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Online since: December 2014
Authors: Li Qun Han, Jian Zhao Zhou, Xin Min Shen
The material removal volume in the deterministic surfacing can be obtained by subtraction between original data and target data, as shown in Fig. 2(d).
(a) 3D shape of operation function (b) Original data with its expansion (c) Target data with its expansion (d) Material removal volume Fig. 2 Schematic diagram of modeling of terrain data Evaluation of residual error Supposing the expanded original data and expanded target data is O (x, y) and T (x, y), respectively, the ideal material removal volume IMRR (x, y) can be expressed by Eq. 2
(3) Therefore, the actual material removal volume AMRR (x, y) is the convolution of operation function and the optimized distribution of dwelling time, as shown in Eq. 4
Express Vol. 21 (2013), p. 26123-26135 [6] XM Shen, M Nagano, WQ Peng, YF Dai, and K Yamamura: Key Engineering Materials Vol. 523-524 (2012), p. 276-280 [7] XM Shen, YF Dai, WQ Peng, M Nagano, and K Yamamura: Key Engineering Materials Vol. 516 (2012), p. 504-509 [8] M Christen, J Kowalski, P Bartelt: Cold Regions Science and Technology Vol. 63 (2010), p. 1-14 [9] ZR Detweiler, JB Ferris: Journal of Terramechanics Vol. 47 (2010), p. 209-217 [10] J Jin, L Tang: Journal of Field Robotics Vol. 28 (2011), p. 424–440 [11] W Zhang, DR Montgomery: Water resources research Vol. 30 (1994), p. 1019-1028 [12] DM Wolock, CV Price: Water Resources Research Vol. 30 (1994), p. 3041-3052 [13] C Hladik, M Alber: Remote Sensing of Environment Vol. 121 (2012), p. 224-235 [14] F Pan, J Nichols: Hydrological Processes Vol. 27 (2012), p. 3596-3606 [15] JP Wilson: Geomorphology Vol. 137 (2012), p. 107-121 [16] D Lamsal, T Sawagaki, T Watanabe: Journal of Mountain Science Vol. 8 (2011),
p. 390-402 [17] C Hirt: Journal of Geodesy Vol. 84 (2012), p. 179-190 [18] S Roux, F Brun, D Wallach: European Journal of Agronomy Vol. 52 (2014), p. 191-197 [19] OP Ferreira, BF Svaiter: Journal of Complexity Vol. 28 (2012), p. 346-363
(a) 3D shape of operation function (b) Original data with its expansion (c) Target data with its expansion (d) Material removal volume Fig. 2 Schematic diagram of modeling of terrain data Evaluation of residual error Supposing the expanded original data and expanded target data is O (x, y) and T (x, y), respectively, the ideal material removal volume IMRR (x, y) can be expressed by Eq. 2
(3) Therefore, the actual material removal volume AMRR (x, y) is the convolution of operation function and the optimized distribution of dwelling time, as shown in Eq. 4
Express Vol. 21 (2013), p. 26123-26135 [6] XM Shen, M Nagano, WQ Peng, YF Dai, and K Yamamura: Key Engineering Materials Vol. 523-524 (2012), p. 276-280 [7] XM Shen, YF Dai, WQ Peng, M Nagano, and K Yamamura: Key Engineering Materials Vol. 516 (2012), p. 504-509 [8] M Christen, J Kowalski, P Bartelt: Cold Regions Science and Technology Vol. 63 (2010), p. 1-14 [9] ZR Detweiler, JB Ferris: Journal of Terramechanics Vol. 47 (2010), p. 209-217 [10] J Jin, L Tang: Journal of Field Robotics Vol. 28 (2011), p. 424–440 [11] W Zhang, DR Montgomery: Water resources research Vol. 30 (1994), p. 1019-1028 [12] DM Wolock, CV Price: Water Resources Research Vol. 30 (1994), p. 3041-3052 [13] C Hladik, M Alber: Remote Sensing of Environment Vol. 121 (2012), p. 224-235 [14] F Pan, J Nichols: Hydrological Processes Vol. 27 (2012), p. 3596-3606 [15] JP Wilson: Geomorphology Vol. 137 (2012), p. 107-121 [16] D Lamsal, T Sawagaki, T Watanabe: Journal of Mountain Science Vol. 8 (2011),
p. 390-402 [17] C Hirt: Journal of Geodesy Vol. 84 (2012), p. 179-190 [18] S Roux, F Brun, D Wallach: European Journal of Agronomy Vol. 52 (2014), p. 191-197 [19] OP Ferreira, BF Svaiter: Journal of Complexity Vol. 28 (2012), p. 346-363
Online since: September 2014
Authors: Chi Lin Li, Yong Le Liu, Jian Yu, Jing Bin Zhao
Materials and methods
Materials
Gualou seeds were bought from market.
The defatted materials were milled and passed through a 100 mm sieve.
Acknowledgements This research project was funded by the Ministry of Science and Technology Support Program, PR China (Project No. 2012BAD31B08), Natural Science Foundation of China (Project No. 31101214 and 31201427), Science Foundation of Hunan Province, PR China (Project No. 13JJ4054 and 12JJ6028).
Vol. 11 (2010), p. 1 [2] Alina-Violeta Ursua, Alain Marcatic, Thierry Sayd, Véronique Sante-Lhoutellierd: Extraction, fractionation and functional properties of proteinsfrom the microalgae Chlorella vulgaris: Bioresource Technology 157 (2014) , 134-139 [3] Samson Agboola, Darren Ng, Dominic Mills: Characterisation and functional properties of Australian rice protein isolates: Journal of Cereal Science 41 (2005), 283-290 [4] Neide K.K.
Gon@alves: Determination of total proteins in cow milk powder samples: a comparative study between the Kjeldahl method and spectrophotometric methods: Journal of Food Composition and Analysis 16 (2003) , 507-516 [5] Zorica Nikolic,Vuk Ðorpevic, Aleksandra Torbicab, Aleksandar Mikic: Legumes seed storage proteins characterization by SDS-PAGE and Lab-on-a-Chip electrophoresis: Journal of Food Composition and Analysis 28 (2012), 75-80 [6] Tingting Li, Jianrong Li,Wenzhong Hua, Jinru Chen, Hongjun Li: Protein changes in post mortem large yellow croaker (Pseudosciaenacrocea) monitored by SDS-PAGE and proteome analysis: Food Control 41 (2014) , 49-55 [7] Ning Xia, Jinmei Wang, Xiaoquan Yang, Shouwei Yin, et al: Preparation and characterization of protein from heat-stabilized rice bran using hydrothermal cooking combined with amylase pretreatment: Journal of Food Engineering 110 (2012) , 95-101 [8] M.
The defatted materials were milled and passed through a 100 mm sieve.
Acknowledgements This research project was funded by the Ministry of Science and Technology Support Program, PR China (Project No. 2012BAD31B08), Natural Science Foundation of China (Project No. 31101214 and 31201427), Science Foundation of Hunan Province, PR China (Project No. 13JJ4054 and 12JJ6028).
Vol. 11 (2010), p. 1 [2] Alina-Violeta Ursua, Alain Marcatic, Thierry Sayd, Véronique Sante-Lhoutellierd: Extraction, fractionation and functional properties of proteinsfrom the microalgae Chlorella vulgaris: Bioresource Technology 157 (2014) , 134-139 [3] Samson Agboola, Darren Ng, Dominic Mills: Characterisation and functional properties of Australian rice protein isolates: Journal of Cereal Science 41 (2005), 283-290 [4] Neide K.K.
Gon@alves: Determination of total proteins in cow milk powder samples: a comparative study between the Kjeldahl method and spectrophotometric methods: Journal of Food Composition and Analysis 16 (2003) , 507-516 [5] Zorica Nikolic,Vuk Ðorpevic, Aleksandra Torbicab, Aleksandar Mikic: Legumes seed storage proteins characterization by SDS-PAGE and Lab-on-a-Chip electrophoresis: Journal of Food Composition and Analysis 28 (2012), 75-80 [6] Tingting Li, Jianrong Li,Wenzhong Hua, Jinru Chen, Hongjun Li: Protein changes in post mortem large yellow croaker (Pseudosciaenacrocea) monitored by SDS-PAGE and proteome analysis: Food Control 41 (2014) , 49-55 [7] Ning Xia, Jinmei Wang, Xiaoquan Yang, Shouwei Yin, et al: Preparation and characterization of protein from heat-stabilized rice bran using hydrothermal cooking combined with amylase pretreatment: Journal of Food Engineering 110 (2012) , 95-101 [8] M.
Online since: March 2010
Authors: Ci Jun Shuai, Xue Jun Wen, Shu Ping Peng
Material didn't easily result in
transgranular fracture, which helps to improve the toughness and strength of materials.
Namely, the raw materials tank move upward.
A variety spot of more than 50 um can be obtained by controlling the distance from lens focus to the heating materials.
The raw material tank is fixed on the up-and-down movement system of raw materials tank, which drives up-and-down movement of raw material box.
Key engineering materials, 2006,324:209-212
Namely, the raw materials tank move upward.
A variety spot of more than 50 um can be obtained by controlling the distance from lens focus to the heating materials.
The raw material tank is fixed on the up-and-down movement system of raw materials tank, which drives up-and-down movement of raw material box.
Key engineering materials, 2006,324:209-212
Online since: April 2018
Authors: Nataliya A. Voronova, Alexander A. Kupchishin, Akmaral A. Kuatbayeva, Tatyana A. Shmygaleva, Anatoliy I. Kupchishin
Computer Modeling of Depth Distribution of Vacancy Nanoclusters in Ion-Irradiated Materials
Natalia A.
Metals and alloys still remain the constructional, tooling and other materials basis [4 – 6].
Series: Materials Science and Engineering 110 012002 (2016) 1-4
Series: Materials Science and Engineering 110 012003 (2016) 1-5
Tlebaev Calculation of the spatial distribution of defects and cascade-probability functions in the materials, Journal of Physics: 552. (2014) 1-7.
Metals and alloys still remain the constructional, tooling and other materials basis [4 – 6].
Series: Materials Science and Engineering 110 012002 (2016) 1-4
Series: Materials Science and Engineering 110 012003 (2016) 1-5
Tlebaev Calculation of the spatial distribution of defects and cascade-probability functions in the materials, Journal of Physics: 552. (2014) 1-7.
Online since: December 2011
Authors: Xun Chen, Tahsin Tecelli Öpöz
Deng: Journal of Materials Processing Technology Vol. 105 (2000), p. 95-109
Black: Journal of Manufacturing Science and Engineering Vol. 118 (1996), p. 545-553
Özel: Journal of Materials Processing Technology Vol. 209 (2009), p. 5167-5177
Josefson: Journal of Materials Processing Technology Vol. 209 (2009), p. 4645-4653
Dautzenberg: Journal of Materials Processing Technologies Vol. 121 (2002), p. 123-135
Black: Journal of Manufacturing Science and Engineering Vol. 118 (1996), p. 545-553
Özel: Journal of Materials Processing Technology Vol. 209 (2009), p. 5167-5177
Josefson: Journal of Materials Processing Technology Vol. 209 (2009), p. 4645-4653
Dautzenberg: Journal of Materials Processing Technologies Vol. 121 (2002), p. 123-135
Online since: November 2013
Authors: Faik Nuzhet Oktar, E.S. Kayali, N. Demirkol, Ahmet Yavuz Oral
Chicken bones are usually wasted materials.
[3] S.Dorozhkin, E.I.Dorozhkina, O.Gunduz and F.N.Oktar, Key Engineering Materials, 361-363 (2008) 103-106
[6] G.Goller, F.N.Oktar, H.Demirkiran and E.Demirkesen, Key Engineering Materials, 240-242 (2003) 939-942
[12] British Standard Non-Metallic Materials for Surgical Implants.
Part 2 Specification for ceramic materials based on alumina, BS 7253: Part 2:1990 ISO 6474-1981
[3] S.Dorozhkin, E.I.Dorozhkina, O.Gunduz and F.N.Oktar, Key Engineering Materials, 361-363 (2008) 103-106
[6] G.Goller, F.N.Oktar, H.Demirkiran and E.Demirkesen, Key Engineering Materials, 240-242 (2003) 939-942
[12] British Standard Non-Metallic Materials for Surgical Implants.
Part 2 Specification for ceramic materials based on alumina, BS 7253: Part 2:1990 ISO 6474-1981
Online since: June 2010
Authors: Waldemar Serbiński, Beata Majkowska
Cavitation Wearing of the SUPERSTON Alloy After
Laser Treatment at Cryogenic Conditions
Beata Majkowska1a
, Waldemar Serbinski
1b
1
Department of Materials Science and Engineering, Faculty of Mechanical Engineering, Gdansk
University of Technology, 11/12 Narutowicza Str.
80-233 Gdansk, Poland
a
bmajkows@mech.pg.gda.pl, bwserbins@pg.gda.pl
Keywords: SUPERSTON alloy, laser remelting, microstructure, cavitation
Abstract.
Surface microstructure of the SUPERSTON alloy after cavitation test for (a) - casted material, (b) - laser remelted material (4000 W; 0.5 m/min) Fig. 7.
Materials Characterization Vol. 48 (2002), p. 37-41.
Advances and Materiale Science Vol. 4 (2003), p. 71-80.
Journal of Achievements in Materials and Manufacturing Engineering Vol. 2 (2008), p. 199-202.
Surface microstructure of the SUPERSTON alloy after cavitation test for (a) - casted material, (b) - laser remelted material (4000 W; 0.5 m/min) Fig. 7.
Materials Characterization Vol. 48 (2002), p. 37-41.
Advances and Materiale Science Vol. 4 (2003), p. 71-80.
Journal of Achievements in Materials and Manufacturing Engineering Vol. 2 (2008), p. 199-202.
Online since: March 2011
Authors: Yi Li, Xin Lei Li, Shang Kun Ren
So the residual life of materials can be gained by calculating the D value.
Acknowledgements This research was supported by National Science Fund (51065024) and Jiangxi Province Educational Office Science Fund (GJJ10511) References [1] D.
Stupakov: Journal of Magnetism and Magnetic Materials, Vol. 310(2007), p.57 [7] M.Roskosz, P.Gawrilenko: NDT&E International, Vol. 41(2008),41, p.570 [8] E.Yang, L.
Li: Journal of Magnetism and Magnetic Materials, Vol.312(2007), p.72 [9] L.
Wang: Key Engineering Materials, Vol. 324(2006), p.619.
Acknowledgements This research was supported by National Science Fund (51065024) and Jiangxi Province Educational Office Science Fund (GJJ10511) References [1] D.
Stupakov: Journal of Magnetism and Magnetic Materials, Vol. 310(2007), p.57 [7] M.Roskosz, P.Gawrilenko: NDT&E International, Vol. 41(2008),41, p.570 [8] E.Yang, L.
Li: Journal of Magnetism and Magnetic Materials, Vol.312(2007), p.72 [9] L.
Wang: Key Engineering Materials, Vol. 324(2006), p.619.
Online since: July 2016
Authors: Petrică Vizureanu, A.M. Mustafa Al Bakri, Dragos Achiţei, Mirabela Georgiana Minciună, Andrei Victor Sandu
Ratner B D, Biomaterials science: an introduction to materials in medicine, editors.
Materials science foundations, vol 41-43 (2008) 80-88
Biomaterials Science-An Introduction to Materials in Medicine, 2nd ed., Academic Press, Amsterdam 2004
Journal of the Mechanical Behavior of Biomedical Materials, 3 (2010) 623-629
Materials Science Forum, 278 - 281 (1998) 227-235
Materials science foundations, vol 41-43 (2008) 80-88
Biomaterials Science-An Introduction to Materials in Medicine, 2nd ed., Academic Press, Amsterdam 2004
Journal of the Mechanical Behavior of Biomedical Materials, 3 (2010) 623-629
Materials Science Forum, 278 - 281 (1998) 227-235
Online since: September 2014
Authors: Z. Shen, Andreas Chrysanthou, Y.G. Xu
Curtis (1996): Composites Science and Technology, vol.56, p.677 – 84
Yang (2002): Journal of Composite Materials, vol.36, p.851 – 71
Haritos (2013): Key Engineering Materials, vol.525-26, p.521 – 4
Chrysanthou (2014), Key Engineering Materials, vols.577-578, p.545 – 8
Shen (2008): Mechanics of Materials, vol.40, p.183 – 94
Yang (2002): Journal of Composite Materials, vol.36, p.851 – 71
Haritos (2013): Key Engineering Materials, vol.525-26, p.521 – 4
Chrysanthou (2014), Key Engineering Materials, vols.577-578, p.545 – 8
Shen (2008): Mechanics of Materials, vol.40, p.183 – 94