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Online since: June 2014
Authors: Xiao Liang Miao, Hong Mei Zhuang, Zhi Qiang Zhao, Lei Zhang
Exercise training or competition in anterior cruciate ligament of knee joint injury, autologous tissue, allograft materials, artificial materials and tissue engineering ACL repair and reconstruction is often used.
These materials can repair and reconstruction of anterior cruciate ligament, the choice of materials involves many factors such as stability of complications after anterior cruciate ligament reconstruction and postoperative.
As the repair of anterior cruciate ligament reconstruction effect and substitute materials are closely related, therefore is also increasing in the study of alternative materials, field of biological engineering and materials science.
Journal of Biomechanics, Volume 44, Issue 5, 15 March 2011, Pages 924-929
Arthroscopy: The Journal of Arthroscopic & Related Surgery, Volume 20, Issue 5, May–June 2004, Pages 528-531
These materials can repair and reconstruction of anterior cruciate ligament, the choice of materials involves many factors such as stability of complications after anterior cruciate ligament reconstruction and postoperative.
As the repair of anterior cruciate ligament reconstruction effect and substitute materials are closely related, therefore is also increasing in the study of alternative materials, field of biological engineering and materials science.
Journal of Biomechanics, Volume 44, Issue 5, 15 March 2011, Pages 924-929
Arthroscopy: The Journal of Arthroscopic & Related Surgery, Volume 20, Issue 5, May–June 2004, Pages 528-531
Online since: November 2014
Authors: Jing Li Feng, Zhen Hua Guo, Lei Zhang, Hai Zhu, Shu Xian Zhang, Jing Guo
Preparation of microbial flocculant/sepiolite fibers water treatment materials.Put MBFP1 and modified sepiolite fibers according to a certain mass ratio in a beaker.
Zhang : Biochemical Engineering Journal, Vol.27(2005), p1 [4] Q.
Zeng : Chemical Engineering Journal, Vol.191(2012), p269 [6] A.
Guzmán : Applied Clay Science, Vol.95(2014), p265 [7] H.
Liu : International Journal of Mining Science and Technology, Vol.23 (2013), p521 [12] Y.
Zhang : Biochemical Engineering Journal, Vol.27(2005), p1 [4] Q.
Zeng : Chemical Engineering Journal, Vol.191(2012), p269 [6] A.
Guzmán : Applied Clay Science, Vol.95(2014), p265 [7] H.
Liu : International Journal of Mining Science and Technology, Vol.23 (2013), p521 [12] Y.
Online since: September 2018
Authors: Yu Lin Deng, Jin Sheng Feng, Xinzhu Pang, Di Wang, Bo Li, Xiao Qiong Li, Rong Ji Dai
Materials and Methods
Reagents and Materials.
Property Examination of the Thermal-responsive Materials.
Properties of silica materials are examined by HPLC columns.
ACS Applied Materials & Interfaces, 2015, 7(21): 11155-11164
Journal of Materials Chemistry B, 2015, 3(12): 2505-2515
Property Examination of the Thermal-responsive Materials.
Properties of silica materials are examined by HPLC columns.
ACS Applied Materials & Interfaces, 2015, 7(21): 11155-11164
Journal of Materials Chemistry B, 2015, 3(12): 2505-2515
Online since: November 2011
Authors: Wei Hua Li, Li Jun Wang, Jin Feng Mao, Lu Yan Sui
Fig.1 Heat storage materials with expanded graphite
Fig.2 Scanning electron microscope photograph of the expanded graphite
After differential scanning calorimetry, the transition temperature of phase change materials with expanded graphite is 58.544 ℃, phase change enthalpy is 307.762 kJ/kg.
The transition temperature of phase change materials without expanded graphite is 63.71 ℃, and the phase change enthalpy is 311.997 kJ/kg.
The reason is that the expanded graphite has a high thermal conductivity and heat storage and release rate of the composite phase change materials is improved, in transfer process.
Phase change materials were made into a square plate, size 260 mm× 260 mm× 20 mm(Fig. 7).
International Journal of Heat and Mass Transfer.Vol.44(2001),p.2727 [2] Khan M A and Rohatgi P K:J.
The transition temperature of phase change materials without expanded graphite is 63.71 ℃, and the phase change enthalpy is 311.997 kJ/kg.
The reason is that the expanded graphite has a high thermal conductivity and heat storage and release rate of the composite phase change materials is improved, in transfer process.
Phase change materials were made into a square plate, size 260 mm× 260 mm× 20 mm(Fig. 7).
International Journal of Heat and Mass Transfer.Vol.44(2001),p.2727 [2] Khan M A and Rohatgi P K:J.
Online since: June 2013
Authors: Nang Shu Yang, Chen Yuan Huang, Meng Chong Hou
Leading time of ordering materials is not considered.
2.
Backorders of materials and final products are not allowed. 5.
Quality of materials supplied by suppliers is good. 6.
These re-worked materials can be regarded as new sources of materials, and controlled by a joint replenishment system. 2.
Management Science. 31(4), p. 436-444. (1974) [3] Goyal, S.
Backorders of materials and final products are not allowed. 5.
Quality of materials supplied by suppliers is good. 6.
These re-worked materials can be regarded as new sources of materials, and controlled by a joint replenishment system. 2.
Management Science. 31(4), p. 436-444. (1974) [3] Goyal, S.
Online since: June 2012
Authors: Li Yang, Cui Lian Guo, Yang Zhou, Ying Yang, Yong Qiang Cheng
Research Progress of Materials and Fabrication Technologies of Microfluidic Chip
Cheng Yongqiang1, a, Yang Li1, Guo Cuilian1, Zhou Yang1, Yang Ying1
1Shandong Provincial Key Laboratory of Ocean Environment Monitoring Technology, Shandong Academy of Sciences Institute of Oceanographic Instrumentation, Qing Dao, 266001, China
achengyongqiang6@163.com
Keywords: Microfluidic chip, Materials, Fabrication technologies
Abstract.
Injection molding process is almost used to any thermoplastic materials[17].
Fang: Chinese Journal of Analytical Chemisty 31 (2003), P. 116 [11] D.
Whitesides: Advanced Materials 8 (1996), P. 917 [23] D.
Sibbett: Acs Applied Materials & Interfaces 1 (2009), P. 124 [33] K.
Injection molding process is almost used to any thermoplastic materials[17].
Fang: Chinese Journal of Analytical Chemisty 31 (2003), P. 116 [11] D.
Whitesides: Advanced Materials 8 (1996), P. 917 [23] D.
Sibbett: Acs Applied Materials & Interfaces 1 (2009), P. 124 [33] K.
Online since: July 2013
Authors: Long Su, Wan Mei Sui, Yu Jie Liu
The Synthesis and the thermal Properties of CaZr4(PO4)6 materials
SU Long1, a,SUI Wanmei2,b ,LIU Yujie3,c
1,2,3College of Physics Science, Institute of Inorganic Materials Engineering,Qingdao University, 308,Ningxia Rd., Qingdao,266071,China
asulong1314happy@163.com, bcorresponding author,wlxswm@qdu.edu.cn,
clunaryoga@163.com
Keywords: Ceramics; Solid phase method; CaZr4(PO4)6; Thermal expansion coefficients
Abstract.CaZr4(PO4)6 ceramics were prepared with solid reaction of two-steps method.
In the current researches, CaZr4(PO4)6 materials has been synthesized by sol-gel method, although the process greatly improves the sintering behavior of the material[3], the material prepared with this process was relatively expensive due to the precursor materials and complex processing required.
Results and discussion Morphology and phase structure of the materials.
Limaye,D K.Agrawal,R Roy, et al.Synthesis, sintering and thermal expansion of Ca1-xSrxZr4P6O24—an ultra-low thermal expansion ceramic system [J].Journal of Materials Science,1991,26:93-98 [4] V.Srikanth,X.Subbarao,D.Agrawal,et al.Thermal expansion anisotropy and acoustic emission of NaZr2(PO4)3 family ceramics[J].Am.Ceram.Soc,1991,74(2):365-368 [5] L.Bois,M.J,Guittet,F.Carrot,et a1.Preliminary results on the leaching process of phosphate ceramics potential hosts for actinide immobilization[J].Journal of Nuclear Materials.2001,297: 129-137 [6] C.S.Yoon,C.K.Kim,T.Y.Byun.Synthesis and thermal expansion behavior of liquid phase sintered CaZr4(PO4)6–Li2O[J].Materials Chemistry and Physics, 2002,77:930–937 [7] N.Chakraborty, D.
Journal of the European Ceramic Society,2005,25:1885–1893 [8] S.Y.Limaye,D.K.Agrawal,R.Roy,et al.Synthesis,sintering and thermal expansion of Ca1-xSrxZr4P6O24—an ultra-low thermal expansion ceramic system[J].Journal of Materials Science,1991,26:93-98
In the current researches, CaZr4(PO4)6 materials has been synthesized by sol-gel method, although the process greatly improves the sintering behavior of the material[3], the material prepared with this process was relatively expensive due to the precursor materials and complex processing required.
Results and discussion Morphology and phase structure of the materials.
Limaye,D K.Agrawal,R Roy, et al.Synthesis, sintering and thermal expansion of Ca1-xSrxZr4P6O24—an ultra-low thermal expansion ceramic system [J].Journal of Materials Science,1991,26:93-98 [4] V.Srikanth,X.Subbarao,D.Agrawal,et al.Thermal expansion anisotropy and acoustic emission of NaZr2(PO4)3 family ceramics[J].Am.Ceram.Soc,1991,74(2):365-368 [5] L.Bois,M.J,Guittet,F.Carrot,et a1.Preliminary results on the leaching process of phosphate ceramics potential hosts for actinide immobilization[J].Journal of Nuclear Materials.2001,297: 129-137 [6] C.S.Yoon,C.K.Kim,T.Y.Byun.Synthesis and thermal expansion behavior of liquid phase sintered CaZr4(PO4)6–Li2O[J].Materials Chemistry and Physics, 2002,77:930–937 [7] N.Chakraborty, D.
Journal of the European Ceramic Society,2005,25:1885–1893 [8] S.Y.Limaye,D.K.Agrawal,R.Roy,et al.Synthesis,sintering and thermal expansion of Ca1-xSrxZr4P6O24—an ultra-low thermal expansion ceramic system[J].Journal of Materials Science,1991,26:93-98
Numerical Investigation for Fracture Saturation in Multilayer Sedimentary Rock in Unsymmetrical Case
Online since: May 2013
Authors: Feng Shan Han, Li Song
Spacing of fractures in a multilayer materials system is an important research topic in the geosciences[1-5], civil engineering and material sciences [6-10].
Conclusions Fracture saturation in multilayer materials system such as fuction graded material, bedded sedimentary rocks is an important research topic.
American Journal of Science, vol308, (2008),p49-72 [7] Garrett K.
Journal of Material Science, Vol.12, (1977). p.157-168 [8] Hong A.
Journal of Material Science, Vol. 13, (1978).
Conclusions Fracture saturation in multilayer materials system such as fuction graded material, bedded sedimentary rocks is an important research topic.
American Journal of Science, vol308, (2008),p49-72 [7] Garrett K.
Journal of Material Science, Vol.12, (1977). p.157-168 [8] Hong A.
Journal of Material Science, Vol. 13, (1978).
Online since: September 2013
Authors: Zhi Yong Yang, Yu Zhou
To deal with the high cost and targeted of system in in-transit hazardous materials monitoring, in-transit hazardous materials system and customized vehicle terminal were proposed.
The software design is modular, according to the types of the hazardous materials.
Real-time tracking and monitoring of in-transit hazardous materials.
Presutto, Results of the MITRA project: Monitoring and intervention for the transportation of dangerous goods, Journal of Hazardous materials, Vol. 152, No. 2(2008), p. 516-526
Wu, Design and Development of Monitoring and Early-warning System for Hazardous Chemicals Transport Vehicles, China Safety Science Journal, Vol.18, No. 5(2008), p. 109-115.
The software design is modular, according to the types of the hazardous materials.
Real-time tracking and monitoring of in-transit hazardous materials.
Presutto, Results of the MITRA project: Monitoring and intervention for the transportation of dangerous goods, Journal of Hazardous materials, Vol. 152, No. 2(2008), p. 516-526
Wu, Design and Development of Monitoring and Early-warning System for Hazardous Chemicals Transport Vehicles, China Safety Science Journal, Vol.18, No. 5(2008), p. 109-115.
Online since: October 2014
Authors: Xin Rong Li, Chang Sheng Liu, Sui Yuan Chen, Yu Ning Bi, Daniel Wellburn, Jing Liang
Angerer: Composites Science and Technology Vol. 70(2010), p.2228-2236
[3] J.C .Xu, H.
Shen: Journal of Composite Materials Vol. 45(2011), p.2567-2571 [6] K.
Sun: Chinese Journal of Space Science 2009; 29(1):6-9
Liu: Journal of Composite Materials Vol. 45(2011), p.51-63 [9] S.Y.
Liu: Journal of Composite Materials Vol. 48(2014), p. 1561-1574
Shen: Journal of Composite Materials Vol. 45(2011), p.2567-2571 [6] K.
Sun: Chinese Journal of Space Science 2009; 29(1):6-9
Liu: Journal of Composite Materials Vol. 45(2011), p.51-63 [9] S.Y.
Liu: Journal of Composite Materials Vol. 48(2014), p. 1561-1574