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Online since: October 2018
Authors: O.S. Zueva, A.O. Makarova, Y.K. Mongush
Makarova2,3,c
1Kazan State Power Engineering University, 51 Krasnoselskaya str., Kazan 420066, Russia
2Kazan Institute of Biochemistry and Biophysics, 2/31 Lobachevsky str., Kazan 420111, Russia
aostefzueva@mail.ru, bmongushyudenma@mail.ru, ctat355@mail.ru
Keywords: carbon nanotubes, surfactant, micelles, adsorption, dispersion.
Introduction The peculiarities of the structure and the properties of carbon nanotubes allow to use them in engineering of various devices, including for soft electronics (flexible and stretchable electronics) [1,2], as well as for photonics and optoelectronics [3,4].
Makarova, Nanomaterial effect study in the viscosity characteristics of fuel oil and alternative fuels used at fuel and energy complex enterprises, Journal of Engineering and Applied Sciences, 11 (2016) 2950-2954
Akhmetvalieva, et al., Influence of nanoadditives on rheological properties of fuel oil, Advances in Engineering Research, 133 (2017) 914-920
Forum, 870 (2016) 666-670
Introduction The peculiarities of the structure and the properties of carbon nanotubes allow to use them in engineering of various devices, including for soft electronics (flexible and stretchable electronics) [1,2], as well as for photonics and optoelectronics [3,4].
Makarova, Nanomaterial effect study in the viscosity characteristics of fuel oil and alternative fuels used at fuel and energy complex enterprises, Journal of Engineering and Applied Sciences, 11 (2016) 2950-2954
Akhmetvalieva, et al., Influence of nanoadditives on rheological properties of fuel oil, Advances in Engineering Research, 133 (2017) 914-920
Forum, 870 (2016) 666-670
Online since: July 2015
Authors: Mohamad Syazli Fathi, Juliana Brahim, Suzila Mohd, Aryani Ahmad Latiffi
Building Information Modeling (BIM): Exploring Level of Development (LOD) in Construction Projects
Aryani Ahmad Latiffi1, a, Juliana Brahim2,b, Suzila Mohd3,c and Mohamad Syazli Fathi4,d
1,2,3 Department of Construction Management, Faculty of Technology Management and Business, Universiti Tun Hussein Onn Malaysia (UTHM), 86400 Parit Raja, Batu Pahat, Johor, Malaysia
4 UTM Razak School of Engineering and Advanced Technology, Universiti Teknologi Malaysia (UTM), 54100 Kuala Lumpur, Malaysia
aaryani@uthm.edu.my, bju_brahim@yahoo.com, csuzilamohd@gmail.com, dsyazli@utm.my
Keywords: Building Information Modeling (BIM), Level of Development (LOD), Public Sector, Private Sector, Malaysian Construction Industry
Abstract.
The LOD concept is introduced in BIM to enable construction players in the Architecture, Engineering and Construction (AEC) industry to specify and articulate with a high level of content clarity as well as reliability of the 3D models at various stages [2].
The uses of BIM in construction project life cycle have involved a group of construction players (client, architect, structural engineer, mechanical and electrical (M&E) engineer, quantity surveyor and contractor) in order to manage construction projects.
Information on http://www.bimmepaus.com.au/libraries/resources/BMA%20Forum%202012/bim%2020level%20of%20detail.pdf
In Computing in Civil and Building Engineering. (2014). 129-136
The LOD concept is introduced in BIM to enable construction players in the Architecture, Engineering and Construction (AEC) industry to specify and articulate with a high level of content clarity as well as reliability of the 3D models at various stages [2].
The uses of BIM in construction project life cycle have involved a group of construction players (client, architect, structural engineer, mechanical and electrical (M&E) engineer, quantity surveyor and contractor) in order to manage construction projects.
Information on http://www.bimmepaus.com.au/libraries/resources/BMA%20Forum%202012/bim%2020level%20of%20detail.pdf
In Computing in Civil and Building Engineering. (2014). 129-136
Online since: March 2020
Authors: Maizatul Shima Shaharun, Duvvria Subbarao, Noor Asmawati Mohd Zabidi, Sara F.H. Tasfy
Subbarao2,d
1Department of Chemical and Petroleum Engineering, American University of Ras Al Khaimah, 10021 Ras Al Khaimah, UAE
2Department of Fundamental and Applied Science, Universiti Teknologi PETRONAS, Bandar Seri Iskandar, 31750 Tronoh, Perak, Malaysia
asara.tasfy@aurak.ac.aeemail, bnoorasmawati_mzabidi@utp.edu.my, cmaizats@petronas.com.my, dsubbarao_duvvuri@yahoo.com
Keywords: CO2 Hydrogenation, methanol synthesis, catalyst synthesis and characterization
Abstract.
The results showed that from alteration of the support zeta potential affect the surface adsorption to Cu2+ and Zn2+ in addition to advanced formation of the precipitate over the surface of SBA-15 was obtained at pH of 7.
Subbarao, "The Influence of Mn, Zr and Pb Promoters on the Performance of Cu/ZnO/SBA-15 Catalyst for Hydrogenation of CO2 to Methanol," in Defect and Diffusion Forum 365 (2015) 178-182
Elbagir, "Carbon Dioxide Hydrogenation to Methanol over Cu/ZnO-SBA-15 Catalyst: Effect of Metal Loading," in Defect and Diffusion Forum, 380 (2017) 151-160
The results showed that from alteration of the support zeta potential affect the surface adsorption to Cu2+ and Zn2+ in addition to advanced formation of the precipitate over the surface of SBA-15 was obtained at pH of 7.
Subbarao, "The Influence of Mn, Zr and Pb Promoters on the Performance of Cu/ZnO/SBA-15 Catalyst for Hydrogenation of CO2 to Methanol," in Defect and Diffusion Forum 365 (2015) 178-182
Elbagir, "Carbon Dioxide Hydrogenation to Methanol over Cu/ZnO-SBA-15 Catalyst: Effect of Metal Loading," in Defect and Diffusion Forum, 380 (2017) 151-160
Online since: January 2016
Authors: Ridho Bayuaji, Sonny Irawan, Raja Rajeswary Suppiah, Alagu Karthik Valliappan
Richmond: Levelton Engineering Ltd.
World Academy of Science, Engineering and Technology
Advanced Materials Research, pp. 1475-1482
Society of Petroleum Engineers
International Journal of Computational Engineering Research (IJCER)
World Academy of Science, Engineering and Technology
Advanced Materials Research, pp. 1475-1482
Society of Petroleum Engineers
International Journal of Computational Engineering Research (IJCER)
Online since: November 2010
Authors: Andrew K. Whittaker, Traian V. Chirila, Zeke Barnard, Z. Zainuddin, Imelda Keen
Degradable Hydrogels for Tissue Engineering − Part II: Responses of Fibroblasts and Macrophages to Linear PHEMA
Imelda Keen1-3,a, Traian V.
As biodegradability would clearly expand the applications of PHEMA in tissue engineering, we are investigating [6] a method to render this polymer into a biodegradable material by introducing enzymatically degradable crosslinks in its structure.
Even in the absence of implants, this process is exceedingly complex and not completely elucidated despite of significant advances over the past five decades.
This aspect is especially important when an implanted biomaterial undergoes biodegradation within tissues, an unavoidable situation in the case of using polymers as carriers for controlled drug release or as scaffolds for tissue engineering applications.
Forum Vol. 17 (1993) p.57
As biodegradability would clearly expand the applications of PHEMA in tissue engineering, we are investigating [6] a method to render this polymer into a biodegradable material by introducing enzymatically degradable crosslinks in its structure.
Even in the absence of implants, this process is exceedingly complex and not completely elucidated despite of significant advances over the past five decades.
This aspect is especially important when an implanted biomaterial undergoes biodegradation within tissues, an unavoidable situation in the case of using polymers as carriers for controlled drug release or as scaffolds for tissue engineering applications.
Forum Vol. 17 (1993) p.57
Online since: August 2021
Authors: Volodymyr V. Drahobetskyi, Mykhailo E. Taranenko, Viktoriia D. Kulynych
Shapoval, Development of the metal rheology model of high-temperature deformation for modeling by finite element method, EUREKA, Physics and Engineering. 2 (2019) 52-60
Zhytnikov, Computerized simulation of shortened ingots with a controlled crystallization for manufacturing of high-quality forgings, International Journal of Advanced Manufacturing Technology. 103(5-8) (2019) 3057-3065
Shapoval, Method of determination of technological durability of plastically deformed sheet parts of vehicles, International Journal of Engineering and Technology (UAE). 7(4) (2018) 92-99
Key Engineering Materials, 864 (2020) 285-291
Gurenko, Modeling dynamic parameters of hard alloys during shock wave regeneration, IOP Conference Series: Materials Science and Engineering. 969(1) (2020) № 012079
Zhytnikov, Computerized simulation of shortened ingots with a controlled crystallization for manufacturing of high-quality forgings, International Journal of Advanced Manufacturing Technology. 103(5-8) (2019) 3057-3065
Shapoval, Method of determination of technological durability of plastically deformed sheet parts of vehicles, International Journal of Engineering and Technology (UAE). 7(4) (2018) 92-99
Key Engineering Materials, 864 (2020) 285-291
Gurenko, Modeling dynamic parameters of hard alloys during shock wave regeneration, IOP Conference Series: Materials Science and Engineering. 969(1) (2020) № 012079
Online since: November 2016
Authors: Maha El-Meligy, Eman El-Shenawy, Taher El-Bitar
Pugh, “Properties of thermomechanically processed dual-phase steels containing fibrous martensite”, Materials Science and Engineering A, 335 (2002) 298–308
Jpn.), 23 (1983), 303. 1000 °C [5] Kumar A, Singh S B, Ray K K, “Influence of Bainite/Martensite-Content on the Tensile Properties of Low Carbon Dual Phase Steels”, Materials Science and Engineering A, 474 (2008), 270 - 282
[10] Shaopeng Qu, Yucheng Zhang, Xiaolu Pang, Kewei Gao, “Influence of temperature field on the microstructure of low carbon microalloyed ferrite–bainite dual-phase steel during heat treatment”, Materials Science and Engineering A, 536 (2012) 136– 142 [11] Y.
[13] Taher El-Bitar, Eman El-Shenawy& Maha El-meligy,“Development of Ferrite–Bainite Dual Phase (FBDP) high strength steel for automotive industries”, Key Engineering Materials Vols. 622-623 (2014) pp 840-845 [14] A.
Kolodziej, “Dilatometric study of phase transformations in advanced high-strength bainitic steel”, Journal of Thermal Analysis and Calorimetry (2014) 118:739–748
Jpn.), 23 (1983), 303. 1000 °C [5] Kumar A, Singh S B, Ray K K, “Influence of Bainite/Martensite-Content on the Tensile Properties of Low Carbon Dual Phase Steels”, Materials Science and Engineering A, 474 (2008), 270 - 282
[10] Shaopeng Qu, Yucheng Zhang, Xiaolu Pang, Kewei Gao, “Influence of temperature field on the microstructure of low carbon microalloyed ferrite–bainite dual-phase steel during heat treatment”, Materials Science and Engineering A, 536 (2012) 136– 142 [11] Y.
[13] Taher El-Bitar, Eman El-Shenawy& Maha El-meligy,“Development of Ferrite–Bainite Dual Phase (FBDP) high strength steel for automotive industries”, Key Engineering Materials Vols. 622-623 (2014) pp 840-845 [14] A.
Kolodziej, “Dilatometric study of phase transformations in advanced high-strength bainitic steel”, Journal of Thermal Analysis and Calorimetry (2014) 118:739–748
Online since: October 2021
Authors: Vu Ngoc Pi, Xuan Tu Hoang, Nguyen Anh Tuan, Ngoc Huy Thinh Tran, Khac Khanh Bui, Thanh Tu Nguyen
[2] Tran Thi Hong et al., “Effect of Dressing Parameters on Material Removal Rate when Surface Grinding SKD11 Tool Steel”, Materials Science Forum Vol. 1020, pp.60-67 (2021)
Mills, “A Grinding Power Model for Selection of Dressing and Grinding Conditions”, Journal of Manufacturing Science and Engineering, Vol. 121, pp.632-637, (1999)
[10] ALEKSANDROVA Irina, “Optimization of the Dressing Parameters in Cylindrical Grinding Based on a Generalized Utility Function”, CHINESE JOURNAL OF MECHANICAL ENGINEERING, Vol. 29, No. 1, pp.63-73 (2016)
[11] Haoyang Cao, Xun Chen and Haolin Li, “Dressing strategy and grinding control for cylindrical microstructural surface”, The International Journal of Advanced Manufacturing Technology, Vol. 99, pp.707–727, (2018)
Series: Materials Science and Engineering 542 (2019)
Mills, “A Grinding Power Model for Selection of Dressing and Grinding Conditions”, Journal of Manufacturing Science and Engineering, Vol. 121, pp.632-637, (1999)
[10] ALEKSANDROVA Irina, “Optimization of the Dressing Parameters in Cylindrical Grinding Based on a Generalized Utility Function”, CHINESE JOURNAL OF MECHANICAL ENGINEERING, Vol. 29, No. 1, pp.63-73 (2016)
[11] Haoyang Cao, Xun Chen and Haolin Li, “Dressing strategy and grinding control for cylindrical microstructural surface”, The International Journal of Advanced Manufacturing Technology, Vol. 99, pp.707–727, (2018)
Series: Materials Science and Engineering 542 (2019)
Online since: July 2004
Authors: R.A. Varin, David Wexler, Andrzej Calka, S. Li
Wexler2
1
Department of Mechanical Engineering, University of Waterloo, Waterloo, Canada N2L 3G1
2 Department of Materials Science and Engineering, University of Wollongong, Wollongong, NSW
2518, Australia
Keywords: Mg-Fe System, Controlled Reactive Mechanical Alloying, Nanocrystalline and
Amorphous Hydrides, Hydrogen Thermal Desorption
Abstract.
Scientific Engineering Pty Ltd, Australia).
Acknowledgements This work was supported by a grant from the Natural Sciences and Engineering Research Council of Canada, which is gratefully acknowledged References [1] L.Schlapbach, A.
On Processing and Fabrication of Advanced Materials IX (PFAM-IX), T.S.
Forum Vol. 235-238 (1997) pp.91-96
Scientific Engineering Pty Ltd, Australia).
Acknowledgements This work was supported by a grant from the Natural Sciences and Engineering Research Council of Canada, which is gratefully acknowledged References [1] L.Schlapbach, A.
On Processing and Fabrication of Advanced Materials IX (PFAM-IX), T.S.
Forum Vol. 235-238 (1997) pp.91-96
Online since: June 2011
Authors: Shan Shan Cao, Minoru Nishida, Dominique Schryvers
Acknowledgements
This work was performed in the framework of a European FP6 project “Multi-scale modelling and characterization for phase transformations in advanced materials” (MRTN-CT-2004-505226).
Forum Vol. 583 (2008), p. 277
Yamamuro, Materials Science and Engineering: A Vol. 438-440 (2006), p. 489
Eggeler, Materials Science and Engineering a-Structural Materials Properties Microstructure and Processing Vol. 378 (2004), p. 152
Somsen, Materials Science and Engineering a-Structural Materials Properties Microstructure and Processing Vol. 378 (2004), p. 148
Forum Vol. 583 (2008), p. 277
Yamamuro, Materials Science and Engineering: A Vol. 438-440 (2006), p. 489
Eggeler, Materials Science and Engineering a-Structural Materials Properties Microstructure and Processing Vol. 378 (2004), p. 152
Somsen, Materials Science and Engineering a-Structural Materials Properties Microstructure and Processing Vol. 378 (2004), p. 148