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Online since: January 2012
Authors: Lei Zhang
15.35
1985
9016.0
102.59
2003
135822.8
944.6
1968
1723.1
14.80
1986
10275.2
112.57
2004
159878.3
1095.3
1969
1937.9
24.15
1987
12058.6
113.79
2005
183867.9
1334.9
1970
2252.7
29.96
1988
15042.8
121.12
2006
210871.0
1488.8
Source: Comprehensive Statistical Data and Materials on 50 years of New China and China Statistical Yearbook on Science and Technology.
In the model, the denotes GDP, and denotes the series of data for science & technology activities expenditure.
Fischer, “Absorptive Capacity and New Product Development,” Journal of High Technology Management Research, vol. 12, 2001, pp. 77–91
Gopalakrishnan, “Unraveling the Links between Dimensions of Innovation and Organizational Performance,” Journal of High Technology Management Research, vol. 11, 2000, pp.137–153
Li, “Technical Change and Funds for Science and Technology,” Kybernetes, vol. 33, no. 2, 2004, pp. 295–302
In the model, the denotes GDP, and denotes the series of data for science & technology activities expenditure.
Fischer, “Absorptive Capacity and New Product Development,” Journal of High Technology Management Research, vol. 12, 2001, pp. 77–91
Gopalakrishnan, “Unraveling the Links between Dimensions of Innovation and Organizational Performance,” Journal of High Technology Management Research, vol. 11, 2000, pp.137–153
Li, “Technical Change and Funds for Science and Technology,” Kybernetes, vol. 33, no. 2, 2004, pp. 295–302
Online since: December 2014
Authors: Xiao Hua Yu, Yu Hao Zhan
Faculty of Materials Science and Engineering, Kunming University of Science and Technology, Kunming 650093, P.R.
It is worth noting that study of the pavement materials are more than exterior building materials[9,10].
Yu, Z.K.Zhang: Journal of Qingdao University of Science and Technology, Vol. 26 (2005) p. 317.
Ferrari: Journal of colloid and interface science, Vol. 334 (2009) p. 195
Fu: Journal of inorganic materials, Vol. 15 (2000) p. 88.
It is worth noting that study of the pavement materials are more than exterior building materials[9,10].
Yu, Z.K.Zhang: Journal of Qingdao University of Science and Technology, Vol. 26 (2005) p. 317.
Ferrari: Journal of colloid and interface science, Vol. 334 (2009) p. 195
Fu: Journal of inorganic materials, Vol. 15 (2000) p. 88.
Online since: February 2024
Edited by: Khairunisak Abdul Razak, Anif Jamaluddin, Dong Keon Kim
This volume of the journal Engineering Innovations contains articles that accent the reader's attention on the latest advances and results of research in materials science, electrochemistry, engineering design, power engineering, facial recognition technology and industrial engineering.
The presented articles will be helpful to many researchers from the mentioned branches of engineering sciences.
The presented articles will be helpful to many researchers from the mentioned branches of engineering sciences.
Online since: January 2010
Authors: Jin Sheng Liang, Yan Ding, Guang Chuan Liang, Li Juan Wang
One of the remarkable developments in materials science was the new advance industry technology
in energy and environment materials in the twentieth century.
The subject of ecological environment functional materials (EEFMS) is the certain combination of materials science and engineering and environment science and engineering, which mainly concerns on the research and development of environment pollution and control functional materials and micro-environment control functional materials [1-2].
The environment mineral materials is the interaction, infiltration and amalgamation of quite many of subjects involved in environment science, mineral science, materials science, engineering science, physics and chemistry.
Academies Institutes 1 China Building Materials Academy Institutes of Environment Engineeriong 2 Chinese Academy of Sciences Research Center for Eco-Environmental Sciences 3 Chinese Academy of Aciences (Foshan) Cultivation Center Environmental Functional Materials 4 Lanzhou Institute of Chemical Physics, Chinese Academy of Sciences R&D Center for Eco-material and Eco-chemistry 5 Beijing Academy of Science and Technology Laboratory of Environmental Functional Materials for Radiation Modifying 3 Testing and Standardization of EEFMS Presently the experts, scholars and enterprises engaged in the research and job of EEFMS have studied systematically the environmental function and testing techniques of products made from antibacterial materials, air purification materials, minus ions functional materials, temperature-control energy-saving materials, humidity-control materials, far-infrared functional materials, radiation protection materials, and so on, and
Special committees, Associations Societies 1 Ecological Environment Functional Materials Special Committee Instrument Materials Society of China Instrument and Control Society 2 Ecological Environment Functional Materials Special Committee Tianjin Ceramic Society 3 Environmental Materials Association Chinese Materials Research Society 4 Ecological Building Materials Association China Building Materials Federation 5 Ion Specialist Committee China Association for Promotion of Non-Governmental Sci-Tech Enterprises 6 Branch Committee for Antimicrobial Industry National Association of Health Industry 5 Conclusions (1)With the rapid development of advanced industry of energy and environment materials in China, the new subject of EEFMS combing such subjects as materials science, energy science and environment science, and so on, has come into being, as well as a series of new industries of micro-environment control functional materials, and so on
The subject of ecological environment functional materials (EEFMS) is the certain combination of materials science and engineering and environment science and engineering, which mainly concerns on the research and development of environment pollution and control functional materials and micro-environment control functional materials [1-2].
The environment mineral materials is the interaction, infiltration and amalgamation of quite many of subjects involved in environment science, mineral science, materials science, engineering science, physics and chemistry.
Academies Institutes 1 China Building Materials Academy Institutes of Environment Engineeriong 2 Chinese Academy of Sciences Research Center for Eco-Environmental Sciences 3 Chinese Academy of Aciences (Foshan) Cultivation Center Environmental Functional Materials 4 Lanzhou Institute of Chemical Physics, Chinese Academy of Sciences R&D Center for Eco-material and Eco-chemistry 5 Beijing Academy of Science and Technology Laboratory of Environmental Functional Materials for Radiation Modifying 3 Testing and Standardization of EEFMS Presently the experts, scholars and enterprises engaged in the research and job of EEFMS have studied systematically the environmental function and testing techniques of products made from antibacterial materials, air purification materials, minus ions functional materials, temperature-control energy-saving materials, humidity-control materials, far-infrared functional materials, radiation protection materials, and so on, and
Special committees, Associations Societies 1 Ecological Environment Functional Materials Special Committee Instrument Materials Society of China Instrument and Control Society 2 Ecological Environment Functional Materials Special Committee Tianjin Ceramic Society 3 Environmental Materials Association Chinese Materials Research Society 4 Ecological Building Materials Association China Building Materials Federation 5 Ion Specialist Committee China Association for Promotion of Non-Governmental Sci-Tech Enterprises 6 Branch Committee for Antimicrobial Industry National Association of Health Industry 5 Conclusions (1)With the rapid development of advanced industry of energy and environment materials in China, the new subject of EEFMS combing such subjects as materials science, energy science and environment science, and so on, has come into being, as well as a series of new industries of micro-environment control functional materials, and so on
Online since: May 2020
Authors: I.V. Cherunova, A.A. Kovaleva, E.V. Nazarenko
Experimental Evaluation of Thermal Protection Properties of Volume Textile Materials
I.V.
Porcelain, Genytax and other materials are used for this purpose.
Dynamics of heat transfer by heat insulation materials Using formulas (1) - (4) heat properties of the researched samples of materials were calculated.
Shishoo, Recent developments in materials for use in protective clothing, International Journal of Clothing Science and Technolog, June 2002. 14 (2002) 201-215
Cherunov, Study of the structural and acoustic properties of clothing materials for thermal protection of human, International Journal of Applied Engineering Research. 10 - 9 (2015) 40506-40512
Porcelain, Genytax and other materials are used for this purpose.
Dynamics of heat transfer by heat insulation materials Using formulas (1) - (4) heat properties of the researched samples of materials were calculated.
Shishoo, Recent developments in materials for use in protective clothing, International Journal of Clothing Science and Technolog, June 2002. 14 (2002) 201-215
Cherunov, Study of the structural and acoustic properties of clothing materials for thermal protection of human, International Journal of Applied Engineering Research. 10 - 9 (2015) 40506-40512
Online since: June 2014
Authors: Ying Zhang, Yang Wang
LCA evaluate product, process or activity from raw materials acquisition to production, transportation, sales, use, recycling, maintenance and final disposal in the whole life cycle phase regarding the process of environmental load.
References [1] Guangzhen Liu, Xiaolin Sun, “Countermeasures fusion of modern construction and technology “Journal of Engineering Management.
[6] MST (Ministry of Science and Technology), 2003. 2003 China Statistical Yearbook on Science and Technology.
[7] MST (Ministry of Science and Technology), 2006. 2006 China Statistical Yearbook on Science and Technology.
[8] MST (Ministry of Science and Technology), 2008. 2008 China Statistical Yearbook on Science and Technology.
References [1] Guangzhen Liu, Xiaolin Sun, “Countermeasures fusion of modern construction and technology “Journal of Engineering Management.
[6] MST (Ministry of Science and Technology), 2003. 2003 China Statistical Yearbook on Science and Technology.
[7] MST (Ministry of Science and Technology), 2006. 2006 China Statistical Yearbook on Science and Technology.
[8] MST (Ministry of Science and Technology), 2008. 2008 China Statistical Yearbook on Science and Technology.
Online since: September 2015
Authors: Qingyuan Wang, Muhammad Kashif Khan
Initially, the papers from “fatigue” have been searched in the domain of Materials Science, Materials Engineering, Physics and Mechanics published in the period of 1995 to 2014.
It can be seen that majority of these papers were published in research journal titled “Fatigue and Fracture of Engineering Materials and Structures”.
The remaining 32% of the top 50 VHCF papers were published in Materials Science and Engineering A, Scripta Materilia, Acta Materialia etc.
It was found that VHCF papers were published in two major journals of fatigue named as “International Journal of Fatigue” and “Fatigue and Fracture of Engineering Materials and Structures”.
Bathias, There is no infinite fatigue life in metallic materials.
It can be seen that majority of these papers were published in research journal titled “Fatigue and Fracture of Engineering Materials and Structures”.
The remaining 32% of the top 50 VHCF papers were published in Materials Science and Engineering A, Scripta Materilia, Acta Materialia etc.
It was found that VHCF papers were published in two major journals of fatigue named as “International Journal of Fatigue” and “Fatigue and Fracture of Engineering Materials and Structures”.
Bathias, There is no infinite fatigue life in metallic materials.
Online since: February 2011
Authors: Jie Fang
The virtual materials in animations are designed according to the real materials.
A world that does not even exist can be created, where virtual materials give viewers a feeling of living the reality, for example, the series of Hollywood's science fiction and disaster blockbusters.
The characteristics of the materials are the reason why virtual materials seem real in the animation.
Virtual materials are mostly used in modeling, and choosing materials and textures.
References [1] Sun Cong, in: Materials as Form--On the Formative Styles of the Cartoon Materials and the Materialized Cartoons, Journal of Beijing Film Academy, Mar. 2004, pp. 39-40 [2] Zhang Jingdong, in: Future of 3D Animation and the Latest Technology of Maya, Journal of Chifeng University: Natural Science Edition, Feb. 2008, pp48-49 [3] Huang Shengwei, in: Study on the Maya Technology in 3D Animation Production, Software Guide, Vol. 2 (2010) [4] Huang Long, in: On the Material and Its Art Expressive Ability in Animation, pp16-17 [5] Zhao Yang, in: Research on Digital Cartoon Produced by Maya, Journal of Tianjin Adult Higher Learning, Vol. 5, Sep. 2005, pp. 35-36
A world that does not even exist can be created, where virtual materials give viewers a feeling of living the reality, for example, the series of Hollywood's science fiction and disaster blockbusters.
The characteristics of the materials are the reason why virtual materials seem real in the animation.
Virtual materials are mostly used in modeling, and choosing materials and textures.
References [1] Sun Cong, in: Materials as Form--On the Formative Styles of the Cartoon Materials and the Materialized Cartoons, Journal of Beijing Film Academy, Mar. 2004, pp. 39-40 [2] Zhang Jingdong, in: Future of 3D Animation and the Latest Technology of Maya, Journal of Chifeng University: Natural Science Edition, Feb. 2008, pp48-49 [3] Huang Shengwei, in: Study on the Maya Technology in 3D Animation Production, Software Guide, Vol. 2 (2010) [4] Huang Long, in: On the Material and Its Art Expressive Ability in Animation, pp16-17 [5] Zhao Yang, in: Research on Digital Cartoon Produced by Maya, Journal of Tianjin Adult Higher Learning, Vol. 5, Sep. 2005, pp. 35-36
Online since: February 2018
Authors: Jian Ling Xu, Han Xi Wang, Lian Xi Sheng, Xue Jun Liu
Journal of Agro-Environment Science, 29(5) (2010) 969-975
Journal of Agro-Environment Science. 31(3) (2012) 587-592
Journal of Agro-Environment Science. 30(10) (2011) 2130-2135
Journal of Environmental Sciences. 51 (2017) 275-283
Journal of Central South University (Science and Technology). 43(12) (2012) 4939-4943
Journal of Agro-Environment Science. 31(3) (2012) 587-592
Journal of Agro-Environment Science. 30(10) (2011) 2130-2135
Journal of Environmental Sciences. 51 (2017) 275-283
Journal of Central South University (Science and Technology). 43(12) (2012) 4939-4943
Online since: October 2014
Authors: Xiao Yi Feng, Gui Qing He
Only with such understanding, which is then integrated into the teaching materials, can a teacher be well prepared for his/her lectures.
Lecture notes are not just copied information of teaching materials.
Instead, they are extracted from teaching materials, but more flexible and applicable.
l Gain new knowledge through reviewing learnt materials and put emphasis on coherence.
The idea of gaining new knowledge through reviewing learnt materials reveals the dialectical relationship between new knowledge and old knowledge.
Lecture notes are not just copied information of teaching materials.
Instead, they are extracted from teaching materials, but more flexible and applicable.
l Gain new knowledge through reviewing learnt materials and put emphasis on coherence.
The idea of gaining new knowledge through reviewing learnt materials reveals the dialectical relationship between new knowledge and old knowledge.