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Online since: October 2010
Authors: Peng Zhang, Hong Wei Liu
Journal of Materials Processing Technology. 2004, 151:133–140
Journal of materials processing technology. 1997,63(1-3): 67-71
International Journal of Mechanic Sciences. 2001, 43 (10):2331–2347
Journal of Mechanical Sciences. 1998, 33 (1):91-97
Journal of material processing technology. 2003,139 (1):1-7
Journal of materials processing technology. 1997,63(1-3): 67-71
International Journal of Mechanic Sciences. 2001, 43 (10):2331–2347
Journal of Mechanical Sciences. 1998, 33 (1):91-97
Journal of material processing technology. 2003,139 (1):1-7
Online since: February 2011
Authors: Xian Zhang Feng, Dan Wang, Yun Hua Li, Jin Feng Wang
Laser Processing: Using the interaction of laser beam and material, the metallic or non-metallic materials were processed by drilling, welding, cutting, turning, surface and heat treatment.
Advance of manufacturing process by materials science: Materials science requires more new challenges of manufacturing process, on the one hand, it compels ordinary mechanical processing methods to change the tool material, and improved manufacturing equipment, on the one hand, for the processing of new functional materials, new manufacturing process technology, which requires the application of more physics, chemistry, materials science and modern knowledge.
Acknowledgment The research is supported by International Cooperation Science and Technology Projects of Ministry of Science and Technology (2006DFA72470), Science and Technique Foundation of Henan Province (092102210272).
Journal of Membrane Science, 2002, 204: 271-281
Journal of Biotechnology, 2005, 116:79-89.
Advance of manufacturing process by materials science: Materials science requires more new challenges of manufacturing process, on the one hand, it compels ordinary mechanical processing methods to change the tool material, and improved manufacturing equipment, on the one hand, for the processing of new functional materials, new manufacturing process technology, which requires the application of more physics, chemistry, materials science and modern knowledge.
Acknowledgment The research is supported by International Cooperation Science and Technology Projects of Ministry of Science and Technology (2006DFA72470), Science and Technique Foundation of Henan Province (092102210272).
Journal of Membrane Science, 2002, 204: 271-281
Journal of Biotechnology, 2005, 116:79-89.
Online since: December 2012
Authors: Zhao Mei Qiu, Yu Qiu Song, Li Yan Wu
The result showed to improve the materials absorbance to 90% is practicable.
In this study, bionic structural material was employed to increase materials utilizing efficiency of solar energy through pure physical structure.
The results confirm the feasibility of increasing solar absorbance through bionic structural materials and lay some theoretical foundation for designing and fabricating of solar materials.
Chinese Journal of Materials Research, Vol. 24 (2001), p. 17-24 [8] Zhibin Li, Yating Wu, Yida Deng, et al.
Science in China Series E: Technological Sciences, Vol. 50 (2007), p. 430-436 [19] G.
In this study, bionic structural material was employed to increase materials utilizing efficiency of solar energy through pure physical structure.
The results confirm the feasibility of increasing solar absorbance through bionic structural materials and lay some theoretical foundation for designing and fabricating of solar materials.
Chinese Journal of Materials Research, Vol. 24 (2001), p. 17-24 [8] Zhibin Li, Yating Wu, Yida Deng, et al.
Science in China Series E: Technological Sciences, Vol. 50 (2007), p. 430-436 [19] G.
Online since: September 2014
Authors: Fei Gao, Yi Zheng, Wei Shi Xiong, Xiao Jun Shen, Zhao Jun Qiu, Li Xin Wang
Journal of Materials in Civil Engineering. 2002. 14(2):116-121
Journal of Materials in Civil Engineering. 2005. 17(5):513-518
Journal of Materials in Civil Engineering. 2004. 16(5):419-426
Journal of University of Science and Technology Beijing. 2003.10(6):25-28
Journal of University of Science and Technology Beijing. 2003. 10(6):5-10
Journal of Materials in Civil Engineering. 2005. 17(5):513-518
Journal of Materials in Civil Engineering. 2004. 16(5):419-426
Journal of University of Science and Technology Beijing. 2003.10(6):25-28
Journal of University of Science and Technology Beijing. 2003. 10(6):5-10
Online since: November 2014
Authors: Tadeusz Łagoda, Ewelina Böhm, Marta Kurek
Introduction
THE FATIGUE OF MATERIALS HAS BEEN WIDELY DESCRIBED IN LITERATURE.
Table 1 presents chemical composition of chosen materials.
The basic mechanical properties of analyzed materials.
[2] Kurek M., Łagoda T., Katzy D.: Comparison of fatigue characteristics of some selected materials, Materials Testing (Materialprufung), Vol.56, No. 2, 2014, pp.92-95
[8] Böhm E., Kurek M., Junak G., Cieśla M., Łagoda T.: Accumulation of Fatigue Damage Using Memory of the Material, Procedia Materials Science, Vol. 3, pp. 2–7, 2014 [9] Junak G., Cieśla M., Low-cycle fatigue of P91 and P92 steels used in the Power engineering industry, Archives of Materiale Science and Engineering, Vol.48, 2011, pp.19-24
Table 1 presents chemical composition of chosen materials.
The basic mechanical properties of analyzed materials.
[2] Kurek M., Łagoda T., Katzy D.: Comparison of fatigue characteristics of some selected materials, Materials Testing (Materialprufung), Vol.56, No. 2, 2014, pp.92-95
[8] Böhm E., Kurek M., Junak G., Cieśla M., Łagoda T.: Accumulation of Fatigue Damage Using Memory of the Material, Procedia Materials Science, Vol. 3, pp. 2–7, 2014 [9] Junak G., Cieśla M., Low-cycle fatigue of P91 and P92 steels used in the Power engineering industry, Archives of Materiale Science and Engineering, Vol.48, 2011, pp.19-24
Online since: August 2013
Authors: Zheng Zhang, Xing Quan Liu, Wei Wang, Ling Zhao
The raw materials were mixed stoichiometrically in a planetary ball mill and ground at a speed of 400 r/m for 8 hours[8].
Delmas, Chemistry of Materials 2002, 15, 348-354
Julien, Journal of Power Sources 2013, 232, 357-369
Garche, Journal of Power Sources 2010, 195, 2419-2430
Tirado, Materials Science and Engineering: R: Reports 2003, 40, 103-136
Delmas, Chemistry of Materials 2002, 15, 348-354
Julien, Journal of Power Sources 2013, 232, 357-369
Garche, Journal of Power Sources 2010, 195, 2419-2430
Tirado, Materials Science and Engineering: R: Reports 2003, 40, 103-136
Online since: February 2016
Authors: Andrzej Matras, Łukasz Ślusarczyk
Gang, Study on deformation of titanium thin-walled part in milling process, Journal of materials processing technology 209 (2009) 2788-2793
Rao, Error compensation in flexible end milling of tubular geometries, Journal of Materials Processing Technology 211 (2011) 24-34
Axinte, Coupled interaction of dynamic responses of tool and workpiece in thin wall milling, Journal of materials processing technology 213 (2013) 1565-1574
Bing, Finite element method analysis and control stratagem for machining deformation of thin-walled components, Journal of Materials Processing Technology 139 (2003) 332-336
Key Engineering Materials 496 (2011) 205-210
Rao, Error compensation in flexible end milling of tubular geometries, Journal of Materials Processing Technology 211 (2011) 24-34
Axinte, Coupled interaction of dynamic responses of tool and workpiece in thin wall milling, Journal of materials processing technology 213 (2013) 1565-1574
Bing, Finite element method analysis and control stratagem for machining deformation of thin-walled components, Journal of Materials Processing Technology 139 (2003) 332-336
Key Engineering Materials 496 (2011) 205-210
Online since: December 2014
Authors: Qiang Li, Liang Sheng Wu, Jian Feng Ma, Ji Kun Feng
Dynamic Characteristics Optimization of Joint Interface of Machine Tool Based on Porous Oily Materials
Ma Jianfeng1a, Li Qiang1b, Feng Jikun1, Wu Liangsheng1
1College of Mechanical Engineering and Applied Electronics Technology, Beijing University of Technology, Beijing, 100124, China
amajianfeng@bjut.edu.cn, bliqiang809@163.com
Keywords: Joint Surfaces; Porous Oily Material; Structral optimazation; Stiffness and Damping
Abstract: The joint interface plays a significant role in machine tools and other machineries.
Porous metallurgy materials is a new kind of materials developed within the last ten years, it has the properties of structural materials and functional materials.
Small proportion, good rigid and strength, vibration and sound absorption make it have good dynamic performance comparing with other conversional materials.
Acknowledgement This research was supported by National Natural Science Foundation of China (Grant No.51105006).
Journal of Mechanical Engineering Science, 1979(21): 25-32
Porous metallurgy materials is a new kind of materials developed within the last ten years, it has the properties of structural materials and functional materials.
Small proportion, good rigid and strength, vibration and sound absorption make it have good dynamic performance comparing with other conversional materials.
Acknowledgement This research was supported by National Natural Science Foundation of China (Grant No.51105006).
Journal of Mechanical Engineering Science, 1979(21): 25-32
Online since: October 2013
Authors: Ruo Yue Tang, Yan Zhou, Lu Wei Chen
Through the analysis of the result of GA-BP Model, the foundation established by the summary of relationship between the texture image and the objective material parameters can be used to forecast the emotional characters of the materials whose objective parameters are previously understood.
Introduction Currently material texture studied by Kansei Engineering is mainly reflected in: to investigating the comprehensive imagery of materials on people, and identifying factors that affect material texture image; exploring material texture image difference under various perceptions; building the relationship between subjective assessment and objective parameters of materials by mathematical methods, etc [1].
Based on the simulation results of the GA-BP materials texture image model, this paper studies on the laws of the influence resulted by the objective parameters on the subjective evaluation.
Based on this refined model, this study researches the influence law of the material parameters on the subjective evaluation of the materials.
Journal of Donghua University (Natural Science), 2011, 4: 030.
Introduction Currently material texture studied by Kansei Engineering is mainly reflected in: to investigating the comprehensive imagery of materials on people, and identifying factors that affect material texture image; exploring material texture image difference under various perceptions; building the relationship between subjective assessment and objective parameters of materials by mathematical methods, etc [1].
Based on the simulation results of the GA-BP materials texture image model, this paper studies on the laws of the influence resulted by the objective parameters on the subjective evaluation.
Based on this refined model, this study researches the influence law of the material parameters on the subjective evaluation of the materials.
Journal of Donghua University (Natural Science), 2011, 4: 030.
Online since: June 2016
Authors: A.G. Barbosa de Lima, C.M. Rufino Franco
Intermittent Drying of Porous Materials: A Review
CM.
Abstract: Hygroscopic materials can suffer variations in water content and temperature according to ambient air conditions.
For certain materials, much of the resistance to drying process resides in its interior.
The authors concluded that intermittent drying can be recommended, particularly for drying of materials which have a tendency to crack during drying, for example, ceramic and wood.
Pawłowski: Chemical Engineering Science. 66 (2011)1893-1905
Abstract: Hygroscopic materials can suffer variations in water content and temperature according to ambient air conditions.
For certain materials, much of the resistance to drying process resides in its interior.
The authors concluded that intermittent drying can be recommended, particularly for drying of materials which have a tendency to crack during drying, for example, ceramic and wood.
Pawłowski: Chemical Engineering Science. 66 (2011)1893-1905