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Online since: May 2016
Authors: Dun Wen Zuo, Hong Feng Wang, J.L. Wang, W.W. Song, Q.Q. Zhu
Kokabi, Materials Science and Engineering A, 543 (2012)243-248
Wang, et al, Journal of Functional Materials, 11 (2010)2029-2033
Murugan, et al, Materials and Design, (40)(2012)7-16
Journal of Functional Materials, 10(2012)1327-1331
Materials Science and Engineering A, 528 (2011)4683-4689
Wang, et al, Journal of Functional Materials, 11 (2010)2029-2033
Murugan, et al, Materials and Design, (40)(2012)7-16
Journal of Functional Materials, 10(2012)1327-1331
Materials Science and Engineering A, 528 (2011)4683-4689
Online since: August 2009
Authors: Zhao Hui Deng, Gao Feng Zhang, Yuan Qiang Tan, Bi Zhang
Taplin: Journal of Materials Processing
Technology, Vol.33 (1992), pp.453-468
Lau, Journal of Materials Processing Technology, Vol. 102 (2000), pp.25-29
Sklad: Journal of Materials Processing Technology, Vol.83 (1998), pp.151-159
Davim: Journal of Materials Processing Technology, Vol.132 (2003), pp.340-344
Heath: Journal of Materials Processing Technology, Vol.116 (2001), pp.30-38
Lau, Journal of Materials Processing Technology, Vol. 102 (2000), pp.25-29
Sklad: Journal of Materials Processing Technology, Vol.83 (1998), pp.151-159
Davim: Journal of Materials Processing Technology, Vol.132 (2003), pp.340-344
Heath: Journal of Materials Processing Technology, Vol.116 (2001), pp.30-38
Online since: June 2014
Authors: Lei Chen, Yi Lin She
Most of the research results have shown that biochar significantly decrease N2O emissions, but the effect is dependent on feedstock materials, adding rates and soils [1].
Science in China.
Journal of Geophysical Research, 2008. 113: G02027
Journal of Environmental Quality, 2012. 41(4): 1193-202
Journal of Agro-Environment Science, 2011. 30(4):812~816
Science in China.
Journal of Geophysical Research, 2008. 113: G02027
Journal of Environmental Quality, 2012. 41(4): 1193-202
Journal of Agro-Environment Science, 2011. 30(4):812~816
Online since: March 2015
Authors: Quan Jiang, Ying Wang, Ping Zhao, Li Ping Ma, Chun Zhi Zhao
How to select building materials to be more conducive to building energy conservation?
Direct (1) Indirect Where, EDirect- the energy contained in a unit product of a building material, also known as direct energy consumption, MJ/kg building materials; EIndirect-building operation energy saving brought in the service process of a unit of building materials product, also known as indirect energy consumption, MJ/kg building materials.
Two of the national 12th Five-year Plan Science and Technology Support Plan Projects - " Research and Application of Full Life Cycle Evaluation Technology of Building Materials in Typical Areas" (No. : 2011 BAJ 04B06) and "Research of Technology Integration Service System in Building Materials Industry" ( No. 2014BAH25F05) References [1] Jiang Quan Green Building Material Evaluation - Evaluation · Certification [M] Beijing: Chemical Industry Press, July, 2012 [2] National Standard of The People's Republic Of China.
Journal of Environmental Science. 2010, 30(10): 2136-2144
Building Science, 2014.
Direct (1) Indirect Where, EDirect- the energy contained in a unit product of a building material, also known as direct energy consumption, MJ/kg building materials; EIndirect-building operation energy saving brought in the service process of a unit of building materials product, also known as indirect energy consumption, MJ/kg building materials.
Two of the national 12th Five-year Plan Science and Technology Support Plan Projects - " Research and Application of Full Life Cycle Evaluation Technology of Building Materials in Typical Areas" (No. : 2011 BAJ 04B06) and "Research of Technology Integration Service System in Building Materials Industry" ( No. 2014BAH25F05) References [1] Jiang Quan Green Building Material Evaluation - Evaluation · Certification [M] Beijing: Chemical Industry Press, July, 2012 [2] National Standard of The People's Republic Of China.
Journal of Environmental Science. 2010, 30(10): 2136-2144
Building Science, 2014.
Online since: September 2013
Authors: Zhe Chen, Dong Chen, Yi Wu, Xian Feng Li, Nai Heng Ma, Hao Wei Wang, Ming Liang Wang
Pai, Journal of Materials Processing Technology 166 (2005) 423-429
%SiC/2024Al composite, Materials Science and Engineering A 527 (2010) 7865-7872
Gupta, Kinetics of Hot Deformation in Mg/Nano-Al2O3 Composite, Journal of Composite Materials 44 (2010) 181-194
Evangelist, Isothermal forging of AA2618 + 20%Al2O3 by means of hot torsion and hot compression tests, Materials Science and Engineering A 387-389 (2004) 857-861
Gu, Recrystallization Kinetics of Cold-rolled Squeeze-cast Al/SiC/15w Composites, Journal of Composite Materials 40 (2006) 1117-1131
%SiC/2024Al composite, Materials Science and Engineering A 527 (2010) 7865-7872
Gupta, Kinetics of Hot Deformation in Mg/Nano-Al2O3 Composite, Journal of Composite Materials 44 (2010) 181-194
Evangelist, Isothermal forging of AA2618 + 20%Al2O3 by means of hot torsion and hot compression tests, Materials Science and Engineering A 387-389 (2004) 857-861
Gu, Recrystallization Kinetics of Cold-rolled Squeeze-cast Al/SiC/15w Composites, Journal of Composite Materials 40 (2006) 1117-1131
Online since: September 2023
Authors: Oluborode Kayode Dele, Folahan Okeola Ayodele, Ige Samuel Ayeni
Journal of Composites Science., https://doi.org/10.3390/jcs6100320, 2022, 6, 320
Journal of Chemical and Pharmaceutical Sciences, 9(4), (2016), 2791–2795
Journal of Materials in Civil Engineering, 30(3), 04018008. https://doi.org/10.1061/(ASCE)mt.1943-5533.0002174, (2018)
International Journal of Science Technology and Management, 5(2), (2016), 1104–1110
Nigeria Journal of Basic and Applied Science, 17(2), (2009), 252-256
Journal of Chemical and Pharmaceutical Sciences, 9(4), (2016), 2791–2795
Journal of Materials in Civil Engineering, 30(3), 04018008. https://doi.org/10.1061/(ASCE)mt.1943-5533.0002174, (2018)
International Journal of Science Technology and Management, 5(2), (2016), 1104–1110
Nigeria Journal of Basic and Applied Science, 17(2), (2009), 252-256
Online since: September 2022
Authors: Paul W.S. Heng, Rodel Guerrero, Terence P. Tumolva
Bovine serum albumin (BSA) as a model protein was encapsulated using these biodegradable materials.
Since most of these materials are biocompatible and biodegradable, a lot of polymers have been used as materials for the entrapment and encapsulation processes.
Materials and Methods Materials.
It may also be because of the protein solubility in SIF and/or the high swelling ratio of the materials in pH7.4.
[9] Cetin, M., Vural, I., Capan, Y. and Hincal, A.A., "Preparation and characterization of BSA loaded alginate microspheres," Journal of Pharmaceutical Science, vol. 32, pp. 103-107, 2007
Since most of these materials are biocompatible and biodegradable, a lot of polymers have been used as materials for the entrapment and encapsulation processes.
Materials and Methods Materials.
It may also be because of the protein solubility in SIF and/or the high swelling ratio of the materials in pH7.4.
[9] Cetin, M., Vural, I., Capan, Y. and Hincal, A.A., "Preparation and characterization of BSA loaded alginate microspheres," Journal of Pharmaceutical Science, vol. 32, pp. 103-107, 2007
Online since: December 2012
Authors: Jian Hua Zhang, Xiu Hua Ren, Ze Ning Wang, Tao Wang
But its intensity is far less than metal materials such as gray iron, thereby limiting its popularization and application.
Acknowledgements The work is supported by the National Natural Science Foundation of China (Grant No. 51175308) and the National Science and Technology Major Project of China (Grant No. 2012ZX04010032).
Ombres: Mechanics of Composite Materials Vol. 36(2000), p.389 [2] J.
Thomason: Composites Part A: Applied Science and Manufacturing Vol. 39(2008), p.1732 [3] Hughes J D H: Composites Science and Technology Vol. 41(1991), p.13 [4] Nathan C.
Harmon: ACI Structural Journal Vol. 99(2002), p.32 [5] Y.Q.
Acknowledgements The work is supported by the National Natural Science Foundation of China (Grant No. 51175308) and the National Science and Technology Major Project of China (Grant No. 2012ZX04010032).
Ombres: Mechanics of Composite Materials Vol. 36(2000), p.389 [2] J.
Thomason: Composites Part A: Applied Science and Manufacturing Vol. 39(2008), p.1732 [3] Hughes J D H: Composites Science and Technology Vol. 41(1991), p.13 [4] Nathan C.
Harmon: ACI Structural Journal Vol. 99(2002), p.32 [5] Y.Q.
Online since: March 2012
Authors: Cheng Guo Wang, Hua Yuan, Shan Zhang, Xue Lin
[2] Tao Liu, Lin Ye: Journal of Fluorine Chemistry Vol. 131(2010), p. 36–41
[3] Xiusheng Liu, Can Wang, Lanxuan Liu: Journal of Wuhan University of Technology Vol. 23(2008), p. 285–288
[4] Yunde Li, Yunfang Liu, ZUO Yu: Journal of Materials Science Vol. 43(2008), p. 3738-3741
[6] Lux F: Journal of Materials Science Vol. 28(1993), p. 285-301
[9] J.Vilcakova, P.Saha, O.Quadrat: European Polymer Journal Vol. 38(2002), p. 2343–2347
[3] Xiusheng Liu, Can Wang, Lanxuan Liu: Journal of Wuhan University of Technology Vol. 23(2008), p. 285–288
[4] Yunde Li, Yunfang Liu, ZUO Yu: Journal of Materials Science Vol. 43(2008), p. 3738-3741
[6] Lux F: Journal of Materials Science Vol. 28(1993), p. 285-301
[9] J.Vilcakova, P.Saha, O.Quadrat: European Polymer Journal Vol. 38(2002), p. 2343–2347
Three Dimensional Printing of Titanium for Bone Tissue Engineering Applications: A Preliminary Study
Online since: August 2014
Authors: Vipra Guneta, Marcus Thien Chong Wong, Jun Kit Wang, Saeed Maleksaeedi, Ze Ming He, Cleo Choong
Polak, Third-Generation Biomedical Materials, Science. 5557 (2002) 1014-1017
Rack, Titanium alloys in total joint replacement—a materials science perspective, Biomaterials. 18 (1998) 1621-1639
Chahal, Preliminary observations of bone ingrowth into porous materials, Journal of Biomedical Materials Research. 3 (1976) 335-344
Blunn, Stem cell engineered bone with calcium-phosphate coated porous titanium scaffold or silicon hydroxyapatite granules for revision total joint arthroplasty, Journal of materials science.
Rethwisch, Materials science and engineering: an introduction, (2007)
Rack, Titanium alloys in total joint replacement—a materials science perspective, Biomaterials. 18 (1998) 1621-1639
Chahal, Preliminary observations of bone ingrowth into porous materials, Journal of Biomedical Materials Research. 3 (1976) 335-344
Blunn, Stem cell engineered bone with calcium-phosphate coated porous titanium scaffold or silicon hydroxyapatite granules for revision total joint arthroplasty, Journal of materials science.
Rethwisch, Materials science and engineering: an introduction, (2007)