Sort by:
Publication Type:
Open access:
Publication Date:
Periodicals:
Search results
Online since: December 2024
Authors: Long Li
Introduction
Advances in materials science and manufacturing engineering have led to the design and application of numerous complex structures across various engineering fields.
These structures encompass porous configurations made from metals, non-metallic inorganic materials, polymers, or other complex materials, often characterized by a certain degree of porosity.
Due to their complex geometry and unique properties, TPMS structures have significant applications in fields including material science, physics, chemistry, and biology.
Journal of Materials Research and Technology, 2024, 30: 4950-4960
Experimental and numerical studies on mechanical properties of TPMS structures, International Journal of Mechanical Sciences [J], Volume 261, 2024, 108657
These structures encompass porous configurations made from metals, non-metallic inorganic materials, polymers, or other complex materials, often characterized by a certain degree of porosity.
Due to their complex geometry and unique properties, TPMS structures have significant applications in fields including material science, physics, chemistry, and biology.
Journal of Materials Research and Technology, 2024, 30: 4950-4960
Experimental and numerical studies on mechanical properties of TPMS structures, International Journal of Mechanical Sciences [J], Volume 261, 2024, 108657
Online since: November 2013
Authors: Ji Zhi Huang, Hui Wang, Xiang Gang Yin, Feng Wei
Journal of Colloid and interface Science, 263 (2003)1-7
Materials and Design, 32 (2003) 941-946
Journal of Materials Processing Technology,194 (2007) 89-92
Journal of Colloid and Interface Science, 330 (2009) 237–242
Materials Science & Technology, 2007, 15 (6): 851-857.
Materials and Design, 32 (2003) 941-946
Journal of Materials Processing Technology,194 (2007) 89-92
Journal of Colloid and Interface Science, 330 (2009) 237–242
Materials Science & Technology, 2007, 15 (6): 851-857.
Online since: October 2007
Authors: J.C. Huang, M.C. Kuo, M. Chen, Y.H. Lai
Chen a
a
Institute of Materials Science and Engineering; Center for Nanoscience and Nanotechnology,
National Sun Yat-Sen University, Kaohsiung, Taiwan 804, R.
Ishikawa: Journal of Macromolecular Science, Physics Vol.
Chen: Materials Chemistry and Physics Vol. 90 (2005), p. 185
Chen: Materials Chemistry and Physics Vol. 100 (2006), on line. [12] S.
Lee: Journal of Applied Polymer Science Vol. 94 (2004), p. 812
Ishikawa: Journal of Macromolecular Science, Physics Vol.
Chen: Materials Chemistry and Physics Vol. 90 (2005), p. 185
Chen: Materials Chemistry and Physics Vol. 100 (2006), on line. [12] S.
Lee: Journal of Applied Polymer Science Vol. 94 (2004), p. 812
Online since: July 2013
Authors: Peng Wan Chen, Kai Da Dai, Yuan Yuan, Er Feng An, Jian Rui Feng
Journal of the Mechanics and Physics of Solids. 53 (2005) 2501-2528
Science and Technology of Welding and Joining. 17 (2012) 36-41
Journal of Materials Processing Technology. 209 (2009) 445-454
Journal of Materials Science. 39 (2004) 6457-6466
Materials and Design. 35 (2012) 210-219
Science and Technology of Welding and Joining. 17 (2012) 36-41
Journal of Materials Processing Technology. 209 (2009) 445-454
Journal of Materials Science. 39 (2004) 6457-6466
Materials and Design. 35 (2012) 210-219
Online since: June 2014
Authors: Zhi Rong Wang, Wei Li Wang, Xiao Yan Zhu, Jing Lan Wang, Zhi Jie Han, Ya Hua
Vol. 34 (2005), p.469
[3] X M Rong, Q Y Huang, W L Chen: Acta Ecologica Sinica.Vol. 28(2008), p.376 In Chinese
[4] M F DeFlaun, C W Condee: Journal of Hazardous Materials.
Vol. 28(1997), p.263 [5] J Diaz, M Rendueles, M Diaz: Environmental Science and Pollution Research.
Vol. 33(2013) ,p. 67 In Chinese [18] C Aharoni, S Levinson, I Ravina, et al: Soil Science Society of America Journal.
Vol.55( 1991), p.1307 [19] B H Hameed, D K Mahmoud, A L Ahmad: Journal of Hazardous Materials.
Vol. 158(2008), p.65 [20] H H Jia,B P Han,W X Ma, et al: Environmental Science & Technology.Vol.34 (2011),p.43 In Chinese [21] B K G Theng, V A Orchard: Interactions of clay with microorganisms and bacterial survival in soil: A physicochemical perspective(CRC Press, Florida1995) [22] A Khaled, A Nemr, A El-Sikaily, et al: Journal of Hazardous Materials.
Vol. 28(1997), p.263 [5] J Diaz, M Rendueles, M Diaz: Environmental Science and Pollution Research.
Vol. 33(2013) ,p. 67 In Chinese [18] C Aharoni, S Levinson, I Ravina, et al: Soil Science Society of America Journal.
Vol.55( 1991), p.1307 [19] B H Hameed, D K Mahmoud, A L Ahmad: Journal of Hazardous Materials.
Vol. 158(2008), p.65 [20] H H Jia,B P Han,W X Ma, et al: Environmental Science & Technology.Vol.34 (2011),p.43 In Chinese [21] B K G Theng, V A Orchard: Interactions of clay with microorganisms and bacterial survival in soil: A physicochemical perspective(CRC Press, Florida1995) [22] A Khaled, A Nemr, A El-Sikaily, et al: Journal of Hazardous Materials.
Online since: July 2011
Authors: Bin Tang, Shuang Shou Li, Man Qiong Xu, Da Ben Zeng
Luo, Scripta Materials, 39(1998), p.45
[5] B.Tang, X.
Li, et al., Materials Science and Technology, 21(5) (2005) p.574 [6] X.S.
Wang, Materials Science and Engineering A, 364(2004) p.11 [8] X.S.
Fan, Journal of Materials Science, 39(7) (2004) p.2617 [9] A.
Pekguleryuz, Journal of Materials Science, 20 (1994) p.5259 [10] I.P.
Li, et al., Materials Science and Technology, 21(5) (2005) p.574 [6] X.S.
Wang, Materials Science and Engineering A, 364(2004) p.11 [8] X.S.
Fan, Journal of Materials Science, 39(7) (2004) p.2617 [9] A.
Pekguleryuz, Journal of Materials Science, 20 (1994) p.5259 [10] I.P.
Online since: April 2014
Authors: Luiz Antonio Coelho Lopes, LUIZ ANTONIO Salles
The article aims to discuss the dilemma of controlled use and ban asbestos, and present the progress of the search for alternative materials to asbestos in Brazil.
Introduction This article aims to present the development of studies on alternative materials to asbestos, financed by Brazilian funding agencies for science, technology and innovation.
Although asbestos be listed among the materials that may pose risks to human health, it is handled in different ways, both legally and economically in many different countries.
The Search for Alternative Materials in Brazil The agencies that support research in Brazil funded several projects of construction materials, especially for replacing asbestos.
White, Asbestos and the Future of Mass Torts, Journal of Economic Perspectives, vol. 18 (2), pp 183–204 (2004) [9] H.
Introduction This article aims to present the development of studies on alternative materials to asbestos, financed by Brazilian funding agencies for science, technology and innovation.
Although asbestos be listed among the materials that may pose risks to human health, it is handled in different ways, both legally and economically in many different countries.
The Search for Alternative Materials in Brazil The agencies that support research in Brazil funded several projects of construction materials, especially for replacing asbestos.
White, Asbestos and the Future of Mass Torts, Journal of Economic Perspectives, vol. 18 (2), pp 183–204 (2004) [9] H.
Online since: June 2012
Authors: Jin Ling Song
Among them, cutting materials, rolling and kneading, freezing and packing have already been done with automation[3,4].
Research is carried out based on the analysis of the basic features of soft solids, and materials processing ( with the fresh pork) with macroscopic observation under different loads.
Behavior of Soft Solids under Compressive Loads British Engineering Physical Science Research Council (EPSRC) first proscribed in 1994 the rough definition of soft solids: “those between the non-Newton's body to dry powder, or solids of all materials (but not including dry powder and solid)”.
Acknowledgements The study is supported by Fujian Natural Science Fund (2010J01295) and by Heilongjiang Natural Science Fund (E201043).
Journal of Dalian Jiaotong University, 2009, 30 (4) p18-21 [7] Jia Yujing.
Research is carried out based on the analysis of the basic features of soft solids, and materials processing ( with the fresh pork) with macroscopic observation under different loads.
Behavior of Soft Solids under Compressive Loads British Engineering Physical Science Research Council (EPSRC) first proscribed in 1994 the rough definition of soft solids: “those between the non-Newton's body to dry powder, or solids of all materials (but not including dry powder and solid)”.
Acknowledgements The study is supported by Fujian Natural Science Fund (2010J01295) and by Heilongjiang Natural Science Fund (E201043).
Journal of Dalian Jiaotong University, 2009, 30 (4) p18-21 [7] Jia Yujing.
Online since: March 2019
Authors: Nur Hidayati Othman, Aqilah Dollah, Azzah Nazihah Che Abdul Rahim, Nur Shuhadah Japperi, Mohamad Firdaus Mohamad Salleh, Siti Nurliyana Che Mohamed Hussein
Journal of Dispersion Science and Technology, 2007. 28(7): p. 1020-1029
Journal of Petroleum Science and Engineering, 2004. 45(1): p. 47-60
Bulletin of Materials Science, 2008. 31(5): p. 713-717
MATERIALS TRANSACTIONS, 2009. 50(8): p. 2092-2097
Journal of Petroleum Science and Engineering, 2012. 81: p. 122-128
Journal of Petroleum Science and Engineering, 2004. 45(1): p. 47-60
Bulletin of Materials Science, 2008. 31(5): p. 713-717
MATERIALS TRANSACTIONS, 2009. 50(8): p. 2092-2097
Journal of Petroleum Science and Engineering, 2012. 81: p. 122-128