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Online since: June 2010
Authors: Hui-Suk Yun
Bandyopadhyay: Materials Science and Engineering C,
Vol. 23 (2003), p. 611
[20] H.
Wu: Journal of Biomedical Materials Research B, Vol. 63 (2002), 271 [21] Y.
Lee: Journal of Biomedical Materials Research B, Vol. 63 (2002), 161 [24] S.
Shi: Journal of Biomedical Materials Research B.
Weinkamer: Progress in Materials Science, Vol. 52 (2007), p. 1263 [75] O.
Wu: Journal of Biomedical Materials Research B, Vol. 63 (2002), 271 [21] Y.
Lee: Journal of Biomedical Materials Research B, Vol. 63 (2002), 161 [24] S.
Shi: Journal of Biomedical Materials Research B.
Weinkamer: Progress in Materials Science, Vol. 52 (2007), p. 1263 [75] O.
Online since: January 2012
Authors: Chuan Sheng Wang, Xian Kui Zeng, Shuai An, Hui Guang Bian
Research on Optimization of the Process Parameters of Bio-packaging Materials by Response Surface Method
Xiankui Zeng1,2a, Shuai An2,b, Chuansheng Wang1,2c,
and Huiguang Bian1,2d
1Shandong Provincial Key Laboratory of Polymer Material Advanced Manufacturing Technology Qingdao University of Science & Technology, China
2College of Electromechanical Engineering, Qingdao University of Science & Technology, Qingdao, 266061, Shandong, China
azxk1967@163.com,banshuai4125@163.com ,cwcsmta@qust.edu.cn ,
dbianhuiguang@126.com
Keyword: biodegradable material, process parameters,response surface method
Abstract.
Introduction Recycled bio-packaging materials are a kind of biodegradable material developing rapidly in recent years.
Research and applications of this kind of good environmental recycled materials have become the development trend of the packaging industry in the 21st century [1,2].
The twin-screw extruder has two intermeshing screw rotating in the machine barrel, materials pass forward with the rotation of the screw conveyor, materials pass by the solid conveying, shearing, extrusion, melt transfer finally die extrusion through the mouth.
Experiments Materials and Equipments.
Introduction Recycled bio-packaging materials are a kind of biodegradable material developing rapidly in recent years.
Research and applications of this kind of good environmental recycled materials have become the development trend of the packaging industry in the 21st century [1,2].
The twin-screw extruder has two intermeshing screw rotating in the machine barrel, materials pass forward with the rotation of the screw conveyor, materials pass by the solid conveying, shearing, extrusion, melt transfer finally die extrusion through the mouth.
Experiments Materials and Equipments.
Online since: January 2014
Authors: Jun Ding, Ding Guo, Xiao Jun Zhang, Wen Jie Yuan, Hong Xi Zhu, Cheng Ji Deng
In refractory, forsterite is considered as one of the most efficient materials for critical production stages of modern iron and steel industry, namely, steelmaking and casting or ladle metallurgy [5-10].
Experimental Natural forsterite powders (44 μm, Yichang, China) and Na2CO3 (99.8% purity, AR) were used as raw materials.
Francis: Journal of Alloys and Compounds Vol. 113-115 (2010), p. 495 [5] R.
Markina: Aiche Journal Vol. 2832–2836 (11A) (1997), p. 43 [8] M.
West: Material Science and Technology Vol. 863–869 (9) (1995), p. 11 [10] Emad Mustafa, Nagy Khalil and Atef Gamal: Ceramics International Vol. 663–667 (2002), p. 28
Experimental Natural forsterite powders (44 μm, Yichang, China) and Na2CO3 (99.8% purity, AR) were used as raw materials.
Francis: Journal of Alloys and Compounds Vol. 113-115 (2010), p. 495 [5] R.
Markina: Aiche Journal Vol. 2832–2836 (11A) (1997), p. 43 [8] M.
West: Material Science and Technology Vol. 863–869 (9) (1995), p. 11 [10] Emad Mustafa, Nagy Khalil and Atef Gamal: Ceramics International Vol. 663–667 (2002), p. 28
Online since: August 2013
Authors: Hong Xia Jin, He Ping Yao, Jie Yu
However, social and economic development is supported by a large number of various types of raw materials.
Therefore, the resource-saving and environment friendly development of materials and their industry has becoming the material foundation for sustainable development of social and economic, eco-materials are also researched and universally applied, and project investment of eco-materials is gradually increasing.
Consequently, the model helps to disperse and control investment risk of eco-materials indurstry, and then advance the success rate of eco-materials indurstry investment.
Institute of Computer Science Warsaw University of Technology. 1993 [7] R.
International Journal of Pattern Recognization and artificial intelligence. 2005, 5: 663-680
Therefore, the resource-saving and environment friendly development of materials and their industry has becoming the material foundation for sustainable development of social and economic, eco-materials are also researched and universally applied, and project investment of eco-materials is gradually increasing.
Consequently, the model helps to disperse and control investment risk of eco-materials indurstry, and then advance the success rate of eco-materials indurstry investment.
Institute of Computer Science Warsaw University of Technology. 1993 [7] R.
International Journal of Pattern Recognization and artificial intelligence. 2005, 5: 663-680
Online since: March 2008
Authors: Zi Kun Wang, Feng Jin, Xiao Shan Cao
Influences of materials coefficients gradient variation patterns on cutoff-frequencies of SH-waves are
also revealed.
Tani: Journal of Applied Mechanics, Vol. 116 (1994), p. 440
Lam: Journal of Sound and Vibration, Vol. 236(2), (2000), p. 307
Wang: Smart Materials and Structures, Vol. 14 (2005), p. 137
Wang: International Journal of Engineering Science, Vol. 39 (2001), p. 1271.
Tani: Journal of Applied Mechanics, Vol. 116 (1994), p. 440
Lam: Journal of Sound and Vibration, Vol. 236(2), (2000), p. 307
Wang: Smart Materials and Structures, Vol. 14 (2005), p. 137
Wang: International Journal of Engineering Science, Vol. 39 (2001), p. 1271.
Online since: November 2011
Authors: Dimitris Tsarouchas
Qualitative and Quantitative Architecture Characterisation of Porous
Materials
Dimitris Tsarouchas1,a
University of Cambridge, Department of Engineering, Trumpington Street, Cambridge CB2 1PZ, UK
adt335@cam.ac.uk
Keywords: tomography, segmentation, thinning, deconvolution, heterogeneous materials
Abstract.
A method for extracting accurate microstructural information from heterogeneous materials using micro Computed Tomography (µCT) is presented.
Schjø dt Thomsen, Bridging the length-scale gap-short fibre composite material as an example, Journal of Materials Science 41 (20) (2006) 6737-6750
Delisee, Macroscopic thermal properties of real fibrous materials: Volume averaging method and 3D image analysis, International Journal Of Heat And Mass Transfer 49 (11-12) (2006) 1958-1973
Thoma, Numerical investigations of the elastic and plastic behaviour of an opencell aluminium foam, Materials Science and Engineering A 397 (1-2) (2005) 391-399
A method for extracting accurate microstructural information from heterogeneous materials using micro Computed Tomography (µCT) is presented.
Schjø dt Thomsen, Bridging the length-scale gap-short fibre composite material as an example, Journal of Materials Science 41 (20) (2006) 6737-6750
Delisee, Macroscopic thermal properties of real fibrous materials: Volume averaging method and 3D image analysis, International Journal Of Heat And Mass Transfer 49 (11-12) (2006) 1958-1973
Thoma, Numerical investigations of the elastic and plastic behaviour of an opencell aluminium foam, Materials Science and Engineering A 397 (1-2) (2005) 391-399
Online since: January 2019
Authors: Quan Jiang, Xin Xu
Journal of Sandwich Structures & Materials, 2017
Plastics Science and Technology, 2006, 34(5): 20-22
Bulletin of Sport Science, 2007, 15(09): 120-121
Science Journal Ubon Ratchathani University, 2010, 1(1)
Songklanakarin Journal of Science and Technology, 2005, 27(3).
Plastics Science and Technology, 2006, 34(5): 20-22
Bulletin of Sport Science, 2007, 15(09): 120-121
Science Journal Ubon Ratchathani University, 2010, 1(1)
Songklanakarin Journal of Science and Technology, 2005, 27(3).
Online since: July 2013
Authors: Bao Feng Li
Introduction
Nanometer material science is a frontier discipline, originated in the eighteen sixties research of colloidal particles.
Nanometer material science is to unite the interdisciplinary physics, colloid chemistry, coordination chemistry, chemical reaction kinetics, surface, interface and other disciplines, is an important part of modern material science, called in twenty-first Century for the material.
Journal of Jilin Architecture and Civil Engineering Institute, 2003:27 32 [3] Gleiter H.Nanostructured Materials [J].Japan, Prog Mater Sci, 1989, (33):223
Nanchang College Journal, 2002 ( 4 ) :74-76
New building material nanoparticle materials used in cement and other materials, 2003 (2):22 23
Nanometer material science is to unite the interdisciplinary physics, colloid chemistry, coordination chemistry, chemical reaction kinetics, surface, interface and other disciplines, is an important part of modern material science, called in twenty-first Century for the material.
Journal of Jilin Architecture and Civil Engineering Institute, 2003:27 32 [3] Gleiter H.Nanostructured Materials [J].Japan, Prog Mater Sci, 1989, (33):223
Nanchang College Journal, 2002 ( 4 ) :74-76
New building material nanoparticle materials used in cement and other materials, 2003 (2):22 23
Online since: December 2013
Authors: Dmitry V. Oreshkin, Marina Popova, Alexander V. Sandulyak, Anna A. Sandulyak
Applied Model of Magnetization of a Granulated Material
SANDULYAK Anna1a, SANDULYAK Alexander2b, ORESHKIN Dmitry2c, POPOVA Marina2d
1 PhD in Technical Sciences, Moscow State University of Civil Engineering (MGSU), 26 Yaroslavskoye chaussee, Moscow, 129337 Russian Federation,
2professor, MGSU
aanna.sandulyak@mail.ru, ba.sandulyak@mail.ru, cdmitrii_oreshkin@mail.ru, dpopovaMN@mgsu.ru
Keywords: Granulated ferromagnetic material; Magnetic permeability; Intensity of magnetic field
Abstract.
Introduction By using of porous magnetic materials (for example, in magnetic separators, filters) the working element of which is magnetized granulated material with system of branched porous [1-4], one of the important task is to obtain the information about field parameters within porous, between grains, the intensity h in particular.
Li: Micro-macro quantification of the internal structure of granular materials/ Journal of Engineering Mechanics (2009).
Matijevic: Magnetic filtration of submicroscopic particles through a packed bed of spheres / Journal of Applied Physics (1985).
Mucha: A magnetic filter with permanent magnets on the basis of rare earth / Journal of Magnetism and Magnetic Materials (2004).
Introduction By using of porous magnetic materials (for example, in magnetic separators, filters) the working element of which is magnetized granulated material with system of branched porous [1-4], one of the important task is to obtain the information about field parameters within porous, between grains, the intensity h in particular.
Li: Micro-macro quantification of the internal structure of granular materials/ Journal of Engineering Mechanics (2009).
Matijevic: Magnetic filtration of submicroscopic particles through a packed bed of spheres / Journal of Applied Physics (1985).
Mucha: A magnetic filter with permanent magnets on the basis of rare earth / Journal of Magnetism and Magnetic Materials (2004).
Online since: September 2011
Authors: Zhen Deng, Li Na Sun
The Carbon Fiber Composite Materials Application in Sports Equipment
Sun Lina1, a, Deng Zhen2,b
1Sports Department, North China Institute of Science and Technology, Beijing, China
2Sports Department, North China Institute of Science and Technology, Beijing, China
a sunlina1943@yahoo.com.cn, b dengzhen76@163.com
Keywords: carbon fiber, composite materials, sports equipment
Abstract: This paper introduces the carbon fiber and carbon fiber reinforced material performance, and expounds the molding process and introduces the current carbon fiber composite application in sports equipment.
1.
Traffic World (Built, Mechanical), 2005, (12) [2] HeFu, New Wear-resistant Materials - Carbon Fiber Reinforced Plastics [J].Journal of Lubricating and Sealing, 1981, (4) [3] HuiXueMei SongYiBin, WangXiaoJie, YouLiHong.
Materials Herald, 1995, (5) [6] HuZhenWei, WangXingYe.
Fiber Reinforced Materials.
Journal of National University of Defense Technology, 1984, (02) 窗体底端
Traffic World (Built, Mechanical), 2005, (12) [2] HeFu, New Wear-resistant Materials - Carbon Fiber Reinforced Plastics [J].Journal of Lubricating and Sealing, 1981, (4) [3] HuiXueMei SongYiBin, WangXiaoJie, YouLiHong.
Materials Herald, 1995, (5) [6] HuZhenWei, WangXingYe.
Fiber Reinforced Materials.
Journal of National University of Defense Technology, 1984, (02) 窗体底端