Sort by:
Publication Type:
Open access:
Publication Date:
Periodicals:
Search results
Online since: March 2007
Authors: Karen M. Haberstroh, Thomas J. Webster, Megan A. Pattison, Martin Kaefer
Materials and Methods
Scaffold Fabrication.
In Vivo Use of Bladder Replacement Materials.
Journal of Urology 159: 628-637, 1998
Journal of Biomedical Materials Research (JBMR) 43(4): 422-7, 1998
Biomaterials Science: An Introduction to Materials in Medicine, Academic Press, New York, NY, 1996
In Vivo Use of Bladder Replacement Materials.
Journal of Urology 159: 628-637, 1998
Journal of Biomedical Materials Research (JBMR) 43(4): 422-7, 1998
Biomaterials Science: An Introduction to Materials in Medicine, Academic Press, New York, NY, 1996
Online since: July 2011
Authors: Ching Wen Lou, Jia Horng Lin, Yueh Sheng Chen, Shih Peng Wen, Wen Cheng Chen, Chin Wei Chang
Process Technology and Mechanical Properties of Polylactic Acid Ply Yarns and 316L Stainless Steel Braids
Ching-Wen Lou1, Wen-Cheng Chen2,b*, Yueh-Sheng Chen3,c*,
Shih-Peng Wen4, Chin-Wei Chang2 and Jia-Horng Lin4,5,a*
1Institute of Biomedical Engineering and Material Science, Central Taiwan University of Science and Technology, Taichung 406, Taiwan, R.O.C.
2 Department of Fiber and Composite Materials, Feng Chia University, Taichung City 407, Taiwan, R.O.C.
3Laboratory of Biomaterials, School of Chinese Medicine, China Medical University, Taichung 40402, Taiwan,R.O.C.
4Laboratory of Fiber Application and Manufacturing, Department of Fiber and Composite Materials, Feng Chia University, Taichung City 407, Taiwan, R.O.C.
5School of Chinese Medicine, China Medical University, Taichung 40402, Taiwan, R.O.C.
The main purpose of this study was to composite the metal/polymer materials and braided process to improve their mechanical properties and biocompatibilities.
Experimental Materials and Methods The ply yarn of different denier (150, 225 and 300) was prepared by polylactic acid multifilament (75d/36f, UNITIKA Co., Japan) through the doubler.
According to ASTM D2256 standard, the mechanical properties were determined using a mechanical testing machine (HT-9101,Computer Servo Control Materials Testing System, Taiwan).
Lin: Textile Research Journal, 80(2010), p.325-333
The main purpose of this study was to composite the metal/polymer materials and braided process to improve their mechanical properties and biocompatibilities.
Experimental Materials and Methods The ply yarn of different denier (150, 225 and 300) was prepared by polylactic acid multifilament (75d/36f, UNITIKA Co., Japan) through the doubler.
According to ASTM D2256 standard, the mechanical properties were determined using a mechanical testing machine (HT-9101,Computer Servo Control Materials Testing System, Taiwan).
Lin: Textile Research Journal, 80(2010), p.325-333
Online since: September 2014
Authors: Masakazu Fujimoto, Mitsuyoshi Nomura, Kouta Suzuki, Yong Bo Wu
The material is superior in mechanical strength, heat resistance and chemical resistance.
Murakami, Investigation of geometric groove accuracy in micro end milling(1st Report), Journal of the Japan Society for Precision Engineering, Vol.79 No.2 (2013) 176-181 [2] M.
Murakami, Investigation of geometric groove accuracy in micro end milling(2nd Report), Journal of the Japan Society for Precision Engineering, Vol.79 No.3 (2013) 253-259 [3] R.
Murakami, Infuence of Drill Run-out on Position Accuracy of Holes in Micro-drilling Process, Journal of the Japan Society for Precision Engineering, Vol.79 No.5 (2013) 449-454 [5] Y.
Koide, Study on Micro Drilling for Printed Circuit Boards, Journal of the Japan Society for Precision Engineering, Vol.79 No.12 (2013) 1229-1234 [6] T.
Murakami, Investigation of geometric groove accuracy in micro end milling(1st Report), Journal of the Japan Society for Precision Engineering, Vol.79 No.2 (2013) 176-181 [2] M.
Murakami, Investigation of geometric groove accuracy in micro end milling(2nd Report), Journal of the Japan Society for Precision Engineering, Vol.79 No.3 (2013) 253-259 [3] R.
Murakami, Infuence of Drill Run-out on Position Accuracy of Holes in Micro-drilling Process, Journal of the Japan Society for Precision Engineering, Vol.79 No.5 (2013) 449-454 [5] Y.
Koide, Study on Micro Drilling for Printed Circuit Boards, Journal of the Japan Society for Precision Engineering, Vol.79 No.12 (2013) 1229-1234 [6] T.
Online since: April 2021
Authors: Zinesh S. Abisheva, Zaure B. Karshigina, Yelena G. Bochevskaya
Apart from the accumulators, nowadays it is widely used in the production of glass and ceramics (30%), lubricating materials (11 %), metallurgy (4%), as well as in the production of chemicals, pharmaceuticals, rubber, and others [1].
The steadily growing interest in lithium products contributes to research and search for technological solutions involving the lithium-containing hydromineral raw materials in the processing sector, one of which is associated formation brines formed during the development of oil and gas fields.
Such materials have high adsorption capacity; in alkali media (рН ~8) lithium had concentration 400 times higher.
Berstenyov, Sorption methods of processing of hydromineral lithium raw material of Kazakhstan, News of the Academy of sciences of the Republic of Kazakhstan.
Series of geology and technical sciences. 4 (2019) 172-180.
The steadily growing interest in lithium products contributes to research and search for technological solutions involving the lithium-containing hydromineral raw materials in the processing sector, one of which is associated formation brines formed during the development of oil and gas fields.
Such materials have high adsorption capacity; in alkali media (рН ~8) lithium had concentration 400 times higher.
Berstenyov, Sorption methods of processing of hydromineral lithium raw material of Kazakhstan, News of the Academy of sciences of the Republic of Kazakhstan.
Series of geology and technical sciences. 4 (2019) 172-180.
Online since: May 2012
Authors: Zhi Juan Sun
This Standard regulated that comprehensive evaluation index system on Green building includes the following six main indexes: land conservation and outdoor environment; energy saving and utilization, water saving and water resources utilization, materials saving and material resource utilization, indoor environmental quality, and operations management (residential construction), as well as whole life-cycle performance (public buildings).
Examples For example, an energy-saving laboratory building with a total investment of 260 million Yuan at one university, by applying internationally most advanced green ecological construction techniques, materials and equipments, is the best visual image of energy-saving building.
Furthermore, building materials above the ground can be recycled largely.
References [1] Zhu Wang, Yong He, etc, Journal of Zhejiang University (Engineering Science),(2002) (in Chinese)
Cummings,manual of the Green Building2, Xulin interpretation, Beijing: International Journal of Machine Tools &Manufacture, (2005) (in Chinese)
Examples For example, an energy-saving laboratory building with a total investment of 260 million Yuan at one university, by applying internationally most advanced green ecological construction techniques, materials and equipments, is the best visual image of energy-saving building.
Furthermore, building materials above the ground can be recycled largely.
References [1] Zhu Wang, Yong He, etc, Journal of Zhejiang University (Engineering Science),(2002) (in Chinese)
Cummings,manual of the Green Building2, Xulin interpretation, Beijing: International Journal of Machine Tools &Manufacture, (2005) (in Chinese)
Online since: June 2012
Authors: Mei Hong Liu, Yun Ju Dong, Zhen Hua Li, Qi Hong Cen
References
[1] Changqing Guo, Kelly P M:Materials Science and Engineering A, Vol.352A (2003), p. 40-45
[5] Zhifu Huang, Jiandong Xing, Cheng Guo: Materials and DesignVol. (2010), p.3084-3089
[6] Xiang Chen, Yanxiang Li: Materials science and Engineering A Vol. 528(2010), p.770-775
[9] Yu Zhou, Gaohui Wu: Analyzing and testing technology of materials( Harbin Institute of Technology Press, Harbin 2007), in Chinese
[12] Materials Science International Team, MSIT, Rogl, et al: Boron-Carbon-Iron (Materials Science International Services GmbH, Berlin 2008).
[5] Zhifu Huang, Jiandong Xing, Cheng Guo: Materials and DesignVol. (2010), p.3084-3089
[6] Xiang Chen, Yanxiang Li: Materials science and Engineering A Vol. 528(2010), p.770-775
[9] Yu Zhou, Gaohui Wu: Analyzing and testing technology of materials( Harbin Institute of Technology Press, Harbin 2007), in Chinese
[12] Materials Science International Team, MSIT, Rogl, et al: Boron-Carbon-Iron (Materials Science International Services GmbH, Berlin 2008).
Online since: September 2007
Authors: Karen M. Holford, Rhys Pullin, Pete T. Theobald, S.L. Evans
C., Key Engineering Materials, Vols. 167-168 pp.162-171(1999)
[3] Gorman, M.
R., Journal of Acoustical Society of America, Vol.90, No.1, pp.358-364 (1990) [4] Searle, I., Ziola, S. and Rutherford, P., SPIE Proceedings on Smart Structures and Materials, Vol. 2444, pp. 212-223, (1995) [5] Surgeon, M. and Wevers M., Materials Science and Engineering, A265 (1999), [6] Holford, K.
C., Journal of Intelligent Material Systems and Structures, Vols. 12, pp.567-576, (2001) [7] Pullin, R., Holford, K.
G., Key Engineering Materials, Vols. 293-294, pp.217-224, (2005), [8] Gorman, M.
H., Journal of Acoustic Emission, Vol.9, No.4, pp.283-288 (1991) [9] ASTM, American Society for Testing and Materials, E 976, (1994) [10] N.N.
R., Journal of Acoustical Society of America, Vol.90, No.1, pp.358-364 (1990) [4] Searle, I., Ziola, S. and Rutherford, P., SPIE Proceedings on Smart Structures and Materials, Vol. 2444, pp. 212-223, (1995) [5] Surgeon, M. and Wevers M., Materials Science and Engineering, A265 (1999), [6] Holford, K.
C., Journal of Intelligent Material Systems and Structures, Vols. 12, pp.567-576, (2001) [7] Pullin, R., Holford, K.
G., Key Engineering Materials, Vols. 293-294, pp.217-224, (2005), [8] Gorman, M.
H., Journal of Acoustic Emission, Vol.9, No.4, pp.283-288 (1991) [9] ASTM, American Society for Testing and Materials, E 976, (1994) [10] N.N.
Online since: July 2013
Authors: Li Min Zhou, Cheng Yan, Ming Chao Wang, Dilini Galpaya, Zheng Bo Lai, Lin Ma, Ning Hu, Qiang Yuan, Ruixiang Bai
Such AIREBO potential has successfully simulated and predicted mechanical properties of carbon-based materials, i.e. fullerene, carbon nanotube and graphene.
Science, 306 (2004) 666
Science, 321 (2008) 385
Journal of Nano Research, 21 (2013) 159
Journal of Nano Research, 15 (2011) 1
Science, 306 (2004) 666
Science, 321 (2008) 385
Journal of Nano Research, 21 (2013) 159
Journal of Nano Research, 15 (2011) 1
Online since: October 2013
Authors: Xie Xie, Yan Ping Li, Xiao Li Li, Yong Yue Zheng
In the iron making stage, raw materials (iron ore, coke and limestone) are melted and converted into molten iron in a blast furnace.
L2011207) and National Natural Science Foundation of China (Grant No. 71201104).
European Journal of Operational Research 133 (2001): 1–20
INFORMS Journal on Computing 18 (2006): 129–134
European Journal of Operational Research 120 (2000): 423–435
L2011207) and National Natural Science Foundation of China (Grant No. 71201104).
European Journal of Operational Research 133 (2001): 1–20
INFORMS Journal on Computing 18 (2006): 129–134
European Journal of Operational Research 120 (2000): 423–435
Online since: July 2024
Authors: Yithro Serang, Chang Nan Chen, Meng Jen Lee
By utilizing waste materials in the production of nanoparticles, this study promotes sustainable and environmentally friendly practices.
Materials and Method Preparation of M.
Materials Letters, 2016. 166: p. 19-22
Materials Today: Proceedings, 2022. 57: p. 887-891
Caspian Journal of Environmental Sciences, 2021. 19(2): p. 277-285
Materials and Method Preparation of M.
Materials Letters, 2016. 166: p. 19-22
Materials Today: Proceedings, 2022. 57: p. 887-891
Caspian Journal of Environmental Sciences, 2021. 19(2): p. 277-285