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Online since: April 2014
Authors: Zhen Wang, Huang Hai Qian, Xin Ling Geng, Yan Fen Zhao, Li Ping Liu
Blending of polymers is an important route for developing new materials with tailored physical properties.
Experimental Materials.
Another explanation for this observation is the strong interaction between functional groups of the two materials.
Journal of Applied Polymer Science, 2003, .88, 2639~2648
Journal of Applied Polymer Science, 2005, 97, 1561~1573
Experimental Materials.
Another explanation for this observation is the strong interaction between functional groups of the two materials.
Journal of Applied Polymer Science, 2003, .88, 2639~2648
Journal of Applied Polymer Science, 2005, 97, 1561~1573
Online since: October 2022
Authors: Marite Skute, Ilze Irbe, Inese Filipova, Anrijs Verovkins, Laura Andze, Gustavs Daniels Loris
Mycelium composites (MC) are ecologically safe materials, well suited for the short-life usage as packaging materials.
Materials MC Substrate, Compost.
John, Waste-derived low-cost mycelium composite construction materials with improved fire safety, Fire and Materials, 2018, (42) 816-825
Bajare, Novel Mycelium-Based Biocomposites (MBB) as Building Materials, Journal of Renewable Materials, 2020, 8(9), 1067-1076
John, Engineered mycelium composite construction materials from fungal biorefineries: A critical review, Materials & Design, 2020, Vol 187, 108397
Materials MC Substrate, Compost.
John, Waste-derived low-cost mycelium composite construction materials with improved fire safety, Fire and Materials, 2018, (42) 816-825
Bajare, Novel Mycelium-Based Biocomposites (MBB) as Building Materials, Journal of Renewable Materials, 2020, 8(9), 1067-1076
John, Engineered mycelium composite construction materials from fungal biorefineries: A critical review, Materials & Design, 2020, Vol 187, 108397
Online since: January 2012
Authors: Christophe Desrayaud
Journal of Materials Processing Technology, Volume 183, Issue 1, pp 62-70, 2007
[3] P.
Journal of Materials Processing Technology, Volume 169, Issue 2, pp 320-327, 2005
Materials Science and Engineering: A, Volume 459, Issues 1-2, pp 7-18, 2007
Montheillet, in MATERIALS SCIENCE FORUM.
Simar, et al. in JOURNAL OF MATERIALS PROCESSING TECHNOLOGY, Volume: 211, Issue: 1, pp: 57-65, 2011.
Journal of Materials Processing Technology, Volume 169, Issue 2, pp 320-327, 2005
Materials Science and Engineering: A, Volume 459, Issues 1-2, pp 7-18, 2007
Montheillet, in MATERIALS SCIENCE FORUM.
Simar, et al. in JOURNAL OF MATERIALS PROCESSING TECHNOLOGY, Volume: 211, Issue: 1, pp: 57-65, 2011.
Online since: August 2018
Authors: Yan Hui Li, Tong Tong Xu
Experimental
Materials.
As expected, the 350 oC samples presented greatly similar surface characteristics to that of 316SS, of which the surfaces were occupied by clay materials and corrosion products.
Marrone: Journal of Supercritical Fluids 79(2013) 283-288
Kritzer: Journal of Supercritical Fluids 29(2004) 1-29
Song: International Journal of Hydrogen Energy 42(2017) 19829-19835
As expected, the 350 oC samples presented greatly similar surface characteristics to that of 316SS, of which the surfaces were occupied by clay materials and corrosion products.
Marrone: Journal of Supercritical Fluids 79(2013) 283-288
Kritzer: Journal of Supercritical Fluids 29(2004) 1-29
Song: International Journal of Hydrogen Energy 42(2017) 19829-19835
Online since: April 2021
Authors: Ruslan V. Chkalov, Dmitry A. Kochuev, Darya G. Chkalova
Introduction
The study of laser processing of materials is becoming increasingly closely linked with all fields of science and technology, without exception.
An important factor in the formation of new material properties is both the processing conditions and the basic state of the processed materials [1].
The nanopowders obtained by laser dispersion are widely used for the preparation of highly transparent ceramic materials, including magnetically active ceramics, materials used as active elements of solid-state lasers [8].
The obtained powder materials can be used in various fields of science and technology, in particular, in the additive technology industry.
Yang, Laser ablation in liquids: Applications in the synthesis of nanocrystals, Progress in Materials Science. 52 (2007)
An important factor in the formation of new material properties is both the processing conditions and the basic state of the processed materials [1].
The nanopowders obtained by laser dispersion are widely used for the preparation of highly transparent ceramic materials, including magnetically active ceramics, materials used as active elements of solid-state lasers [8].
The obtained powder materials can be used in various fields of science and technology, in particular, in the additive technology industry.
Yang, Laser ablation in liquids: Applications in the synthesis of nanocrystals, Progress in Materials Science. 52 (2007)
Online since: March 2011
Authors: Shu Tao Wang, Dong Sheng Wang, Wei Wei Pan
Since there are many fluorescence materials which can be used as the sensitive materials, different fluorescence materials may have different fluorescence launching wavelengths that means different exciting wavelengths.
As a fluorescence optical-fiber temperature sensoring system, the sensitive materials is the key factor which we can adopt the corresponding illuminant, the probe, optical-fiber and fluorescence handling technology based on the sensitive materials.
The main characteristics of fluorescence materials are: exciting spectrum, glowing spectrum and fluorescence life-span.
Exciting spectrum is able to cause the fluorescence which is decided by the absorbing spectrum of fluorescence materials.
Journal of Optoelectronics·Laser. 13,8(2002)
As a fluorescence optical-fiber temperature sensoring system, the sensitive materials is the key factor which we can adopt the corresponding illuminant, the probe, optical-fiber and fluorescence handling technology based on the sensitive materials.
The main characteristics of fluorescence materials are: exciting spectrum, glowing spectrum and fluorescence life-span.
Exciting spectrum is able to cause the fluorescence which is decided by the absorbing spectrum of fluorescence materials.
Journal of Optoelectronics·Laser. 13,8(2002)
Online since: September 2013
Authors: Suzaini A. Ghani, Yahya Mohamad Faizul
International Journal of Clothing Science and Technology, 10 (1998) 128-142
International Journal of Clothing Science and Technology, 4 (1992) 24
Journal of Applied Polymer Science, 83 (2002) 687-702
International Journal of Clothing Science and Technology, 20(1) (2007) 57-64
International Journal of Clothing Science and Technology, 3(3) (1991) 7-10
International Journal of Clothing Science and Technology, 4 (1992) 24
Journal of Applied Polymer Science, 83 (2002) 687-702
International Journal of Clothing Science and Technology, 20(1) (2007) 57-64
International Journal of Clothing Science and Technology, 3(3) (1991) 7-10
Online since: June 2010
Authors: Tauseef Uddin Siddiqui, Mukul Shukla
However, while conducting initial trials the inability of the jet to cut through the workpiece is a
major problem particularly in thicker materials.
The erosive process for pure ductile and brittle materials in AWJC have been found to exhibit similar mechanisms just like in the conventional erosive process [5].
Hashish: Journal of Engineering Material Technolology Vol.106 (1984), p.88 [5] J.G.A.
Wang: International Journal of Mechanical Sciences Vol.49 (2007), p.306 [8] A.
Wang, and Guo, D.M: Journal of Materials Processing Technology Vol.121(2002), p.390 [11] http://www.nlreg.com
The erosive process for pure ductile and brittle materials in AWJC have been found to exhibit similar mechanisms just like in the conventional erosive process [5].
Hashish: Journal of Engineering Material Technolology Vol.106 (1984), p.88 [5] J.G.A.
Wang: International Journal of Mechanical Sciences Vol.49 (2007), p.306 [8] A.
Wang, and Guo, D.M: Journal of Materials Processing Technology Vol.121(2002), p.390 [11] http://www.nlreg.com
Online since: August 2025
Authors: Andrii Buketov, Yuri Shulga, Olga Syzonenko, Ihor Sieliverstov, Pavlo Vorobiov, Vitalii Sotsenko, Oleksandr Holotenko, Dmytro Mironov, Mariana Sokol, Danylo Stukhlіak, Oleg Lyashuk, Tetiana Kolechyntseva
In the work [18], a method of studying the impact viscosity of materials is given.
In addition, the strength of materials under impact was investigated.
Materials Science 5 (12) (2015) 208-212. doi: 10.1007/s11003-015-9830-z [9] Stukhlyak, P.D., et al., Influence of porosity in the epoxy matrix-polyvinyl alcohol-disperse filler system on the impact toughness.
Influence of silane coupling agent treatment on mechanical performance and wear resistance, Journal of Applied Polymer Science 101 (2006) 4410–4417. doi: 10.1002/app.23297
[29] Stukhlyak, P.D., et al., Influence of Boundary Interlayers on Properties of Composite Polymeric Materials (a Review), Materials Science 37 (2001) 80–86. doi: 10.1023/A:1012338422984 [30] Bogiatzidis, C., Zoumpoulakis, L.
In addition, the strength of materials under impact was investigated.
Materials Science 5 (12) (2015) 208-212. doi: 10.1007/s11003-015-9830-z [9] Stukhlyak, P.D., et al., Influence of porosity in the epoxy matrix-polyvinyl alcohol-disperse filler system on the impact toughness.
Influence of silane coupling agent treatment on mechanical performance and wear resistance, Journal of Applied Polymer Science 101 (2006) 4410–4417. doi: 10.1002/app.23297
[29] Stukhlyak, P.D., et al., Influence of Boundary Interlayers on Properties of Composite Polymeric Materials (a Review), Materials Science 37 (2001) 80–86. doi: 10.1023/A:1012338422984 [30] Bogiatzidis, C., Zoumpoulakis, L.
Online since: September 2013
Authors: I. Nyoman Budiarsa
J Materials science 22,1105-1106 (2003)
[9] Manika, I., Maniks, J., Size effects in micro- and nanoscale indentation.
Materials Science and Engineering A 434, 178-187 (2006) [11] Ebisu, T., Horibe, S., Analysis of the indentation size effect in brittle materials from nannoindentation load-displacement curve.
Journal of Materials Research 8,1028-1032 (1993) [18] Nix WD, Gao H., Indentation size effects in crystalline materials: a law for strain gradient plasticity.
Journal Mech.
Sci. 33, 843-8502 (1991) [20] Brookes, C.A., In “Science of Hard Materials, Jackson, Wyoming”, edited by Viswamnadham, R.
Materials Science and Engineering A 434, 178-187 (2006) [11] Ebisu, T., Horibe, S., Analysis of the indentation size effect in brittle materials from nannoindentation load-displacement curve.
Journal of Materials Research 8,1028-1032 (1993) [18] Nix WD, Gao H., Indentation size effects in crystalline materials: a law for strain gradient plasticity.
Journal Mech.
Sci. 33, 843-8502 (1991) [20] Brookes, C.A., In “Science of Hard Materials, Jackson, Wyoming”, edited by Viswamnadham, R.