Sort by:
Publication Type:
Open access:
Publication Date:
Periodicals:
Search results
Online since: March 2012
Authors: Xiao Jing Li, Dong Man Yu, Zhong Ya Wang
In the rapid development of the computer technology today, the computer simulation has become an efficiency tool for solving practical problems in materials science.
In the rapid development of the computer technology today, the computer simulation has become an efficiency tool for solving practical problems in materials science.
Materials Science and Engineering: A.
Materials & Design.
International Journal of Solids and Structures.
In the rapid development of the computer technology today, the computer simulation has become an efficiency tool for solving practical problems in materials science.
Materials Science and Engineering: A.
Materials & Design.
International Journal of Solids and Structures.
Online since: September 2013
Authors: Hong Zhang, Wei Hua, Qing Ding Wu
Fig. 9 Fracture morphology of warm compacted CSP/Al composite materials
Conclusions
Warm compacted CSP/Al composite materials and related sliding bearings products mentioned here were prepared employing new technology of wood powder warm compacted formation which was developed based on wood science, ceramimetrallurgy and other inter-disciplines of materials forming theory.
Xiang et al: Chinese Journal of Spectroscopy Laboratory.
Wu: New Building Materials.
Yi: Journal of Chongqing Jiaotong University(Natural Science).
Martins: Journal of materials processing technology, Vol. 101(2000), p. 52-63.
Xiang et al: Chinese Journal of Spectroscopy Laboratory.
Wu: New Building Materials.
Yi: Journal of Chongqing Jiaotong University(Natural Science).
Martins: Journal of materials processing technology, Vol. 101(2000), p. 52-63.
Online since: July 2011
Authors: Yan Jin Shi, Yan Feng
Various oil-absorbing materials are introduced.
The limitations of the new oil-absorbing materials are pointed.
Conclusions Compared with the traditional oil-absorbing materials, new oil-absorbing materials overcome the limitations of traditional oil-absorbing materials.
[7] Biao Huang: Journal of Nanjing Forestry University (Natural Sciences Edition), Vol. 28 (2004), p.82, in Chinese
[26] Xiuqi Liu, Guo Zhang, Heqin Xing, Jing Jin: Materials Science & Technology, Vol. 17(2009), p. 816-820, in Chinese
The limitations of the new oil-absorbing materials are pointed.
Conclusions Compared with the traditional oil-absorbing materials, new oil-absorbing materials overcome the limitations of traditional oil-absorbing materials.
[7] Biao Huang: Journal of Nanjing Forestry University (Natural Sciences Edition), Vol. 28 (2004), p.82, in Chinese
[26] Xiuqi Liu, Guo Zhang, Heqin Xing, Jing Jin: Materials Science & Technology, Vol. 17(2009), p. 816-820, in Chinese
Online since: September 2013
Authors: Qiu Feng Li, Yu Wang, Lu Ying Xi
Research on Ultrasonic Testing of Coarse-Grain Materials with Hilbert-Huang Transform
Li Qiufenga, Wang Yu, Xi Luying
Key Laboratory of Nondestructive Testing (Nanchang Hangkong University), Ministry of Education, Nanchang, 330063, China
aqiufenglee@163.com
Keywords: Coarse-grain materials, UT, IMF, Marginal spectrum
Abstract.
Coarse-grained materials are used more and more widely in modern industry.
And however there are some difficulties in ultrasonic NDT of coarse-grained materials, and the major reasons are as followed.
Metallurgical and Materials Transactions A: Physical Metallurgy and Materials Science, 2011, v42, n3, pp: 543-547
Journal of Changchun University of Technology (Natural Science Edition), 2012, v33, n1, pp: 7-10
Coarse-grained materials are used more and more widely in modern industry.
And however there are some difficulties in ultrasonic NDT of coarse-grained materials, and the major reasons are as followed.
Metallurgical and Materials Transactions A: Physical Metallurgy and Materials Science, 2011, v42, n3, pp: 543-547
Journal of Changchun University of Technology (Natural Science Edition), 2012, v33, n1, pp: 7-10
Online since: May 2011
Authors: Yun Wang
Outlook
New starch-based architectural gelled materials have fairly vast application prospects in three aspects below:
Architectural gelled materials for civil architecture.
Journal of Xinjiang University(Natural Science Edition) .2010,Vol.27,No.176-80 [4] Fanta G F, Felker F C, Salch JH.
Journal of Applied Polymer Science.2003, 89: 3323-332 [5] Xiao-qing Huang, Guang-liang Li, Wei-qin Zhu.
Journal of Northwest Minorities University(Natural Science).2000, Vol.21 No.3:21-22 [13] Peng Xu,Xiao-dong Shen,Bai-qian Zhong.
Journal of South China University of Technology(Natural Science Edition). 2005,Vol.l33 No.6:74-78 [18] Chen-hui Ju,Jian-dong Ye,Xian-liang Song,et al.
Journal of Xinjiang University(Natural Science Edition) .2010,Vol.27,No.176-80 [4] Fanta G F, Felker F C, Salch JH.
Journal of Applied Polymer Science.2003, 89: 3323-332 [5] Xiao-qing Huang, Guang-liang Li, Wei-qin Zhu.
Journal of Northwest Minorities University(Natural Science).2000, Vol.21 No.3:21-22 [13] Peng Xu,Xiao-dong Shen,Bai-qian Zhong.
Journal of South China University of Technology(Natural Science Edition). 2005,Vol.l33 No.6:74-78 [18] Chen-hui Ju,Jian-dong Ye,Xian-liang Song,et al.
Online since: January 2016
Authors: Sergey A. Aksenov, Ivan Y. Zakhariev, Aleksey V. Kolesnikov, Sergey A. Osipov
Munirova, Mechanical modelling of the universal superplastic curve, Journal of Materials Science 35 (2000) 2455 – 2466
Khraisheh, A new combined experimental–numerical approach to evaluate formability of rate dependent materials, International Journal of Mechanical Sciences 66 (2013) 55-66
Chang, Material Models for Simulation of Superplastic Mg Alloy Sheet Forming, Journal of Materials Engineering and Performance 19(4) (2010) 488-494
Liew, Three-dimensional modeling and simulation of superplastic forming, Journal of Materials Processing Technology 150 (2004) 76–83
Jun, A Mechanical Analysis of the Superplastic Free Bulging of Metal Sheet, Materials Science and Engineering 84 (1986), 111-125
Khraisheh, A new combined experimental–numerical approach to evaluate formability of rate dependent materials, International Journal of Mechanical Sciences 66 (2013) 55-66
Chang, Material Models for Simulation of Superplastic Mg Alloy Sheet Forming, Journal of Materials Engineering and Performance 19(4) (2010) 488-494
Liew, Three-dimensional modeling and simulation of superplastic forming, Journal of Materials Processing Technology 150 (2004) 76–83
Jun, A Mechanical Analysis of the Superplastic Free Bulging of Metal Sheet, Materials Science and Engineering 84 (1986), 111-125
Online since: July 2011
Authors: Guang Yong Wu, Yong Lian Zhang, Chong Hai Xu, Ming Dong Yi, Bin Fang
Parks, Modelling studies applied to functionally graded materials, Journal of Mater Sci.. 30 (1995) 183-219
Ge, Design and fabrication of S-Type B4C-SiC/C functionally graded materials, Journal of University of Science and Technology Beijing. 22 (2000) 166-169 (In Chinese)
Parks, Modelling studies applied to functionally graded materials, Journal of Materials Science. 30 (1995) 2183-2193
Han, Optimum design of TiC-Ni functionally graded materials, Material Science and Technology. 8 (2000) 81-83 (In Chinese)
Jie, Finite element design of MgO/Ni system functionally graded materials, Journal of Materials Processing Technology. 182 (2007) 181-184
Ge, Design and fabrication of S-Type B4C-SiC/C functionally graded materials, Journal of University of Science and Technology Beijing. 22 (2000) 166-169 (In Chinese)
Parks, Modelling studies applied to functionally graded materials, Journal of Materials Science. 30 (1995) 2183-2193
Han, Optimum design of TiC-Ni functionally graded materials, Material Science and Technology. 8 (2000) 81-83 (In Chinese)
Jie, Finite element design of MgO/Ni system functionally graded materials, Journal of Materials Processing Technology. 182 (2007) 181-184
Online since: April 2022
Authors: Srungarpu Nagabhusan Achary, Sravan Bokka, Anirban Chowdhury
[3] Bajaj, P., Fire-retardant materials, Bulletin of Materials Science, 15 (1992) 67-76
Kumar, Structural, thermal, dielectric studies on sol–gel derived MgO from non-alkoxide route, Materials science and technology, 22 (2006) 1249-1254
Wilkie, Fire retardancy and morphology of layered double hydroxide nanocomposites: a review, Journal of Materials Chemistry, 22 (2012) 18701
[60] Maitra, S., et al., Effect of compaction on the kinetics of thermal decomposition of dolomite under non-isothermal condition, Journal of Materials Science, 40 (2005) 4749-4751
Levchik, A review of current flame retardant systems for epoxy resins, Journal of fire sciences, 22 (2004) 25-40
Kumar, Structural, thermal, dielectric studies on sol–gel derived MgO from non-alkoxide route, Materials science and technology, 22 (2006) 1249-1254
Wilkie, Fire retardancy and morphology of layered double hydroxide nanocomposites: a review, Journal of Materials Chemistry, 22 (2012) 18701
[60] Maitra, S., et al., Effect of compaction on the kinetics of thermal decomposition of dolomite under non-isothermal condition, Journal of Materials Science, 40 (2005) 4749-4751
Levchik, A review of current flame retardant systems for epoxy resins, Journal of fire sciences, 22 (2004) 25-40
Online since: July 2024
Authors: Asif Javed Sidiqui, Mohd Gulam Waris Khan
This paper highlights the dynamic field of polymer science in shoe design and manufacturing by examining the latest developments in polymer materials for footwear applications.
Footwear Materials There are various types of materials used in footwear.
(Ed.), The Science of Footwear (1st ed.).
Production.Res., 45 (18), 4403–4422. (2007) [9] Martinez, L. et al., Polymeric Coatings for Footwear: Advances and Applications, Journal of Applied Polymer Science. (2020) [10] Taylor, R. et al., Functionalized Polymers for Enhanced Performance in Footwear, Polymer Composites. (2019) [11] Brown, M. et al., Innovative Polymer Materials for Next-Generation Footwear: A Comprehensive Review, Materials Today Chemistry. (2019) [12] Report by BATA.
Page (11-20). (2014) [14] Johnson, A. et al., Recent Advances in Polymer Blends for Sustainable Footwear, Polymer Engineering & Science. (2021) [15] White, S. et al., Polymer Foams in Footwear: Current Trends and Future Prospects, Polymer Testing. (2022) [16] Khan M.G.W.and Faheem A., Vulcanization, compounding, thermo-mechanical properties and surface morphology of montmorillonite nanoclay based nitrile rubber nanocomposites”, Materials Today: Proceedings, Elsevier, 2214-7853, (2023) [17] Smith J. et al., Polymer Nanocomposites for Footwear Applications: A Review, Journal of Polymer Science: Part B: Polymer Physics. (2020) [18] Clark, H. et al., Polymer Nanofibers for Lightweight and Durable Footwear, Materials Science and Engineering. (2018) [19] S.
Footwear Materials There are various types of materials used in footwear.
(Ed.), The Science of Footwear (1st ed.).
Production.Res., 45 (18), 4403–4422. (2007) [9] Martinez, L. et al., Polymeric Coatings for Footwear: Advances and Applications, Journal of Applied Polymer Science. (2020) [10] Taylor, R. et al., Functionalized Polymers for Enhanced Performance in Footwear, Polymer Composites. (2019) [11] Brown, M. et al., Innovative Polymer Materials for Next-Generation Footwear: A Comprehensive Review, Materials Today Chemistry. (2019) [12] Report by BATA.
Page (11-20). (2014) [14] Johnson, A. et al., Recent Advances in Polymer Blends for Sustainable Footwear, Polymer Engineering & Science. (2021) [15] White, S. et al., Polymer Foams in Footwear: Current Trends and Future Prospects, Polymer Testing. (2022) [16] Khan M.G.W.and Faheem A., Vulcanization, compounding, thermo-mechanical properties and surface morphology of montmorillonite nanoclay based nitrile rubber nanocomposites”, Materials Today: Proceedings, Elsevier, 2214-7853, (2023) [17] Smith J. et al., Polymer Nanocomposites for Footwear Applications: A Review, Journal of Polymer Science: Part B: Polymer Physics. (2020) [18] Clark, H. et al., Polymer Nanofibers for Lightweight and Durable Footwear, Materials Science and Engineering. (2018) [19] S.
Online since: December 2019
Authors: Valery Lesovik, Lilia H. Zagorodnyuk, E.S. Glagolev, A.A. Volodchenko
The theoretical basis for solving this urgent problem is the transdisciplinary science of geonics (geomimetics).
Volodchenko, Development composition of thermal insulation materials autoclave curing based on clay raw materials, Bulletin of BSTU named after V.G.
Nakhaev, Composite Binders with the Use of Fine Raw Materials of Volcanic Origin, International journal of environmental & science education. 11 (18) (2016) 12711-12716 [7] N.I.
Suleymanov, The influence of technological factors on the basic properties of vibropressed concrete paving slabs, Research Journal of Applied Sciences. 9 (11) (2014) 874-878 [9] A.A.
Zagorodnjuk, Improving the efficiency of wall materials for «green» building through the use of aluminosilicate raw materials, International Journal of Applied Engineering Research. 10 (24) (2015) 45142-45149
Volodchenko, Development composition of thermal insulation materials autoclave curing based on clay raw materials, Bulletin of BSTU named after V.G.
Nakhaev, Composite Binders with the Use of Fine Raw Materials of Volcanic Origin, International journal of environmental & science education. 11 (18) (2016) 12711-12716 [7] N.I.
Suleymanov, The influence of technological factors on the basic properties of vibropressed concrete paving slabs, Research Journal of Applied Sciences. 9 (11) (2014) 874-878 [9] A.A.
Zagorodnjuk, Improving the efficiency of wall materials for «green» building through the use of aluminosilicate raw materials, International Journal of Applied Engineering Research. 10 (24) (2015) 45142-45149