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Online since: March 2013
Authors: Chun Xiao Huang, Bo Guang Luo, He Ying Qin
The simulation analysis is an important part of theoretical study on concrete materials.
Journal of Hydraulic Engineering, 42:11, 1379-1383. (2011). ( In Chinese) [2] G.T.
Journal of Tsinghua University (Science and Technology), 43:8, 1120-1123. (2003). ( In Chinese) [3] C.B.
Chinese Journal of Applied Mechanics, 26:4, 808-811. (2009). ( In Chinese) [5] Y.B.
Journal of System Simulation, 18:8, 103-107. (2006). ( In Chinese)
Journal of Hydraulic Engineering, 42:11, 1379-1383. (2011). ( In Chinese) [2] G.T.
Journal of Tsinghua University (Science and Technology), 43:8, 1120-1123. (2003). ( In Chinese) [3] C.B.
Chinese Journal of Applied Mechanics, 26:4, 808-811. (2009). ( In Chinese) [5] Y.B.
Journal of System Simulation, 18:8, 103-107. (2006). ( In Chinese)
Online since: May 2020
Authors: Martin Sahul, Erika Hodúlová, Beáta Šimeková, Ingrid Kovaříková
Experimental Materials and Methods
Commercially pure or low-alloy nickel was used as the base material, that are useful in several fields, notably chemical processing and electronics.
The experimental materials Nickel 201 in 100x50x2 mm was used.
In Comprehensive Materials Processing; Elsevier Ltd., 2014; Vol. 6, pp 151–179
Karppi, “The application of electron beam welding for the joining of dissimilar metals: an overview,” Journal of Materials Processing Technology, vol. 59, no. 3, pp. 257–267, May 1996
Bonollo: Investigation of electron-beam welding in wrought Inconel 706—experimental and numerical analysis, In: Materials Science and Engineering A 392 (2005) 94–105 [10] Y.
The experimental materials Nickel 201 in 100x50x2 mm was used.
In Comprehensive Materials Processing; Elsevier Ltd., 2014; Vol. 6, pp 151–179
Karppi, “The application of electron beam welding for the joining of dissimilar metals: an overview,” Journal of Materials Processing Technology, vol. 59, no. 3, pp. 257–267, May 1996
Bonollo: Investigation of electron-beam welding in wrought Inconel 706—experimental and numerical analysis, In: Materials Science and Engineering A 392 (2005) 94–105 [10] Y.
Online since: November 2014
Authors: Masaru Murata, Toshiyuki Akazawa, M. Ito, Y. Minamida, Akihiko Katayama, Md. Arafat Kabir, T. Nakajima
Materials and Methods
Preparation of electrolyzed water.
In dental therapy, ultrasonic scaler is a convenient apparatus for the removal of dental plaque and tartar, the polishing of tooth, the enlargement and cleaning of root canal, the removal of inclusion, and the injection of root canal-packing materials.
Moreover, ion species-induced electrolyzed water is expected as one of useful biomimetic fluids for bone-regenerative therapy of hard tissues and development of immunity-activated biomimetic materials, as well as oral care and cosmetic products.
Kitagawa, Assessment of Candida species colonization on denture surface - the effect of denture cleaning with 3-chamber type electrolysis cell water -, Hokkaido Journal of Dental Science, 34 (2013) 11-17
Nakajima, Interface Function Design and Control of Biomimetic Materials Using Electrolyzed Water, Proceedings of the 22nd.
In dental therapy, ultrasonic scaler is a convenient apparatus for the removal of dental plaque and tartar, the polishing of tooth, the enlargement and cleaning of root canal, the removal of inclusion, and the injection of root canal-packing materials.
Moreover, ion species-induced electrolyzed water is expected as one of useful biomimetic fluids for bone-regenerative therapy of hard tissues and development of immunity-activated biomimetic materials, as well as oral care and cosmetic products.
Kitagawa, Assessment of Candida species colonization on denture surface - the effect of denture cleaning with 3-chamber type electrolysis cell water -, Hokkaido Journal of Dental Science, 34 (2013) 11-17
Nakajima, Interface Function Design and Control of Biomimetic Materials Using Electrolyzed Water, Proceedings of the 22nd.
Online since: April 2012
Authors: Shu Sheng Bi, Wen Jing Wang, Li Ge Zhang
Acknowledgements
The financial supports from the National Natural Science Foundation of China (No. 50975007) and China Postdoctoral Science Foundation (No. 20100480179) are appreciated.
ASME, Journal of Mechanical Design, Vol. 123 (2001) No.1, pp. 33-42
ASME, Journal of Mechanical Design, Vol. 125 (2003) No.2, pp. 253-261
ASME, Journal of Mechanical Design, Vol. 117 (1995) No.1, pp. 156-165
ASME, Journal of Mechanisms and Robotics, Vol. 2 (2010) No.2, 021003
ASME, Journal of Mechanical Design, Vol. 123 (2001) No.1, pp. 33-42
ASME, Journal of Mechanical Design, Vol. 125 (2003) No.2, pp. 253-261
ASME, Journal of Mechanical Design, Vol. 117 (1995) No.1, pp. 156-165
ASME, Journal of Mechanisms and Robotics, Vol. 2 (2010) No.2, 021003
Online since: August 2018
Authors: Lateef O. Mudashiru, Emmanuel O. Sangotayo, Samuel O. Alamu
NST 37-2 mild steel has many industrial applications; the steels are grouped into ferrous and non-ferrous materials, among which are low and medium carbon steel, perhaps the most versatile engineering materials.
“Effect of heat treatment on mechanical properties and microstructure of NST 37-2 steel” Journal of Minerals and Material Characteristics & Engineering, 10: 299-308
“Genetic algorithm for optimization of welding variables for percentage of dillution and application of ANN for prediction of weld bead geometry in GMAW process” Indian Journal of Science & Technology
“Assessment and minimization of the residual stress in dissimilar laser welding” Applied Mechanics and Materials 7-8: 139-144 [6] Olawale J.
“Correlation between process variables in Shielded Metal-Arc Welding (SMAW) process and Post Weld Heat Treatment (PWHT) on some mechanical properties of low carbon steel welds” Journal of Minerals and Materials Characterization & Engineering, 11: 891-895 [7] Crupi G., Crupi V., Guglielmino E. and Taylor D. (2004).
“Effect of heat treatment on mechanical properties and microstructure of NST 37-2 steel” Journal of Minerals and Material Characteristics & Engineering, 10: 299-308
“Genetic algorithm for optimization of welding variables for percentage of dillution and application of ANN for prediction of weld bead geometry in GMAW process” Indian Journal of Science & Technology
“Assessment and minimization of the residual stress in dissimilar laser welding” Applied Mechanics and Materials 7-8: 139-144 [6] Olawale J.
“Correlation between process variables in Shielded Metal-Arc Welding (SMAW) process and Post Weld Heat Treatment (PWHT) on some mechanical properties of low carbon steel welds” Journal of Minerals and Materials Characterization & Engineering, 11: 891-895 [7] Crupi G., Crupi V., Guglielmino E. and Taylor D. (2004).
Online since: April 2021
Authors: Livan Fratini, Omer Zaheer, Giuseppe Ingarao, Rosa Di Lorenzo
Allwood identified reforming/reshaping as one of the four main strategies to reuse materials.
Allwood, Reusing Steel and Aluminum Components at End of Product Life, Environmental Science and Technology 46 (2012) 10334-10340
Tekkaya, Innovation by forming technology: motivation for research, International Journal of Material Forming 2 (2009) 29-38
Jeswiet, Single point incremental forming: state-of-the-art and prospects, International Journal of Material Forming, 11 (2018) 743–773
Micari, Analysis of stamping performances of dual phase steels: a multi-objective approach to reduce springback and thinning failure, Materials & Design, 30(10) (2009) 4421-4433.
Allwood, Reusing Steel and Aluminum Components at End of Product Life, Environmental Science and Technology 46 (2012) 10334-10340
Tekkaya, Innovation by forming technology: motivation for research, International Journal of Material Forming 2 (2009) 29-38
Jeswiet, Single point incremental forming: state-of-the-art and prospects, International Journal of Material Forming, 11 (2018) 743–773
Micari, Analysis of stamping performances of dual phase steels: a multi-objective approach to reduce springback and thinning failure, Materials & Design, 30(10) (2009) 4421-4433.
Online since: December 2014
Preface
China Functional Materials Society is the nationwide academic social organization for workers of
functional materials science technology, which founded in Chongqing on December 16, 1979.
Development of thirty years, committing to china functional materials core service platform, the society has been most dynamic, innovative and influential academic community of china functional materials science and technology. 2014 CFMTIF was successfully held in Xi'an, Shanxi, China, from August 26th to 28th 2014, which sponsored by China Functional Materials Society, National Instrument Functional Materials Engineering Technology Research Center, Chongqing Materials Research Institute and Journal of Functional Materials, and organized by Xi'an Jiaotong University, Northwestern Polytechnical University.
About 400 scientists, experts, professors, scholars and entrepreneurs at home and abroad from scientific research institutes, universities, academic societies and enterprises attended this conference, included members of Chinese Academy of Sciences Chunhua Yan, Chunxiao Cao, Xi Yao, Bingbo Wei, members of Chinese Academy of Engineering Bingheng Lu, Yanrong Li, Meanwhile, "2014 Exhibition of Functional Materials Scientific Instruments, Equipment and Achievement" was held simultaneously with CFMTIF 2014 The conference focused on the following topics: (1) Metallic Materials and Alloys; (2) Nanoscale Materials and Composite Materials; (3) Ceramic and Inorganic Functional Materials; (4) Mechanical, Thermal, Optical, Electric Functional Materials; (5) Environmengt Functional Materials and Energy Materials; (6) Biological, Macromolecule and Organic Functional Materials; (7) Film Materials, Coating and Surface Technology; The success of CFMTIF 2014 plays a positive and significant
China Functional Materials Society 2014.8 Committees Sponsored by China Functional Materials Society National Instrument Functional Materials Engineering Technology Research Center Chongqing Materials Research Institute Executed by Xi'an Jiaotong University, Northwestern Polytechnical University.
Shaanxi University of Science Technology Xi'an University of Science and Technology Conference Leadership Chairman: Chunhua Yan (Director of Rare Earth Materials Chemistry and Application State Key Laboratory in Peking University, Member of Chinese Academy of Sciences), Vice Chairmen: Xiaoping Song(Deputy Director of Chinese Instrument Functional Materials Society, Xi'an Jiaotong University), Qingbin Liu(President of Chongqing Materials Research Institute, Director of National Instrument Functional Materials Engineering Technology Research Center, President of Chongqing Functional Materials Periodical Press), Wanqi Jie(Northwestern Polytechnical University), Jianzhong Ma(Shaanxi Normal University), Gao Yang(Xi'an University of Technology) Organizing Committee Chairman: Bingheng Lu(members of Chinese Academy of Engineering, Xi'an Jiaotong University), Chunhua Yan (Director of Rare Earth Materials Chemistry and Application State Key Laboratory in
Development of thirty years, committing to china functional materials core service platform, the society has been most dynamic, innovative and influential academic community of china functional materials science and technology. 2014 CFMTIF was successfully held in Xi'an, Shanxi, China, from August 26th to 28th 2014, which sponsored by China Functional Materials Society, National Instrument Functional Materials Engineering Technology Research Center, Chongqing Materials Research Institute and Journal of Functional Materials, and organized by Xi'an Jiaotong University, Northwestern Polytechnical University.
About 400 scientists, experts, professors, scholars and entrepreneurs at home and abroad from scientific research institutes, universities, academic societies and enterprises attended this conference, included members of Chinese Academy of Sciences Chunhua Yan, Chunxiao Cao, Xi Yao, Bingbo Wei, members of Chinese Academy of Engineering Bingheng Lu, Yanrong Li, Meanwhile, "2014 Exhibition of Functional Materials Scientific Instruments, Equipment and Achievement" was held simultaneously with CFMTIF 2014 The conference focused on the following topics: (1) Metallic Materials and Alloys; (2) Nanoscale Materials and Composite Materials; (3) Ceramic and Inorganic Functional Materials; (4) Mechanical, Thermal, Optical, Electric Functional Materials; (5) Environmengt Functional Materials and Energy Materials; (6) Biological, Macromolecule and Organic Functional Materials; (7) Film Materials, Coating and Surface Technology; The success of CFMTIF 2014 plays a positive and significant
China Functional Materials Society 2014.8 Committees Sponsored by China Functional Materials Society National Instrument Functional Materials Engineering Technology Research Center Chongqing Materials Research Institute Executed by Xi'an Jiaotong University, Northwestern Polytechnical University.
Shaanxi University of Science Technology Xi'an University of Science and Technology Conference Leadership Chairman: Chunhua Yan (Director of Rare Earth Materials Chemistry and Application State Key Laboratory in Peking University, Member of Chinese Academy of Sciences), Vice Chairmen: Xiaoping Song(Deputy Director of Chinese Instrument Functional Materials Society, Xi'an Jiaotong University), Qingbin Liu(President of Chongqing Materials Research Institute, Director of National Instrument Functional Materials Engineering Technology Research Center, President of Chongqing Functional Materials Periodical Press), Wanqi Jie(Northwestern Polytechnical University), Jianzhong Ma(Shaanxi Normal University), Gao Yang(Xi'an University of Technology) Organizing Committee Chairman: Bingheng Lu(members of Chinese Academy of Engineering, Xi'an Jiaotong University), Chunhua Yan (Director of Rare Earth Materials Chemistry and Application State Key Laboratory in
Online since: May 2011
Authors: Min Li, Hong Nan Li
A large number of research efforts have been devoted to the effect of strain rate on material properties.
Acknowledgements The authors would like to acknowledge the support provided by National Natural Science Foundation of China Under Grant No. 90815026 and Foundation of Ministry of Education of China for Innovation Group Under Grant No.
Li:China Civil Engineering Journal, Vol.43(4)(2010) p.70.
(in Chinese) [2] M Shrikrishna,Kulkarni, P Surendra, et al:ACI structural Journal .Vol.95(1998):P.705
[3] J Lee, G L Fenves: Journal of Engineering Mechanics, Vol.124(1998): p.892
Acknowledgements The authors would like to acknowledge the support provided by National Natural Science Foundation of China Under Grant No. 90815026 and Foundation of Ministry of Education of China for Innovation Group Under Grant No.
Li:China Civil Engineering Journal, Vol.43(4)(2010) p.70.
(in Chinese) [2] M Shrikrishna,Kulkarni, P Surendra, et al:ACI structural Journal .Vol.95(1998):P.705
[3] J Lee, G L Fenves: Journal of Engineering Mechanics, Vol.124(1998): p.892
Online since: December 2011
Authors: Mei Chen, Fu Quan Zhang, Yong Zhou Wang, Mao Fang Huang, Wei Yong Deng
Experiments
Material
The fresh natural rubber latex was provided by Hainan Tianbao Rubber Industry & Trade Co.
Acknowledgements This work is supported by foundations: Earmarked fund for China Agriculture Research System (CARS-34-GW9); The Natural Science Foundation of Hainan Province, P.R.China, Contract grant number (510213); Natural Science Foundation of P.R.China, Contract grant number (50663003).
References [1] Xiaolong Yuan, Chenghai Chen, in: Tian ran xiang jiao jia gong xue (Hainan Publishing, China 2007) [2] Xiaolong Yuan, Chenhai Chen: Chinese Journal of Latex Industry, Vol.1 (2001), p9 [3] Mei Chen, Weiyong Deng, Yongzhou Wang and Maofang Huang: China Patent: ZL 201020227299.(2011) [4] GB/T 8081-2008/ISO2000: 2003, Rubber, raw natural-Guidelines for the specification of technically specified rubber (TSR) [5] Mei Chen, Weiyong Deng, Yongzhou Wang: Chinese Journal of Tropical Crops,Vol.29(2008), P659 [6] Fuquan Zhang, Yongzhou Wang, Mei Chen: Chinese Journal of Advanced Materials Research, Vol.337(2011), P155
Acknowledgements This work is supported by foundations: Earmarked fund for China Agriculture Research System (CARS-34-GW9); The Natural Science Foundation of Hainan Province, P.R.China, Contract grant number (510213); Natural Science Foundation of P.R.China, Contract grant number (50663003).
References [1] Xiaolong Yuan, Chenghai Chen, in: Tian ran xiang jiao jia gong xue (Hainan Publishing, China 2007) [2] Xiaolong Yuan, Chenhai Chen: Chinese Journal of Latex Industry, Vol.1 (2001), p9 [3] Mei Chen, Weiyong Deng, Yongzhou Wang and Maofang Huang: China Patent: ZL 201020227299.(2011) [4] GB/T 8081-2008/ISO2000: 2003, Rubber, raw natural-Guidelines for the specification of technically specified rubber (TSR) [5] Mei Chen, Weiyong Deng, Yongzhou Wang: Chinese Journal of Tropical Crops,Vol.29(2008), P659 [6] Fuquan Zhang, Yongzhou Wang, Mei Chen: Chinese Journal of Advanced Materials Research, Vol.337(2011), P155