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Online since: May 2012
Authors: Ying Zhu, Jian Ping Zhou, Zhi Ye Wang
According to diverse immobilized materials, e.g. microbial cell or various enzymes, immobilized carrier can be selected.
Materials and methods Materials: Saccharomyces cerevisiae, offered by Gansu Microbiology Save Centre in China.
Immobilized materials, including Ca-alginate, agar, gelatin-glutaraldehyde and polyvinyl alcohol saved in the laboratory.
Journal of Biotechnology 150 , 215–223
Journal of Food Engineering 90, 495–503
Materials and methods Materials: Saccharomyces cerevisiae, offered by Gansu Microbiology Save Centre in China.
Immobilized materials, including Ca-alginate, agar, gelatin-glutaraldehyde and polyvinyl alcohol saved in the laboratory.
Journal of Biotechnology 150 , 215–223
Journal of Food Engineering 90, 495–503
Online since: January 2013
Authors: Shu Ming Wen, Shao Jun Bai, Qi Cheng Feng, Ci Yun Chen, He Fei Zhao
Experimental
Materials.
He: Journal of South China Normal University (Natural Science Edition).
Deng: Advanced Materials Research.
Vol. 524-527(2012), p. 965-968 [4] Alp I, Deveci H, Yazici E Y: Journal of Hazardous Materials.
Peng: Journal of Hazardous Materials.
He: Journal of South China Normal University (Natural Science Edition).
Deng: Advanced Materials Research.
Vol. 524-527(2012), p. 965-968 [4] Alp I, Deveci H, Yazici E Y: Journal of Hazardous Materials.
Peng: Journal of Hazardous Materials.
Online since: June 2022
Authors: Do Huu Hoang, Nguyen Viet Dung, Hoang Thi Nam Huong
Soil Science Society of American Journal, 55, 291–293
Fikiin., (1999): “Predictive equations for thermophysical properties and enthalpy during cooling and freezing of food materials”.
Soil Science Society of American Journal, 59, 719–726
[11] Ladbury, J.E.S.D., Currel, B.R., Horder, J.R., Parsonage, J.R., and Vidgeon, E.A. (1990): “Application of DSC for the measurement of the thermal conductivity of elastomeric materials”.
K.; Hayakawa, K.; Datta, A. (1996a) Recommended design parameters for thermal conductivity probes for nonfrozen food materials.
Fikiin., (1999): “Predictive equations for thermophysical properties and enthalpy during cooling and freezing of food materials”.
Soil Science Society of American Journal, 59, 719–726
[11] Ladbury, J.E.S.D., Currel, B.R., Horder, J.R., Parsonage, J.R., and Vidgeon, E.A. (1990): “Application of DSC for the measurement of the thermal conductivity of elastomeric materials”.
K.; Hayakawa, K.; Datta, A. (1996a) Recommended design parameters for thermal conductivity probes for nonfrozen food materials.
Online since: February 2019
Authors: T.A. Khezhev, Yu.V. Pukharenko, Sergei V. Klyuev, Alexander V. Klyuev
Fibre concretes with finely fibrous fillers, Low-rise construction in the framework of the national project “affordable and comfortable housing for citizens of Russia: technologies and materials, problems and development prospects in Volgograd region” materials of the international scientific practical conference. (2009) 89–90
High-Strength Fiber-Reinforced Concrete Containing Technogenic Raw Materials and Composite Binders with Use of Nanodispersed Powder, Research Journal of Applied Sciences. 9 (2014) 1153–1157
Fine-Grain concrete reinforced by polypropylene fiber, Research Journal of Applied Sciences. 10 (2015) 624–628
The Development of textile fine-grained fiber concrete using technogenic raw materials, Research Journal of Applied Sciences. 10 (2015) 701 – 706
Disperse reinforced steel fibre concrete // Building materials. 9 (2006) 54–55
High-Strength Fiber-Reinforced Concrete Containing Technogenic Raw Materials and Composite Binders with Use of Nanodispersed Powder, Research Journal of Applied Sciences. 9 (2014) 1153–1157
Fine-Grain concrete reinforced by polypropylene fiber, Research Journal of Applied Sciences. 10 (2015) 624–628
The Development of textile fine-grained fiber concrete using technogenic raw materials, Research Journal of Applied Sciences. 10 (2015) 701 – 706
Disperse reinforced steel fibre concrete // Building materials. 9 (2006) 54–55
Online since: August 2018
Authors: Ghiska Ramahdita, Mochamad Chalid, Rai Pratama, Ismojo Ismojo, Anne Zulfia
Hamdan, Materials & Design The effect of alkaline treatment on tensile properties of sugar palm fibre reinforced epoxy composites, Materials and Design 29 (2008) 1285–1290
Prabowo, The Effects of Alkalization to the Mechanical Properties of the Ijuk Fiber Reinforced PLA Biocomposites, International Journal of Chemical, Molecular, Nuclear, Materials and Metallurgical Engineering Vol:9, No:2, (2015)
Series: Materials Science and Engineering 223 (2017) 012020
Series: Materials Science and Engineering 223 (2017) 012042
Series: Materials Science and Engineering 223 (2017) 012057
Prabowo, The Effects of Alkalization to the Mechanical Properties of the Ijuk Fiber Reinforced PLA Biocomposites, International Journal of Chemical, Molecular, Nuclear, Materials and Metallurgical Engineering Vol:9, No:2, (2015)
Series: Materials Science and Engineering 223 (2017) 012020
Series: Materials Science and Engineering 223 (2017) 012042
Series: Materials Science and Engineering 223 (2017) 012057
Online since: February 2014
Authors: W.F. Ng, Mui Nyuk Chai, Mohd Ikmar Nizam Mohamad Isa
Isa3,c
3Advanced Material Research Group; Renewable Energy Research Interest Group
1,2 Department of Physical Sciences, Faculty of Science & Technology,
University Malaysia Terengganu, 21030 Kuala Terengganu, Terengganu, Malaysia
a wfei_1017922@hotmail.com, bpcmn_1211@hotmail.com, cikmar_isa@umt.edu.my
Keywords: Carboxy methylcellulose, citric acid, conductivity, proton conductor.
HATTORI: MATERIALS LETTERS.
ISA: JOURNAL OF CURRENT ENGINEERING RESEARCH.
ROTH: JOURNAL OF SOLID STATE CHEMISTRY VOL. 4(1971), P. 294-310
ISA: INTERNATIONAL JOURNAL OF THE PHYSICAL SCIENCES.
HATTORI: MATERIALS LETTERS.
ISA: JOURNAL OF CURRENT ENGINEERING RESEARCH.
ROTH: JOURNAL OF SOLID STATE CHEMISTRY VOL. 4(1971), P. 294-310
ISA: INTERNATIONAL JOURNAL OF THE PHYSICAL SCIENCES.
Online since: September 2024
Authors: Lorenzo Donati, Sara Di Donato, Riccardo Pelaccia, Marco Negozio, Barbara Reggiani
Di Donato, Advancements in extrusion and drawing: a review of the contributes by the ESAFORM community, International Journal of Material Forming 15(6) (2022)
Tomesani, Extrusion of Light and Ultralight Alloys with Liquid Nitrogen Conformal Cooled Dies: Process Analysis and Simulation, Journal of Materials Engineering and Performance 31(4) (2022) 1-11
Tomesani, Finite Element Model Prediction of Charge Weld Behaviour in AA6082 and AA6063 Extruded Profiles, Journal of Materials Engineering and Performance 30 (2021) 4691-4699
Kulakov, Investigation of the Skin Contamination Predictability by means of QForm UK Extrusion code, Materials Research Proceedings 28 (2023) 543-552
Tekkaya, Industrial Benchmark 2015: Process Monitoring and Analysis of Hollow EN AW-6063 Extruded Profile, Materials Today: Proceedings 2(10) (2015) 4714-4725
Tomesani, Extrusion of Light and Ultralight Alloys with Liquid Nitrogen Conformal Cooled Dies: Process Analysis and Simulation, Journal of Materials Engineering and Performance 31(4) (2022) 1-11
Tomesani, Finite Element Model Prediction of Charge Weld Behaviour in AA6082 and AA6063 Extruded Profiles, Journal of Materials Engineering and Performance 30 (2021) 4691-4699
Kulakov, Investigation of the Skin Contamination Predictability by means of QForm UK Extrusion code, Materials Research Proceedings 28 (2023) 543-552
Tekkaya, Industrial Benchmark 2015: Process Monitoring and Analysis of Hollow EN AW-6063 Extruded Profile, Materials Today: Proceedings 2(10) (2015) 4714-4725
Online since: December 2014
Authors: Jian Zhao Zhou, Li Qun Han, 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: July 2013
Authors: Zheng You, Yajiang Yin, Xiao Feng Wang, Wu Shuang Lu, Xiang Yu Li
The materials heated at 300℃ exhibit the highest rate capacitance of 1080 F·g-1.
After cooled, the electro-active materials and water were mixed together.
Journal of Power Sources.1996.62(2):155
[8] Xiaofeng Wang,Dianbo Ruan.Pesudo-capacitance of ruthenium oxide/carbon black composites for electrochemical capacitor[J].Journal of University of Science and Technology Beijing. 2008.15(6):816-821
Rare metal materials and engineering.2006,35(2):295-298
After cooled, the electro-active materials and water were mixed together.
Journal of Power Sources.1996.62(2):155
[8] Xiaofeng Wang,Dianbo Ruan.Pesudo-capacitance of ruthenium oxide/carbon black composites for electrochemical capacitor[J].Journal of University of Science and Technology Beijing. 2008.15(6):816-821
Rare metal materials and engineering.2006,35(2):295-298
Online since: October 2012
Authors: Da Guo Wang, Jin Xi Miao, Qiang Li
Acknowledgements
This work was financially supported by the National Natural Science Foundation of China (41072235) and the Natural Science Foundation of LiaoNing Province of China (20102006).
Sharan: International Journal of Rock Mechanics & Mining Science Vol. 40(2003), p. 817–824
Kyung, J.K Yong: International Journal of Rock Mechanics & Mining Science Vol. 43(2006), p. 616–622
Cai: Rock Mechanics and Engineering (Science press, China 2002) (in Chinese)
Wang: Journal of Northeastern University (Natural Science) Vol. 26(2005), p.160–163 (in Chinese)
Sharan: International Journal of Rock Mechanics & Mining Science Vol. 40(2003), p. 817–824
Kyung, J.K Yong: International Journal of Rock Mechanics & Mining Science Vol. 43(2006), p. 616–622
Cai: Rock Mechanics and Engineering (Science press, China 2002) (in Chinese)
Wang: Journal of Northeastern University (Natural Science) Vol. 26(2005), p.160–163 (in Chinese)