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Online since: February 2012
Authors: Chao Fu Wei, Jing Du, Fei Nan Hu
Materials and methods
Soil samples and their parent rocks.
The variations of electrochemical properties in our results are also induced by these reasons, especially by differences in parent materials.
Surface potential is an important parameter in fields such as colloid and surface chemistry, nano material, soil science, ecology, environment science, biology and chemical engineering, so it has been an important issue ever since.
Physical weathering dominates in the soil-forming process of purple soil, and their parent materials and rocks showed that other indicator characters of soil genesis were lower free iron content and clayization coefficient, weak loss or enrichment of elements, higher silt-clay ratio and the similarity of silica-alumina ratios between soils, parent materials and bed rocks [22].
[7] Anda, M., Shamshuddin, J., Fauziah, C.J., Omar, S.R.S: Geoderma 143, 15-167 (2008) [8] Gallez, A., Juo, A.S.R., Herbillon, A.J: Soil Science Society America Journal 40, 601–608 (1976) [9] Hendershot, W.H., Lavkulich, L.M: Soil Sci.
The variations of electrochemical properties in our results are also induced by these reasons, especially by differences in parent materials.
Surface potential is an important parameter in fields such as colloid and surface chemistry, nano material, soil science, ecology, environment science, biology and chemical engineering, so it has been an important issue ever since.
Physical weathering dominates in the soil-forming process of purple soil, and their parent materials and rocks showed that other indicator characters of soil genesis were lower free iron content and clayization coefficient, weak loss or enrichment of elements, higher silt-clay ratio and the similarity of silica-alumina ratios between soils, parent materials and bed rocks [22].
[7] Anda, M., Shamshuddin, J., Fauziah, C.J., Omar, S.R.S: Geoderma 143, 15-167 (2008) [8] Gallez, A., Juo, A.S.R., Herbillon, A.J: Soil Science Society America Journal 40, 601–608 (1976) [9] Hendershot, W.H., Lavkulich, L.M: Soil Sci.
Online since: November 2018
Preface
2018 2nd International Conference on Advanced Manufacturing and Materials (ICAMM 2018)
was held in Tokyo, Japan during June 11-13, 2018.
ICAMM 2018 was a great success, and academic atmosphere helped participants to exchange scientific and technological ideas and enjoy the material development in the field of Advanced manufacturing materials.
ICAMM 2018 provided a real platform for researchers, engineers and academicians to further develop Advanced Manufacturing Materials.
This volume presents recent advances in the field of Composite Materials, Steel, Alloys, Biomaterials, Materials Properties, Measuring Methods and Applications, Materials Engineering and Processing Technologies, Chemical Engineering and Biotechnological Research, Nano materials and technology and etc.
Umemura Kazuo Tokyo University of Science, Japan August 18, 2018 Statement of Peer Review All papers published in this volume of "Materials Science Forum" have been peer reviewed through processes administered by the proceedings Editors.
ICAMM 2018 was a great success, and academic atmosphere helped participants to exchange scientific and technological ideas and enjoy the material development in the field of Advanced manufacturing materials.
ICAMM 2018 provided a real platform for researchers, engineers and academicians to further develop Advanced Manufacturing Materials.
This volume presents recent advances in the field of Composite Materials, Steel, Alloys, Biomaterials, Materials Properties, Measuring Methods and Applications, Materials Engineering and Processing Technologies, Chemical Engineering and Biotechnological Research, Nano materials and technology and etc.
Umemura Kazuo Tokyo University of Science, Japan August 18, 2018 Statement of Peer Review All papers published in this volume of "Materials Science Forum" have been peer reviewed through processes administered by the proceedings Editors.
Online since: August 2012
Authors: Ming Gao, Ying Juan Sun
The high IPDT implies the epoxy resins’ potential application in highly anti-thermal coatings and thermal insulating materials.
Macromolecular Materials and Engineering, 289(2004)499
Li, PK Jiang, P.Wei, Journal of Polymer Science, Part B: Polymer Physics 43(2005)2548
Tang, Journal of Applied Polymer Science 96(2005)854
Fire and Materials, 24(2000) 277 [9] Q.
Macromolecular Materials and Engineering, 289(2004)499
Li, PK Jiang, P.Wei, Journal of Polymer Science, Part B: Polymer Physics 43(2005)2548
Tang, Journal of Applied Polymer Science 96(2005)854
Fire and Materials, 24(2000) 277 [9] Q.
Online since: February 2014
Authors: Tang Kai, Yan Jie
Advances in Powder Metallurgy and Particulate Materials, 229.(2006) 5-15
[2] Lomayeva, S.F., Yelsukov, E.P., Konygin G..N. et al.
Materials Science and Engineering A, 119 (2000) 289-293 [4], S.W.
Tanaka, et al.Journal of the European Ceramic Society. 880(2007)27-32 [5] Li X, Li D, Zhao L, et al.
Materials Science and Engineering, China,.2, 248( 2002)2-8 [6] Jie, Y., Kai,T., Xin, H.
Journal of Sichuan University of Science & Engineering (Natural Science Edition), China, 30( 2006)32-38 [7] B.
Materials Science and Engineering A, 119 (2000) 289-293 [4], S.W.
Tanaka, et al.Journal of the European Ceramic Society. 880(2007)27-32 [5] Li X, Li D, Zhao L, et al.
Materials Science and Engineering, China,.2, 248( 2002)2-8 [6] Jie, Y., Kai,T., Xin, H.
Journal of Sichuan University of Science & Engineering (Natural Science Edition), China, 30( 2006)32-38 [7] B.
Online since: March 2015
Authors: Hui Ting Guo, Liang Sun, Jian Hua Chen, Liang Chen, Wei Bo
(1) The emission in the material phase was assessed on the base of the product’s Bill of Material (BOM) from the enterprise
International Journal of Technology Management & Sustainable Development.
Supply Chain Management: An International Journal.
Journal of Loss Prevention in the Process Industries.
Standard Science.
International Journal of Technology Management & Sustainable Development.
Supply Chain Management: An International Journal.
Journal of Loss Prevention in the Process Industries.
Standard Science.
Online since: August 2011
Authors: Li Wei Zhang, Li Xin Li, Ming Li
Amioke: Journal of materials processing Technology, Vol.199 (2008),p. 84-90
[2] M.
Aniolek, Journal of materials processing technology,Vol. 203 (2008) p. 333-41 [5] C.
Hopperstad: Computational Materials Science, Vol. 46 (2009) p.100-11 [7] D.
Manokhiu: Computational Materials Science, Vol.24 (2007) p. 552-61 [8] J.
Wang, :Materials Letters, Vol. 64 (2010) p. 869-71
Aniolek, Journal of materials processing technology,Vol. 203 (2008) p. 333-41 [5] C.
Hopperstad: Computational Materials Science, Vol. 46 (2009) p.100-11 [7] D.
Manokhiu: Computational Materials Science, Vol.24 (2007) p. 552-61 [8] J.
Wang, :Materials Letters, Vol. 64 (2010) p. 869-71
Online since: July 2012
Authors: Andrew John Ruys, Philip Boughton, Christine Poon, Mei Zhang, Angela Hong, Christelle Catuogno
Introduction
Tissue engineering is a complex, multidisciplinary field that combines cellular biology, materials science and engineering principles to reconstitute living tissues in vitro for a diverse range of applications, including pharmaceutical testing and in vivo implantation.
Each component accounted for individual design considerations, materials selection and development prior to assembly.
European Journal of Pharmaceutical Sciences, 2006. 28 (3), 196-203
Mooney; New materials for tissue engineering: towards greater control over the biological response.
[33] A.R Boccaccini, J.J Blaker; Bioactive composite materials for tissue engineering scaffolds.
Each component accounted for individual design considerations, materials selection and development prior to assembly.
European Journal of Pharmaceutical Sciences, 2006. 28 (3), 196-203
Mooney; New materials for tissue engineering: towards greater control over the biological response.
[33] A.R Boccaccini, J.J Blaker; Bioactive composite materials for tissue engineering scaffolds.
Online since: November 2012
Authors: Qing Feng, Bo Wu, Wei Jiang
Building energy efficiency means while meeting the same needs or achieves the same objective conditions during the process of using building materials and building the construction minimizes the energy consumption.
Building energy efficiency evaluation include the following aspects: section with the outdoor environment, energy conservation and energy use, water conservation and water use, materials and material resource use, indoor environmental quality and operations management.
But, there are some weak points in the evaluation system, especially with the continuous development of material science, construction of new materials, new technology, the evaluation must be constantly updated and revised.
[4] Hongfa KE, Yongguang CHEN and Bin XIA, “Grey Evaluation Model and Algorithm of Combat Effectiveness of EW Equipment,” JOURNAL OF SYSTEM SIMULATION, vol. 17, 2005, pp. 760-762.
[5] Fei SHAO, Wei DENG and Fujun YI, “Comprehensive evaluation method of metropolitan public transportation system based on analysis hierarchical process and grey theory,” JOURNAL OF PLA UNIVERSITY OF SCIENCE AND TECHNOLOGY (NATURAL SCIENCE EDITION), vol. 06 Oct. 2009, pp. 536-541.
Building energy efficiency evaluation include the following aspects: section with the outdoor environment, energy conservation and energy use, water conservation and water use, materials and material resource use, indoor environmental quality and operations management.
But, there are some weak points in the evaluation system, especially with the continuous development of material science, construction of new materials, new technology, the evaluation must be constantly updated and revised.
[4] Hongfa KE, Yongguang CHEN and Bin XIA, “Grey Evaluation Model and Algorithm of Combat Effectiveness of EW Equipment,” JOURNAL OF SYSTEM SIMULATION, vol. 17, 2005, pp. 760-762.
[5] Fei SHAO, Wei DENG and Fujun YI, “Comprehensive evaluation method of metropolitan public transportation system based on analysis hierarchical process and grey theory,” JOURNAL OF PLA UNIVERSITY OF SCIENCE AND TECHNOLOGY (NATURAL SCIENCE EDITION), vol. 06 Oct. 2009, pp. 536-541.
Online since: November 2012
Authors: Jozef Kováč, Balázs Vehovszky, Pável Kamasa, Zsolt Fogarassy
Complex study of H-induced structural rearrangements
in FeZr glasses
Balázs Vehovszky1a, Pável Kamasa2, Jozef Kovác3, Zsolt Fogarassy4
1Department of Vehicle Manufacturing and Repairing, Budapest University of Technology
and Economics, Műegyetem rkp. 3-9, 1111 Budapest, Hungary
2Research Institute for Solid State Physics and Optics, Hungarian Academy of Sciences,
Konkoly-Thege Miklós str. 29-33, 1121 Budapest, Hungary
3Institute of Experimental Physics, Slovak Academy of Sciences,
Watsonova 47, 040 01 Košice, Slovakia
4Institute for Technical Physics and Materials Science, Hungarian Academy of Sciences,
Konkoly-Thege Miklós str. 29-33, 1121 Budapest, Hungary
avehovszky@kgtt.bme.hu
Keywords: amorphous Fe-Zr ribbon, structural relaxation, crystallization, hydrogen absorption
Abstract.
References [1] Louis Schlapbach, Andreas Züttel: Hydrogen-storage materials for mobile applications, Nature Vol. 414, ISSN: 0028-0836, 2001, pp. 353-358
Chan: Hydrogen-induceddegradation in NiCuZn ferrite-based multilayer chip inductors, Materials Letters, Vol. 59, Issue 13, ISSN: 0167-577X, 2005, pp. 1636-1639
Lunarska: Hydrogen degradation of steels under long-term in-service conditions, Environment-Induced Cracking of Materials, ISBN: 978-0-08-044635-6, pp. 349-361, 2008
[5] M.Pozzo, D.Alfè: Hydrogen dissociation and diffusion on transition metal (= Ti, Zr, V, Fe, Ru, Co, Rh, Ni, Pd, Cu, Ag)-doped Mg(0001) surface, International Journal of Hydrogen Energy Vol. 34., ISSN 0360-3199, 2009, pp. 1922-1930
References [1] Louis Schlapbach, Andreas Züttel: Hydrogen-storage materials for mobile applications, Nature Vol. 414, ISSN: 0028-0836, 2001, pp. 353-358
Chan: Hydrogen-induceddegradation in NiCuZn ferrite-based multilayer chip inductors, Materials Letters, Vol. 59, Issue 13, ISSN: 0167-577X, 2005, pp. 1636-1639
Lunarska: Hydrogen degradation of steels under long-term in-service conditions, Environment-Induced Cracking of Materials, ISBN: 978-0-08-044635-6, pp. 349-361, 2008
[5] M.Pozzo, D.Alfè: Hydrogen dissociation and diffusion on transition metal (= Ti, Zr, V, Fe, Ru, Co, Rh, Ni, Pd, Cu, Ag)-doped Mg(0001) surface, International Journal of Hydrogen Energy Vol. 34., ISSN 0360-3199, 2009, pp. 1922-1930
Online since: February 2012
Authors: Fang Qiu Zu, Yu Feng Sun, Zhi Hao Chen, Wei Zheng, Xie Bing Zhu
Influence of Liquid Structure Change on Microstructure and Properties of SnZnBi Solder Alloy
Chen Zhi-hao1, a, Zheng Wei1, a, Zu Fang-qiu2, b, Zhu Xie-bing1, , Sun Yu-Feng1
1Anhui Laboratory of High-performance Non-ferrous Metal Materials, Anhui Polytechnic University, Wuhu 241000, China
2 College of Materials Science and Engineering, Hefei University of Technology, Hefei 230009, China
aneyeyu@hotmail.com, bfangqiuzu@hotmail.com
Keywords: Melt structure, Liquid structure change, Pb-free solder
Abstract Currently, Pb-free is the primary trend of development for solder alloys, and the existing Pb-free solder alloys are still difficult to replace the traditional tin-lead solder alloys.
Wang, et al.: Materials Science in Semiconductor Processing, Vol.13 (2010), p.86–91 [9] F.Q.
Zu, et al.: Journal of Alloys and Compounds, Vol.505 (2010), p.472–475 [12] X.F.Li, F.Q.
Zu, L.J.Liu, et al.: Journal of Alloys and Compounds, Vol.453, No.1-2 (2008), p.508 [13] H.
Popel, et al.: Materials Science and Engineering A, Vol.304–306 (2001), p.54–60
Wang, et al.: Materials Science in Semiconductor Processing, Vol.13 (2010), p.86–91 [9] F.Q.
Zu, et al.: Journal of Alloys and Compounds, Vol.505 (2010), p.472–475 [12] X.F.Li, F.Q.
Zu, L.J.Liu, et al.: Journal of Alloys and Compounds, Vol.453, No.1-2 (2008), p.508 [13] H.
Popel, et al.: Materials Science and Engineering A, Vol.304–306 (2001), p.54–60