarah
Materials and Methods
2.1.
XRD peaks for each sample is found to be broader compared to those of bulk materials, which indicates the formation of nanoparticle.
Indian Journal of Physics.
April 2018 [10] Devi J, Datta P ,A Study on Dielectric Properties of Cadmium Sulfide–Zinc Sulfide CoreShell Nanocomposites for Application as Nanoelectronic Filter Component in the Microwave Domain, Journal of Electronic Materials, 47(11),2018
[12] Sutheertha S Nair & M Abdul Khadar, Dc conductivity of consolidated nanoparticles of zinc sulfide, Science and Technology of Advanced Materials, 2008, 9:3, DOI: 10.1088/1468-6996/9/3/035010 [13] Wei Bai, K.S.
XRD peaks for each sample is found to be broader compared to those of bulk materials, which indicates the formation of nanoparticle.
Indian Journal of Physics.
April 2018 [10] Devi J, Datta P ,A Study on Dielectric Properties of Cadmium Sulfide–Zinc Sulfide CoreShell Nanocomposites for Application as Nanoelectronic Filter Component in the Microwave Domain, Journal of Electronic Materials, 47(11),2018
[12] Sutheertha S Nair & M Abdul Khadar, Dc conductivity of consolidated nanoparticles of zinc sulfide, Science and Technology of Advanced Materials, 2008, 9:3, DOI: 10.1088/1468-6996/9/3/035010 [13] Wei Bai, K.S.
Online since: June 2012
Authors: Ya Tong Zhang, Ying Li, Xiong Wei Qu, Li Li
A New Type of Compatilizer and Its Application in Polystyrene Ether/Nylon 66 Alloy
ZHANG Ya-tong1,2, LI Ying3*, LI Li2, QU Xiong-wei1
1 School of Material Science and Engineering, Hebei University of Technology, Tianjin,China
2College of Science, Hebei University of Science and Technology, Shijiazhuang, Hebei,China
3College of Chemical Engineering, Shijiazhuang University, Shijiazhuang, Hebei,China
a)zhangyatong68@126.com;b)liying2002d@126.com;
c)liyiru1974@163.com;d)xwqu@hbut.edu.cn
*Correspondent Author
Keywords: boric acid ester; compatibilizer; Plastic alloy
Abstract: This paper studies the influence of Double (L- diethyl tartrate) boric acid ester (compatibilizer B) on the compatibility between PPO and PA66.
The comprehensive properties of PPO/PA66 alloy material are excellent. 2 Experiment 2.1 Main Raw Materials PA66: Pingdingshan Shenma engineering plastic Co.
Investigation of the phase morphology development and stabilization [ J ] ,Polymer , 1998 ,39 (21) :4985 [2] Chu Peter P, Huang J Iehming,Wu Hewder ,et al: Molecular dynamic and mechanical properties correlations of PA6/ PPO blends compatilized with SMA , Journal of Applied Polymer Science, Part B : Polymer Physics, 1999 ,37 (11) :1155
Journal of Applied Polymer Science , 1993 ,48 (3) :1 051 - 1 060
Journal of Applied Polymer Science, 1999 ,73 (6) :889 - 898.
The comprehensive properties of PPO/PA66 alloy material are excellent. 2 Experiment 2.1 Main Raw Materials PA66: Pingdingshan Shenma engineering plastic Co.
Investigation of the phase morphology development and stabilization [ J ] ,Polymer , 1998 ,39 (21) :4985 [2] Chu Peter P, Huang J Iehming,Wu Hewder ,et al: Molecular dynamic and mechanical properties correlations of PA6/ PPO blends compatilized with SMA , Journal of Applied Polymer Science, Part B : Polymer Physics, 1999 ,37 (11) :1155
Journal of Applied Polymer Science , 1993 ,48 (3) :1 051 - 1 060
Journal of Applied Polymer Science, 1999 ,73 (6) :889 - 898.