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Online since: March 2013
Authors: J. Liyana, A.M. Mustafa Al Bakri, Che Mohd Ruzaidi Ghazali, M. Bnhussain, H. Kamarudin
The terms refer to any technology that relates to materials ranging from nanoscale to molecular levels.
Palomo, J.S.J.van Deventer, in Journal of Materials Science 2007, 42, p. 2917-2933
International Journal of Engineering, Science and Technology 2010, 5, p. 284-299
Rafiza, in Advanced Materials Research 2011, Vols 341-342, p. 189-193
Zarina, in Advanced Materials Research 2011, Vols 328-330, p.1475-1482
Palomo, J.S.J.van Deventer, in Journal of Materials Science 2007, 42, p. 2917-2933
International Journal of Engineering, Science and Technology 2010, 5, p. 284-299
Rafiza, in Advanced Materials Research 2011, Vols 341-342, p. 189-193
Zarina, in Advanced Materials Research 2011, Vols 328-330, p.1475-1482
Online since: August 2017
Authors: Gang Xu, Ji Fu Shi, Cheng Jia Shen, Qi Zhang Huang, Yue Yun Fang, Yan Qing Ge
Experimental
Materials.
Advanced Functional Materials 2009, 19 (14), 2187-2202
Nature Materials 2003, 2 (6), 402-407
Advanced Materials 2004, 16 (19), 1753-1757
Journal of Materials Chemistry A 2013, 1 (18), 5479-5486
Advanced Functional Materials 2009, 19 (14), 2187-2202
Nature Materials 2003, 2 (6), 402-407
Advanced Materials 2004, 16 (19), 1753-1757
Journal of Materials Chemistry A 2013, 1 (18), 5479-5486
Online since: January 2021
Authors: Yun Fei Xue, Rui Zhi Jian, Shang Cheng Zhou
Noh, Dynamic and quasi-static torsional behavior of tungsten heavy alloy specimens fabricated through sintering, heat-treatment, swaging and aging, Materials Science & Engineering A 247(1-2) (1998) 285-294
Bor, Swaging of liquid phase sintered 90W–7Ni–3Fe tungsten heavy alloy, International Journal of Refractory Metals and Hard Materials 36 (2013) 260-264
Bor, Effect of swaging on microstructure and tensile properties of W–Ni–Fe alloys, International Journal of Refractory Metals and Hard Materials 42 (2014) 126-131
Ramesh, The mechanical properties of tungsten-based composites at very high strain rates, Materials Science & Engineering A 203(1-2) 140-153
Li, Fabrication, characterization, and mechanical properties of 93W–4.9Ni–2.1Fe/95W–2.8Ni–1.2Fe–1Al2O3 heavy alloy composites, Materials Science and Engineering: A 636 (2015) 452-458.
Bor, Swaging of liquid phase sintered 90W–7Ni–3Fe tungsten heavy alloy, International Journal of Refractory Metals and Hard Materials 36 (2013) 260-264
Bor, Effect of swaging on microstructure and tensile properties of W–Ni–Fe alloys, International Journal of Refractory Metals and Hard Materials 42 (2014) 126-131
Ramesh, The mechanical properties of tungsten-based composites at very high strain rates, Materials Science & Engineering A 203(1-2) 140-153
Li, Fabrication, characterization, and mechanical properties of 93W–4.9Ni–2.1Fe/95W–2.8Ni–1.2Fe–1Al2O3 heavy alloy composites, Materials Science and Engineering: A 636 (2015) 452-458.
Online since: September 2024
Authors: Farhan Aryo Hutomo, Azzah Dyah Pramata, Paundra Rizky Pratama
However, because of their low stability under humid conditions, Cu2O QDs must be combined with other materials to avert spontaneous transformation into CuO.
Materials and Method Materials.
Advanced Materials, 31(50), 1901997. (2019) [11] Hashimoto, K., Irie, H, A.
J., Gilbert-Bass, K., Chemistry of Materials, 31(7), 2677-2682. (2019) [15] Koiki, B.A. and Arotiba, O.A., RSC advances, 10(60), 36514-36525. (2020) [16] Yuan, B., Qian, H., Cao, L., Advanced Engineering Materials. (2023) [17] Sun, W., Guo, R., Shi, C., Catalysis Letters, 1-13. (2023) [18] Rej, S., Bisetto, M., Naldoni, A., Journal of Materials Chemistry A, 9(10), 5915-5951. (2021) [19] Giannozzi, P., Baseggio, O., The Journal of chemical physics, 152(15), 154105. (2020) [20] Giannozzi, P., Andreussi, O., Journal of physics: Condensed matter, 29(46), 465901. (2017) [21] Su, Y., Li, H., Ma, H., ACS Applied Materials & Interfaces, 9(9), 8100-8106. (2017) [22] Tsolekile, N., Ncapayi, V., International Journal of Nanomedicine, 7065-7078. (2019) [23] Muiruri, A., Maringa, M. and du Preez, W., Materials, 13(23), 5355. (2020) [24] Pattadar, D.K. and Zamborini, F.P., Langmuir, 35(50), 16416-16426. (2019) [25] Zheng, M.W., Yang, S.J., Pu, Y.C., Chemosphere, 307, 135984. (2022) [26] Chaves
, A., Azadani, J.G., Alsalman, H., npj 2D Materials and Applications, 4(1), 29. (2020) [27] Borlido, P., Aull, T., Journal of chemical theory and computation, 15(9), 5069-5079. (2019) [28] Jubu, P.R., Yam, F.K., Journal of Solid State Chemistry, 290, 121576. (2020) [29] Wu, K., Cao, M., Zeng, Q. and Li, X., Green Energy & Environment. (2022) [30] Mazarji, M., Kuthiala, S., Tsapekos, Science of the Total Environment, 682, 47-58. (2019) [31] Dervishi, E., Ji, Z., Htoon, H., Nanoscale, 11(35),16571-16581. (2019) [32] Guo, H., Zhang, R., Li, H., Nano Letters, 20(4), 2674-2680. (2020) [33] Yu, T., Zhao, Z., Journal of the American Chemical Society,141(4),1599-1605. (2019) [34] Abdolkarimi-Mahabadi, Theoretical and Experimental Chemistry, 57, 191-198. (2021) [35] Toe, C.Y., Scott, J., Amal, R. and Ng, Y.H.
Materials and Method Materials.
Advanced Materials, 31(50), 1901997. (2019) [11] Hashimoto, K., Irie, H, A.
J., Gilbert-Bass, K., Chemistry of Materials, 31(7), 2677-2682. (2019) [15] Koiki, B.A. and Arotiba, O.A., RSC advances, 10(60), 36514-36525. (2020) [16] Yuan, B., Qian, H., Cao, L., Advanced Engineering Materials. (2023) [17] Sun, W., Guo, R., Shi, C., Catalysis Letters, 1-13. (2023) [18] Rej, S., Bisetto, M., Naldoni, A., Journal of Materials Chemistry A, 9(10), 5915-5951. (2021) [19] Giannozzi, P., Baseggio, O., The Journal of chemical physics, 152(15), 154105. (2020) [20] Giannozzi, P., Andreussi, O., Journal of physics: Condensed matter, 29(46), 465901. (2017) [21] Su, Y., Li, H., Ma, H., ACS Applied Materials & Interfaces, 9(9), 8100-8106. (2017) [22] Tsolekile, N., Ncapayi, V., International Journal of Nanomedicine, 7065-7078. (2019) [23] Muiruri, A., Maringa, M. and du Preez, W., Materials, 13(23), 5355. (2020) [24] Pattadar, D.K. and Zamborini, F.P., Langmuir, 35(50), 16416-16426. (2019) [25] Zheng, M.W., Yang, S.J., Pu, Y.C., Chemosphere, 307, 135984. (2022) [26] Chaves
, A., Azadani, J.G., Alsalman, H., npj 2D Materials and Applications, 4(1), 29. (2020) [27] Borlido, P., Aull, T., Journal of chemical theory and computation, 15(9), 5069-5079. (2019) [28] Jubu, P.R., Yam, F.K., Journal of Solid State Chemistry, 290, 121576. (2020) [29] Wu, K., Cao, M., Zeng, Q. and Li, X., Green Energy & Environment. (2022) [30] Mazarji, M., Kuthiala, S., Tsapekos, Science of the Total Environment, 682, 47-58. (2019) [31] Dervishi, E., Ji, Z., Htoon, H., Nanoscale, 11(35),16571-16581. (2019) [32] Guo, H., Zhang, R., Li, H., Nano Letters, 20(4), 2674-2680. (2020) [33] Yu, T., Zhao, Z., Journal of the American Chemical Society,141(4),1599-1605. (2019) [34] Abdolkarimi-Mahabadi, Theoretical and Experimental Chemistry, 57, 191-198. (2021) [35] Toe, C.Y., Scott, J., Amal, R. and Ng, Y.H.
Online since: October 2019
Authors: Yasmeen Taleb Obaidat
Material behaviour for the reinforcement steel bars was assumed elastic-plastic material.
Construction and Building Materials, 17(6-7), pp.439-446.(2003) [2] Saadatmanesh, H., Ehsani, M.R. and Li, M.W.
Structural Journal, 91(4), pp.434-447
HBRC Journal. (2016) [7] Obaidat,Y.T., Haddad, R.H.
Timoshenko, Mechanics of Materials, PWS Publishing Company, Boston, Massachusetts, (1997)
Construction and Building Materials, 17(6-7), pp.439-446.(2003) [2] Saadatmanesh, H., Ehsani, M.R. and Li, M.W.
Structural Journal, 91(4), pp.434-447
HBRC Journal. (2016) [7] Obaidat,Y.T., Haddad, R.H.
Timoshenko, Mechanics of Materials, PWS Publishing Company, Boston, Massachusetts, (1997)
Online since: November 2012
Authors: Su Qin Jiang, Hong Guang Xu
Fig.6 The contour of fatigue life by LSP Fig.7 Fracture morphology of ZK60 in the
with 3 times peening affected region
Compared Results of two Materials.
Acknowledgments This work was supported by the Open Fund of Jiangsu Provincial Key Laboratory for Science and Technology of Photon Manufacturing (No.
Han: High-Performance Wrought Magnesium Alloy and Processing Technology (Science Press, chinese, 2007) [2] H E Freedrich and B L.
(in Chinese) [5] Omar Hatamleh, Jed Lyons and Royce Forman: International Journal of Fatigue, Vol. 29(2007), p. 421 [6] C S.
Montross, T Wei, L Ye, and et al: International Journal of Fatigue, Vol. 24 (2002), p. 1021 [7] R.
Acknowledgments This work was supported by the Open Fund of Jiangsu Provincial Key Laboratory for Science and Technology of Photon Manufacturing (No.
Han: High-Performance Wrought Magnesium Alloy and Processing Technology (Science Press, chinese, 2007) [2] H E Freedrich and B L.
(in Chinese) [5] Omar Hatamleh, Jed Lyons and Royce Forman: International Journal of Fatigue, Vol. 29(2007), p. 421 [6] C S.
Montross, T Wei, L Ye, and et al: International Journal of Fatigue, Vol. 24 (2002), p. 1021 [7] R.
Online since: March 2012
Authors: Jamal Kashani, Mohammed Rafiq Abdul Kadir, Abbas Azari, Zohreh Arabshahi
Materials and Methods
The geometry of the lower jaw of a 34 year-old patient was obtained from a CT scan images of 98 slices, with 1mm slice thickness.
Journal of Oral and Maxillofacial Surgery.
Journal of Oral and Maxillofacial Surgery.
Journal of Cranio-Maxillofacial Surgery.
The Journal of Prosthetic Dentistry.
Journal of Oral and Maxillofacial Surgery.
Journal of Oral and Maxillofacial Surgery.
Journal of Cranio-Maxillofacial Surgery.
The Journal of Prosthetic Dentistry.
Online since: December 2012
Authors: Nurshahidah Osman, Azuraida Amat, Nurazlin Ahmad, Kaida Khalid
Materials and Methodology
The MES was performed by Dry Distillation (DD) and Wet Distillation (WD) at irradiation power of about 450 W and temperature about 100 oC for 1 hour whereas CEM was performed by Hydro Distillation (HD) and Steam Distillation (SD) at extraction power of 450 W and temperature 100 oC for 8 hours.
Spiro: Study of Microwave extraction of essential oil constituents from plant materials.
Journal of Microwave Power Electromagnetic Energy, Vol. 29 (1994), p. 231-241
Spiro: Study of Microwave Extraction of Essential Oil Constituents from Plant Materials, Journal of Microwave Power and Electromagnetic Energy, Vol. 29 (4) (1994), p. 231-241
Pare: Microwave-Assisted Extraction from Materials Containing Organic Matter, U.S.A Patent 5,458,897, (1995).
Spiro: Study of Microwave extraction of essential oil constituents from plant materials.
Journal of Microwave Power Electromagnetic Energy, Vol. 29 (1994), p. 231-241
Spiro: Study of Microwave Extraction of Essential Oil Constituents from Plant Materials, Journal of Microwave Power and Electromagnetic Energy, Vol. 29 (4) (1994), p. 231-241
Pare: Microwave-Assisted Extraction from Materials Containing Organic Matter, U.S.A Patent 5,458,897, (1995).
Online since: April 2025
Authors: Sajjad Ali Mangi, Ayan Raza, Afshan Siddqui, Muhammad Imran, Cai Ping Wang
Limitations
The methodology has several limitations: data quality issues, missing critical features like weather conditions and building materials, and the computational complexity of ensemble models.
Fire Spread Simulation Using MXL The MXL model was employed to simulate the spread of fire across different zones in Karachi, taking into account factors such as building materials, wind conditions, and the density of structures in each zone.
Fire Spread Patterns The simulation revealed that Industrial areas, residential blocks, and warehouse districts were highly vulnerable to fire spread due to flammable materials, inadequate fire barriers, dense populations, and limited resources.
Journal of Artificial Intelligence and Data Science, 9(3), 155-172
Journal of Computational Science, 55, 101023.
Fire Spread Simulation Using MXL The MXL model was employed to simulate the spread of fire across different zones in Karachi, taking into account factors such as building materials, wind conditions, and the density of structures in each zone.
Fire Spread Patterns The simulation revealed that Industrial areas, residential blocks, and warehouse districts were highly vulnerable to fire spread due to flammable materials, inadequate fire barriers, dense populations, and limited resources.
Journal of Artificial Intelligence and Data Science, 9(3), 155-172
Journal of Computational Science, 55, 101023.
Online since: June 2020
Authors: Marini Sawawi, Sapawi Rohana, Uda Hashim, Afiqah Bahrin, Rafidah Kemat, Muhammad Kashif, Nur Tahirah Razali, Mohamad Rusof Mahmood, Kuryati Kipli, Nazreen Junaidi, Siti Kudnie Sahari, Zainab Ngaini
Journal of Solid State Electrochemistry, 21(3) (2016) 891-903
Hamid, Study of reduced graphene oxide film incorporated of TiO2 species for efficient visible light driven dye-sensitized solar cell, Journal of Materials Science: Materials in Electronics, 28(4) (2016) 3819-3836
Serp, Graphene-based materials for catalysis.
Journal of Nanomaterials, 2017 (2017) 1-13
Journal of Materials Science: Materials in Electronics, 28(18) (2017) 13678-13689
Hamid, Study of reduced graphene oxide film incorporated of TiO2 species for efficient visible light driven dye-sensitized solar cell, Journal of Materials Science: Materials in Electronics, 28(4) (2016) 3819-3836
Serp, Graphene-based materials for catalysis.
Journal of Nanomaterials, 2017 (2017) 1-13
Journal of Materials Science: Materials in Electronics, 28(18) (2017) 13678-13689