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Online since: October 2010
Authors: Fu You Wang, Li Chen, Jia Lu Li, Guo Li Zhang, Guang Wei Chen
Experimental
Materials.
Sunb: Composites Science and Technology Vol 63 (2003) P.907∼9173 [3] S.
Yates: Journal of Materials Science Letters Vol 4 (1985) P.203∼206 [5] Kortschot MT and Beaumont PWR: Compos Science and Technology Vol 39(1990)P.289∼301 [6] Wengui Wang, Xu Cheng, and Di Dai, In: Proceedings of 15th national conference on composite materials, Harbin, August; 2008. p.1348∼1350 [in Chinese]
[7] Zaiping Kuang , Di Dai and Wengui Wang, In: Proceedings of 15th national conference on composite materials, Harbin, August; 2008. p.552∼555 [in Chinese]
[8] Ling Wang, Rongpu Jia ,Wengui Wang, Di Dai , Guiqiong Jiao: Journal of Material s Science & Engineering Vol 27 (2009) p.104 [in Chinese]
Sunb: Composites Science and Technology Vol 63 (2003) P.907∼9173 [3] S.
Yates: Journal of Materials Science Letters Vol 4 (1985) P.203∼206 [5] Kortschot MT and Beaumont PWR: Compos Science and Technology Vol 39(1990)P.289∼301 [6] Wengui Wang, Xu Cheng, and Di Dai, In: Proceedings of 15th national conference on composite materials, Harbin, August; 2008. p.1348∼1350 [in Chinese]
[7] Zaiping Kuang , Di Dai and Wengui Wang, In: Proceedings of 15th national conference on composite materials, Harbin, August; 2008. p.552∼555 [in Chinese]
[8] Ling Wang, Rongpu Jia ,Wengui Wang, Di Dai , Guiqiong Jiao: Journal of Material s Science & Engineering Vol 27 (2009) p.104 [in Chinese]
Online since: March 2014
Authors: Liam Blunt, M.R. Bache, Dennise Tanoko Ardi, Yue Gang Li, Kelvin Hau Kong Chan
The Role of Surface Topography on Fatigue Behaviour
of Nickel Based Superalloys
D.T.Ardi1, a, Y.G.Li2, b, K.H.K.Chan3, c, L.Blunt4, d and M.R.Bache1, e *
1Institute of Structural Materials, College of Engineering, Swansea University, Singleton Park, Swansea, SA2 8PP, United Kingdom.
2Rolls-Royce plc, P.O.
Yukitaka, Metal Fatigue, Elsevier Science Ltd: Oxford, 2002, pp. 305-320
Soady, Life Assessment Methodologies Incorporating Shot Peening Processes Effects: Mechanistic Consideration of Residual Stresses and Strain Hardening Part 1: Effect of shot peening on fatigue resistance, Material Science and Technology 29 (2013), 637-651
Fatemi, Surface Finish Effects on Fatigue Behaviour of Forged Steel, International Journal of Fatigue 36 (2012), 130-145
Fluck, The Influence of Surface Roughness on Fatigue Life and Scatter of Test Results of Two Steels, Proceedings of American Society for Testing Materials 51 (1951), 584-592.
Yukitaka, Metal Fatigue, Elsevier Science Ltd: Oxford, 2002, pp. 305-320
Soady, Life Assessment Methodologies Incorporating Shot Peening Processes Effects: Mechanistic Consideration of Residual Stresses and Strain Hardening Part 1: Effect of shot peening on fatigue resistance, Material Science and Technology 29 (2013), 637-651
Fatemi, Surface Finish Effects on Fatigue Behaviour of Forged Steel, International Journal of Fatigue 36 (2012), 130-145
Fluck, The Influence of Surface Roughness on Fatigue Life and Scatter of Test Results of Two Steels, Proceedings of American Society for Testing Materials 51 (1951), 584-592.
Online since: November 2014
Authors: Peng Liu, Qi Tang, Jian Xun Tang
One is starting time limit caused by material supply constraint, namely, the batch production can start only when there is material.
One is priority of material supply represented by (Ci, Sj).
Summary This work is supported by National Natural Science Foundation of China under Grant (71001074); Humanity Social Science Youth foundation of Ministry of Education of China under Grant (13YJC630146); Soft Science Project of Shenyang Science and Technology Bureau ( F13-315-5-29).
Ghafari, R.Sahraeian: International Journal of Industrial Engineering and Production Research Vol. 25(1)(2014), p. 55-63
[6]D.Shabtay: European Journal of Operational Research Vol. 233(1)(2014), p. 64-74.
One is priority of material supply represented by (Ci, Sj).
Summary This work is supported by National Natural Science Foundation of China under Grant (71001074); Humanity Social Science Youth foundation of Ministry of Education of China under Grant (13YJC630146); Soft Science Project of Shenyang Science and Technology Bureau ( F13-315-5-29).
Ghafari, R.Sahraeian: International Journal of Industrial Engineering and Production Research Vol. 25(1)(2014), p. 55-63
[6]D.Shabtay: European Journal of Operational Research Vol. 233(1)(2014), p. 64-74.
Applications of Optical Path Length Compensation Technology for High Power CO2 Laser Cutting Process
Online since: May 2014
Authors: Zhao Chi Chen, Liang Ju Pan
In this paper, metal materials cutting through the wavelength of 10.6μm,CO2 laser with the optical path length compensation technique with output power 4000W.
The small area and heat generated by high energy density characteristic of the entire material to reach a small localized effect of cutting as show in Fig.2.
[11] J Wang, W.C.K Wong, CO2 laser cutting of metallic coated sheet steels, Journal of Materials Processing Technology, Vol. 95, Issues 1-3, pp. 164-168, 1999
López, CO2 laser cutting of advanced high strength steels (AHSS), Applied Surface Science, Vol. 242, Issues 3-4, pp. 362-368, 2005
[13] Norikazu Tabata, Shigenori Yagi, Masao Hishii, Present and future of lasers for fine cutting of metal plate, Journal of Materials Processing Technology, Vol. 62, Issue 4, pp. 209-314, 1996.
The small area and heat generated by high energy density characteristic of the entire material to reach a small localized effect of cutting as show in Fig.2.
[11] J Wang, W.C.K Wong, CO2 laser cutting of metallic coated sheet steels, Journal of Materials Processing Technology, Vol. 95, Issues 1-3, pp. 164-168, 1999
López, CO2 laser cutting of advanced high strength steels (AHSS), Applied Surface Science, Vol. 242, Issues 3-4, pp. 362-368, 2005
[13] Norikazu Tabata, Shigenori Yagi, Masao Hishii, Present and future of lasers for fine cutting of metal plate, Journal of Materials Processing Technology, Vol. 62, Issue 4, pp. 209-314, 1996.
Online since: July 2012
Authors: Zhen Qing Hou, Li Hua Shen, Fei Cui, Li Ya Xie, Yi Xiao Wang, Qi Qing Zhang, Yun Feng Yi
Preparation and Characterization of Folate-targeted Chitosan Nanoparticles loaded With Hydroxycamptothecin
Yixiao Wang1a, Zhenqing Hou1b*, Fei Cui1c, Lihua Shen1d, Liya Xie2e*,
QiQing Zhang1f, Yunfeng Yi3g
1Research center of biomedical engineering, Department of biomaterials, college of materials, Xiamen University, Xiamen, 361005, P.
Acknowledgement This work was founded by Xiamen Science and Technology project (3502Z20114007), and The Medical Science and Technology Innovation Project of Nanjing Military Command (10MA078, 2010).
Jeong: Colloid and Polymer Science.
Leroux: Journal of Controlled Release.
Sze, andM.Q.Zhang: Journal of Biomedical Materials Research Part A.
Acknowledgement This work was founded by Xiamen Science and Technology project (3502Z20114007), and The Medical Science and Technology Innovation Project of Nanjing Military Command (10MA078, 2010).
Jeong: Colloid and Polymer Science.
Leroux: Journal of Controlled Release.
Sze, andM.Q.Zhang: Journal of Biomedical Materials Research Part A.
Online since: June 2014
Authors: Ling Dong Zhang, Yuan Tao Sun, Xian Rong Qin
A series of parameters (such as jaw width, jaw corner, calculation size of bulk material, maximum opening, weight of grab body, rated hoisting weight) are input into formula, so evaluate whether the crawl capacity can meet needs is evaluated.
Fig.6 The design flow diagram of new grab After similar case is found in accordance with grab type, material properties and hoisting weight, Grab volume is one key parameter in design for crawl ability to meet demands.
Acknowledgements This research was supported by the National Natural Science Foundation of China (Project: 51205292) and The science and Technology Committee of Qingpu District (Project: 20130103) .
Journal of University of Science and Technology Beijing.
JOURNAL of WUT (INFORMATION & MANAGEMENT ENGINEERING).
Fig.6 The design flow diagram of new grab After similar case is found in accordance with grab type, material properties and hoisting weight, Grab volume is one key parameter in design for crawl ability to meet demands.
Acknowledgements This research was supported by the National Natural Science Foundation of China (Project: 51205292) and The science and Technology Committee of Qingpu District (Project: 20130103) .
Journal of University of Science and Technology Beijing.
JOURNAL of WUT (INFORMATION & MANAGEMENT ENGINEERING).
Online since: October 2014
Authors: Sai Ying Xi, Yi Bo Wang, Yi Huang, Han Dong Xu, Xiong Xia
Advanced Materials Research,Vol. 772 (2013)
[2] Feng Shi, Experimental research on load transfer mechanism of pretensioned high strength spun concrete piles[J].
Chinese Journal of Geotechnical Engineering, 2004,26(1):95-99.
Applied Mechanics and Materials, Vols. 256-259 (2013) [4] Song-hua Shi, The Analysis of the Vertical Bearing Behavior of Pretensioned Spun High Strength Concrete Piles underPressure [D].
Wuhan University of Science and Technology, 2006.
Journal of transport science and engineering, 2011, 27(3).
Chinese Journal of Geotechnical Engineering, 2004,26(1):95-99.
Applied Mechanics and Materials, Vols. 256-259 (2013) [4] Song-hua Shi, The Analysis of the Vertical Bearing Behavior of Pretensioned Spun High Strength Concrete Piles underPressure [D].
Wuhan University of Science and Technology, 2006.
Journal of transport science and engineering, 2011, 27(3).
Online since: December 2011
Authors: Chao Wang, Yi Sheng Zhang, Bin Zhu, Hong Qing Li, Xiao Wei Tian, Liang Wang
Material and experiment methods.
E, A review on hot stamping, Journal of Materials Processing Technology. 15(2010) 2103-2118
Z., Yisheng Zhang, Jie Shi,Han Dong, Hot-Stamping Process Simulation and Optimize Research for Collision Beam of Automobile Door, Advanced Materials Research. 3(2011) 201 - 203
Analysis of microstructure and mechanical properties of different high strength carbon steels after hot stamping, Journal of Materials Processing Technology. 211(2011) 1117-1125
[6] Zhu, B., Zhang, Y., Li, J., Wang, H., Ye, Z, Simulation research of hot stamping and phase transition of automotive high strength steel, Materials Research Innovations. 15(2011) 426-430
E, A review on hot stamping, Journal of Materials Processing Technology. 15(2010) 2103-2118
Z., Yisheng Zhang, Jie Shi,Han Dong, Hot-Stamping Process Simulation and Optimize Research for Collision Beam of Automobile Door, Advanced Materials Research. 3(2011) 201 - 203
Analysis of microstructure and mechanical properties of different high strength carbon steels after hot stamping, Journal of Materials Processing Technology. 211(2011) 1117-1125
[6] Zhu, B., Zhang, Y., Li, J., Wang, H., Ye, Z, Simulation research of hot stamping and phase transition of automotive high strength steel, Materials Research Innovations. 15(2011) 426-430
Online since: July 2011
Authors: Qiu Sheng She, Xun Tian, Yin Lei Xue, Guan Jun Yang, Zhao Hui Xie
Applications in healthcare
Along with the development of biochemical and medicine, chitosan is widely used in healthcare as a class of emerging biomedical materials,
Chitosan has anticoagulant activity.
These Decorate materials have the function of natural skin's, it not only makes the wound against the bacterial infection, but also can penetrate air and moisture, promote wound healing.
Market situation and prospect Chitosan and its derivatives is a natural polymer materials, more and more attention are drawn by people because of its unique performance, its application field also growing.
Journal of functional polymer, 1999, (12) : 197-202.
Journal of functional polymer, 1997, 10 (3) : 328-322.
These Decorate materials have the function of natural skin's, it not only makes the wound against the bacterial infection, but also can penetrate air and moisture, promote wound healing.
Market situation and prospect Chitosan and its derivatives is a natural polymer materials, more and more attention are drawn by people because of its unique performance, its application field also growing.
Journal of functional polymer, 1999, (12) : 197-202.
Journal of functional polymer, 1997, 10 (3) : 328-322.
Online since: June 2009
Authors: Suryendra D. Sherman, Arjan Quist, Paul Hansma
Materials and Method
Materials.
The same cantilever was used to compare mechanical properties of all materials.
My theory as to why rougher materials are less sticky than smoother materials is this: One of the forces in the universe is the force of adhesion, much like gravity, which acts upon all objects.
Rougher materials are less sticky then smoother materials because when rough materials contact other objects, the points at which they touch - or the contact area -, is less than the contact area between smooth materials and other objects.
Journal of Biomedical Materials Research Part A [13] Quist, A.P., Rhee, S.K., Lin, H, Lal, R.
The same cantilever was used to compare mechanical properties of all materials.
My theory as to why rougher materials are less sticky than smoother materials is this: One of the forces in the universe is the force of adhesion, much like gravity, which acts upon all objects.
Rougher materials are less sticky then smoother materials because when rough materials contact other objects, the points at which they touch - or the contact area -, is less than the contact area between smooth materials and other objects.
Journal of Biomedical Materials Research Part A [13] Quist, A.P., Rhee, S.K., Lin, H, Lal, R.