Search results

Lindstrom, A simple concept to achieve a rational chip form, // Journal of Materials Processing Technology, 54 (1995) 12-16
Shirakashi, Chip breaking analysis from the view point of the optimum cutting tool geometry design, Journal of Materials Processing Technology, 62 (1996) 345-351
Strenkowski, Material damage based model for predicting chip breakability, Journal of Manufacturing Science and Engineering, 119 (1997) 675-680
Peklenik, Chip curl, chip breaking and chip control of the difficult-to-cut materials, Ann.
Chang, Assessment of chip-breaking characteristics using new chip-breaking index, Journal of Materials Processing Technology, 173 (2006) 166-171

It is used to improve properties of different materials and constructions or to produce advanced properties of these materials.
Hollow aluminum and silica microsphere is non-reactive microaddition that determine its advantages in producing ecologically friendly materials and in providing materials with additional properties without changing the basic.
Modulus of viscosity is one of the main dynamic characteristics of fill finely divided materials that determine materials and constructions strength properties including the capability to form a rigid frame.
Mun, Studying physico-mechanical properties of cement pastes in presences of blend polymer as chemical admixtures, International Journal of Basic and Applied science 4(3) (2015) 297-302
Kaddo, Building materials and products, Moscow, High education, 2001

Journal of Tongji University, 2008, 11(5) 5-8, in Chinese
Research on phase change energy storage wall materials[J].
Journal of Jiangsu University, 2011, 12 (3) 39-42, in Chinese
Journal of Hunan University, 2011, 38 (4), 11-16, in Chinese
New Building Materials, 2011，87（2），87-92, in Chinese.

Application of artificial neural network to forecast the tensile fatigue life of carbon material Xiaoling Liaoa , Wenfeng Xub , Zhiqiang Gaoc Chemistry and Environment Science Department, Chongqing University of Arts and Sciences, Chongqing 402160, China a zxc_228@163.com; b xwf_228@163.com; cgzq@cqwu.net Keywords: Artificial neural network, carbon materials, tensile fatigue life, forecast Abstract: Artificial neural network (ANN) is widely applied to the modeling of complex systems, which has become a common modeling method in the study of materials science.
As the ideal candidates for high temperature structural materials, carbon materials are no doubt involved in fatigue loads, so the study on forecasting fatigue life is meaningful.
As preferred high-temperature structural materials, the potential applications for carbon materials are bound to involve fatigue loading.
At the same time, artificial neural network (ANN) is widely applied to the modeling of complex systems, and now it has become a common modeling method in the study of materials science, but the reports using ANN to forecast the fatigue life of material are few.
Journal of Materials Processing Technology, 2002,(122):196-200 Cycle/n Applied stress/MPa �R/Ro/% Fig.4 The network trainrecord of forecast Import Adjusting error Connect error of every nerve cell Target value Export Fig.3 The study sketch of ANN Compare

The influence of structure control techniques on the electrochemical performance of PANI electrode materials LI Jing1,2, Huang-ke long1, Lai-yan qing1, Zhao- xiao dong1 1School of chemistry Science and Engineering, Central South University, Changsha city ,Hunan province, 4100831, 2School of Materials Science and Engineering, Southwest University of science and technology, Mianyang city, Si chuan province , 621010 Correspondence: Li Jing ,PhD Tel:+86-015983676338; E-mail: csu_lijing@126.com Supported by Central south university postdoctoral Foundation (09hn1653) Key words : structure control ； PANI electrode materials ；specific capacitance ；cycalability；supercapacitor.
For PANI-S`electrode materials, favorable nano-sized fiber structure is in favour of the contact between the electrode materials and electrolyte.
Journal of Power Sources, 2009, 194( 2):581-587
Journal of electroanalytical chemistry, 2000, 491(1-2):9-21
Journal of Power Sources, 2004, 176( 2):241-245

Chigrin1,c 1FSBES Institute of materials technology of Khabarovsk centre of FEC the Russian Academy of Sciences, Khabarovsk, 153 Tikhookeanskya street, Russia akonevts@narod.ru; bnikola1960@mail.ru; cpal_chig@mail.ru Keywords: Electrospark alloy building, gradient electrode materials, roughness.
Yamamoto, High resolution microscopy study in Cr3C2-doped WC-Co, Journal of material science. 36 (2001) 3885 – 3890
Spriggs, A History of Fine Grained Hardmetal, International Journal of Refractory Metals & Hard Materials. 13 (1995) 241-255
Wahnstrom, Strength and reinforcement of interfaces in cemented carbides, International Journal of Refractory Metals & Hard Materials. 24 (2006) 80–88
Journal of Refractory Metals & Hard Materials. 27 (2009) 817–822

At present, the most applications in surface modification of materials is type I collagen, future research will be a variety of surface modification of materials for composite materials, which will play complementary roles, as well as gene therapy and the development of nanometer materials, it will become a hot issue in the field of bone tissue engineering.
Therefore, selecting suitable materials for surface modification, targeted to the matrix scaffold materials for surface modification and surface modification of material surface, improve the cell adhesion and promotes cell proliferation is the scaffold materials for bone tissue engineering research important content.
The importance of bone tissue engineering materials for surface modification The bone tissue can be regarded as a cell of the multiphase composite material from the point of view of material science and engineering.
Ideal surface modification should take into consideration the surface topology, specific identification, hydrophilic and hydrophobic protein adsorption equilibrium, and other aspects of functional new tissues can be.Therefore, surface modification of biomaterials is a complex systems engineering, needs both material science and biological science needs, realize optimization.At present, most applications in surface modification of materials is of type I collagen, future research will be a variety of surface modification of materials for composite materials to play complementary roles, as well as gene therapy and the development of nanometer materials will become a hot issue in the field of bone tissue engineering.
Journal of Orthopaedic Research, Volume 20, Issue 5, September 2002, Pages 1009-1015.

Core Materials of Vacuum Insulation Panels: A Review and Beyond Chengdong Li1, a, Zhaofeng Chen1,b, Wangping Wu1,c, Zhou Chen1,d, Jieming Zhou2,e, Xueyu Cheng2,f and Dan Su1, g 1College of Material Science and Technology, Nanjing University of Aeronautics and Astronautics, Nanjing 210016, P.R.
Song: International Journal of Heat and Mass Transfer Vol. 52 (2009), p. 5525 [4] R.
Chu: International Journal of Heat and Mass Transfer Vol. 52 (2009), p. 3084 [6] S.
Matsuoka: Journal of materials processing technology Vol. 209 (2009), p. 271 [14] L.F.
Lackey: Journal of Cold Regions Engineering Vol. 22 (2008), p. 103

Tian: Chinese Journal of Applied Mechanics.
Liu: Chinese Journal of Material Research.
Ding, et al: Materials Science and Technology.
Lu: Journal of Mechanical Strength.
Park: Materials Science and Engineering A.

Cellulose-based films have been used as semiconductor and optical materials, ultraviolet absorption materials, medical target therapy, and food packing materials.
Ma, et al.: Journal of Materials Chemistry Vol. 22 (2012), p. 22467
Liu: Journal of Cellulose Science and Technology Vol. 2 (2011), p. 12
Li, et al.: Journal of Applied Polymer Science Vol. 111 (2009), p. 2477
Xia: Journal of Polymer Science Part B: Polymer Physics Vol. 42 (2004), p. 367.