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Online since: July 2020
Authors: Leon M.Jr. Payawan, Ken Aldren S. Usman, Yasmin De Guzman Edañol, Genes P. Maylem, Salvador C.Jr. Buenviaje
Physical methods are mainly governed by adsorption such as the use of highly adsorbent materials like peat and activated charcoal.
These materials are mostly non-reusable.
Experimental Materials.
American Journal of Nanomaterials, 3(2), 57-63
In Advanced Materials Research (Vol. 1098, pp. 25-30).
These materials are mostly non-reusable.
Experimental Materials.
American Journal of Nanomaterials, 3(2), 57-63
In Advanced Materials Research (Vol. 1098, pp. 25-30).
Online since: October 2024
Authors: Tatiana Lutsenko, Eleonora Darmofal, Alexey Vasilchenko, Olexandr Danilin
Materials Science Forum, 1006 (2020) 166-172
Materials Science Forum, 968 (2019) 361–367
Materials Science Forum, 968 (2019) 355–360
Materials Science Forum, 1038 (2021) 492–499
Series: Materials Science and Engineering, 708 (2019) 012075.
Materials Science Forum, 968 (2019) 361–367
Materials Science Forum, 968 (2019) 355–360
Materials Science Forum, 1038 (2021) 492–499
Series: Materials Science and Engineering, 708 (2019) 012075.
Online since: March 2011
Authors: J. Huétink, J. Hol, M.V. Cid Alfaro, T. Meinders
Signif cant
material characteristics are the hardness of the asperities and the surface properties of the tool and
workpiece material.
Acknowledgment This research was carried out under the project number MC1.07289 in the framework of the Research Program of the Materials innovation institute M2i (www.m2i.nl).[1] J.
Oxley, International Journal of Mechanical Siences 26 (1984) 403-418
Sheu, International Journal of Mechanical Science 30 (1988) 475-489
Vegter, A. van den Boogaard, International Journal of Plasticity 22 (2006) 557-580
Acknowledgment This research was carried out under the project number MC1.07289 in the framework of the Research Program of the Materials innovation institute M2i (www.m2i.nl).[1] J.
Oxley, International Journal of Mechanical Siences 26 (1984) 403-418
Sheu, International Journal of Mechanical Science 30 (1988) 475-489
Vegter, A. van den Boogaard, International Journal of Plasticity 22 (2006) 557-580
Online since: October 2011
Authors: A. F. Khadrawi, Ahmad Al-Shyyab, Saad A. Abo-Qudais
Mechanicals of Materials., 37: 1085-1100
Construction and Building Materials, 18: 399-408
", Construction and Building Materials, Jan 2007 Issue [7] Jin, H., G.
"Polymer modifoed asphalt binders" Construction and building materials 21: 66-72
Decker, Ed., American Society for Testing and Materials, 1996
Construction and Building Materials, 18: 399-408
", Construction and Building Materials, Jan 2007 Issue [7] Jin, H., G.
"Polymer modifoed asphalt binders" Construction and building materials 21: 66-72
Decker, Ed., American Society for Testing and Materials, 1996
Online since: February 2013
Authors: Shu Qin Wu, Yi Ming Wang, Ming Ming Zhao, Hai Kui Yang
The reasons for Offset Mackling Rails mainly are process operation, printing materials, printing equipment [1], this paper mainly analyzes the printing equipment factors.
The Detection and Quantity of Mackling Rails The FSWM operator is introduced into the printing Mackling Rails detection by Zhao Jianli[2], which is mainly applied to the Mackling rails of a region in the printed materials format of printing products, the printed graphics Wu Xuefei research ghosting detection is based on motion blurspectrum analysis[3].
Fig.1 The interface of ghosting detection module The ghosting quantify facilitate analysis of the quality of printed materials, and can identify the state of the printing machinery by monitoring the the ghosting amount of printed materials.
Different types of ghosting is caused by different reasons, so, the first thing to study the cause of the ghosting is to identify the type of printed materials ghosting in the printing process and it’s quantity, generally the axial ghosting circumferential ghosting[4] and irregular ghosting is Three forms of ghosting.
Acknowledgement This study is supported by National Science and Technology Support Program (2012BAF13B05) and Printing Equipment Inspection and Innovation Design Team of Beijing Institute of Graphic Communication (23190112094).
The Detection and Quantity of Mackling Rails The FSWM operator is introduced into the printing Mackling Rails detection by Zhao Jianli[2], which is mainly applied to the Mackling rails of a region in the printed materials format of printing products, the printed graphics Wu Xuefei research ghosting detection is based on motion blurspectrum analysis[3].
Fig.1 The interface of ghosting detection module The ghosting quantify facilitate analysis of the quality of printed materials, and can identify the state of the printing machinery by monitoring the the ghosting amount of printed materials.
Different types of ghosting is caused by different reasons, so, the first thing to study the cause of the ghosting is to identify the type of printed materials ghosting in the printing process and it’s quantity, generally the axial ghosting circumferential ghosting[4] and irregular ghosting is Three forms of ghosting.
Acknowledgement This study is supported by National Science and Technology Support Program (2012BAF13B05) and Printing Equipment Inspection and Innovation Design Team of Beijing Institute of Graphic Communication (23190112094).
Online since: August 2020
Authors: Valentyna Iurchenko, Oksana Melnikova, Mykyta Radionov, Olexandr Rachkovskiy, Larysa Mykhailova
Furuya, Nitrification and its influence on biogeochemical cycles from the equatorial Pacific to the Arctic Ocean, The ISME Journal, 10 (2016) 2184–2197.
Pearthree, Using chlorite ion to control nitrification, Journal American Water Association. 91 (10) (1999) 52-62
Sciences, Kharkiv, 2007
Trifonova, Assessment of the maximum permissible impact on self-cleaning processes in the ecosystem of a small watercourse, Bulletin of the Samara Scientific Center of the Russian Academy of Sciences, 16, 1(4) (2014) 967-971
Series: Materials Science and Engineering. 708 (2019) 012035 IOP Publishing doi:10.1088/1757-899X/708/1/012035.
Pearthree, Using chlorite ion to control nitrification, Journal American Water Association. 91 (10) (1999) 52-62
Sciences, Kharkiv, 2007
Trifonova, Assessment of the maximum permissible impact on self-cleaning processes in the ecosystem of a small watercourse, Bulletin of the Samara Scientific Center of the Russian Academy of Sciences, 16, 1(4) (2014) 967-971
Series: Materials Science and Engineering. 708 (2019) 012035 IOP Publishing doi:10.1088/1757-899X/708/1/012035.
Online since: April 2014
Authors: Li Yan Wang, Xin Fu Xiao, Guang Qing Gai
In recent years, the diatomite indoor decoration materials have been paid more attention at home and abroad.
Experimental sections 2.1 Materials.
Journal of Petroleum Science and Engineering. 25(3-4) (2000),149-165 [2] Chenglou Liu, Guojun Tang.
Chemical Materials for Construction, 22(5) (2006), 9-10 [4] Chuntao He.
Chemical building materials. 22(5) (2006),10-11 [6] Gan Yu, Yafang Bao, Jinshou Ding, et al.
Experimental sections 2.1 Materials.
Journal of Petroleum Science and Engineering. 25(3-4) (2000),149-165 [2] Chenglou Liu, Guojun Tang.
Chemical Materials for Construction, 22(5) (2006), 9-10 [4] Chuntao He.
Chemical building materials. 22(5) (2006),10-11 [6] Gan Yu, Yafang Bao, Jinshou Ding, et al.
Online since: October 2011
Authors: Xian Yu Jin, Nan Guo Jin, Jun Chen, Ye Tian
Materials and mix proportions
To study concrete with various microstructural features, three mixes with or without mineral admixtures were chosen in this study, as shown in Table 1.
Table 1 Mix proportions Mix Cementitious materials Water Fine aggregate Coarse aggregate Cement Slag Fly Ash PC 1 - - 0.53 2.0 3.0 GB 0.5 0.5 - 0.53 2.0 3.0 FA 0.7 - 0.3 0.53 2.0 3.0 Experiment programs Compressive strength.
Bentz, Cement hydration: building bridges and dams at the microstructure level, Materials and Structures, 40(2007), 397-404
Li, Preliminary interpretation of Portland cement hydration process using resistivity measurements, ACI Materials Journal, 100(3) (2003), 253–257
Li, New understanding of cement hydration mechanism through electrical resistivity measurement and microstructure investigations, Journal of materials in civil engineering, 21 (2009), 368–373
Table 1 Mix proportions Mix Cementitious materials Water Fine aggregate Coarse aggregate Cement Slag Fly Ash PC 1 - - 0.53 2.0 3.0 GB 0.5 0.5 - 0.53 2.0 3.0 FA 0.7 - 0.3 0.53 2.0 3.0 Experiment programs Compressive strength.
Bentz, Cement hydration: building bridges and dams at the microstructure level, Materials and Structures, 40(2007), 397-404
Li, Preliminary interpretation of Portland cement hydration process using resistivity measurements, ACI Materials Journal, 100(3) (2003), 253–257
Li, New understanding of cement hydration mechanism through electrical resistivity measurement and microstructure investigations, Journal of materials in civil engineering, 21 (2009), 368–373
Online since: December 2012
Authors: Shu Feng Sun, Xin Wu, Sen Lin, Ping Ping Wang
However, when different material and different shape cutters are used to machining different material parts, their optimum process parameters are different.
Its material is WC with 5μm TiN coating.
Part material is AISI-H-13 mold steel with hardness ≤ 229 HBS.
Acknowledgement It is a project supported by Zhejiang Provincial Natural Science Foundation of China(Y1110027) and Education Department of Zhejiang Province of China(Z201120727).
References [1] Yang Kai, Bai Qingshun, Liang Yingchun, Wang Bo: Tool Engineering Vol. 42, No. 8 (2008), p. 11 [2] H Sasahara, T Obikawa, T Shirakashi: Journal of Materials Processing Technology, Vol. 62 (1996), p. 448 [3] Dong Huiyue, Ke Yinglin, Cheng Qunlin: Journal o f Zhejiang University ( Engineer ing Science), Vol. 40, No. 5 (2006), p. 759 [4] Huang Meixia, Wu Wenge: Tool Engineering Vol. 42, No. 10 (2008), p. 70 [5] Tang Ying, Ma Hekun, Wu Quan: Tool Engineering Vol. 43, No. 6 (2009), p. 61 [6] Ren He,Ren Jialong,Zheng Qingyu,Zhang Chunyan.
Its material is WC with 5μm TiN coating.
Part material is AISI-H-13 mold steel with hardness ≤ 229 HBS.
Acknowledgement It is a project supported by Zhejiang Provincial Natural Science Foundation of China(Y1110027) and Education Department of Zhejiang Province of China(Z201120727).
References [1] Yang Kai, Bai Qingshun, Liang Yingchun, Wang Bo: Tool Engineering Vol. 42, No. 8 (2008), p. 11 [2] H Sasahara, T Obikawa, T Shirakashi: Journal of Materials Processing Technology, Vol. 62 (1996), p. 448 [3] Dong Huiyue, Ke Yinglin, Cheng Qunlin: Journal o f Zhejiang University ( Engineer ing Science), Vol. 40, No. 5 (2006), p. 759 [4] Huang Meixia, Wu Wenge: Tool Engineering Vol. 42, No. 10 (2008), p. 70 [5] Tang Ying, Ma Hekun, Wu Quan: Tool Engineering Vol. 43, No. 6 (2009), p. 61 [6] Ren He,Ren Jialong,Zheng Qingyu,Zhang Chunyan.
Online since: November 2015
Authors: U.S. Mallikarjun, A.G. Shivasiddaramaiah, Singh Prashant, S.Y. Manjunath
Introduction:
Shape memory alloys are also known as smart materials or smart alloys because they remember their original shape after the deformation.
Sugimoto*,S.Komatsu* and Y.Nakamura Journal De Physique, Tome 43 (1982) C4-767-771
"Elaboration and characterization of new low temperature shape memory Cu-Al-Be alloys" Materials Science and Engineering, A 169 (1993) 119-124, S
"Effect of ageing on shape memory effect and Transformation Temperature on Cu-Al-Be shape memory alloy" Procedia Materials Science 5 (2014) 567-574
International Journal of Modern physics, Vol. 23, Nos. 6 & 7 (2009) 1931–1936.
Sugimoto*,S.Komatsu* and Y.Nakamura Journal De Physique, Tome 43 (1982) C4-767-771
"Elaboration and characterization of new low temperature shape memory Cu-Al-Be alloys" Materials Science and Engineering, A 169 (1993) 119-124, S
"Effect of ageing on shape memory effect and Transformation Temperature on Cu-Al-Be shape memory alloy" Procedia Materials Science 5 (2014) 567-574
International Journal of Modern physics, Vol. 23, Nos. 6 & 7 (2009) 1931–1936.