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Online since: September 2013
Authors: Zheng Cheng, Liang Dai, Xi Qing Wu, Ping Wei Yang
[5] Xiyun Yang, Zhuqing Gong, Changhong Peng, et al.: Journal of Central South University (Science and Technology), Vol. 39, issue 3, (2008), p. 454-458.
[7] Xue Li, Junxi Zhang, Guoping Liu, et al.: Materials Review, Vol. 22, issue 8, (2008), p. 9-13.
[8] Mi Yan, Lingxiao Peng: Magnetism and Magnetic Materials.
[9] Yimin Xuan, Qiang Li, Gang Yang: Journal of Functional Materials, Vol. 38, issue 2, (2007), p. 198-200, 203.
(Jiangsu Science and Technology Press, Nanjing China 1996).
[7] Xue Li, Junxi Zhang, Guoping Liu, et al.: Materials Review, Vol. 22, issue 8, (2008), p. 9-13.
[8] Mi Yan, Lingxiao Peng: Magnetism and Magnetic Materials.
[9] Yimin Xuan, Qiang Li, Gang Yang: Journal of Functional Materials, Vol. 38, issue 2, (2007), p. 198-200, 203.
(Jiangsu Science and Technology Press, Nanjing China 1996).
Online since: May 2011
Authors: Xue Wang, Ke Wei Sun, Yuan Chen Guo
Introduction
Drying shrinkage is an important characteristic of concrete, is one of the main reason which causes cracking of concrete materials.
Kenai: Construction and Building Materials, Forum 5, Volume 22(2008), p.886-893 [5]L.
Delhez: Construction and Building Materials, Forum 3, Volume 24(2010), p.1-6 [6]A.
López-Gayarre: Construction and Building Materials, Forum 3(2009), p.2545-2553 [7]L.
Yan: Journal of Kuming University of Science Technology, China, Forum 3, Volume 35(2010), p.38-44
Kenai: Construction and Building Materials, Forum 5, Volume 22(2008), p.886-893 [5]L.
Delhez: Construction and Building Materials, Forum 3, Volume 24(2010), p.1-6 [6]A.
López-Gayarre: Construction and Building Materials, Forum 3(2009), p.2545-2553 [7]L.
Yan: Journal of Kuming University of Science Technology, China, Forum 3, Volume 35(2010), p.38-44
Online since: March 2005
Authors: J.M. Sánchez, J.M. González, Miguel Ángel Sebastián, M.S. Carrilero, Mariano Marcos Bárcena
Microstructural differences of Adhered Material in the Tool Edge and
Tool Rake Face.
So, machining processes, as drilling, are continuously improved by using new tools materials, redesigned tool geometries and specially selected cutting parameters.
From the results reported in these works it can be concluded that BUL and BUE formation mechanisms can be different depending mainly on both tool and workpiece materials.
Marcos, The International Journal for Manufacturing Science and Production 4 (2002) 211
Marcos, The International Journal for Manufacturing Science and Production 4 (2002) 181
So, machining processes, as drilling, are continuously improved by using new tools materials, redesigned tool geometries and specially selected cutting parameters.
From the results reported in these works it can be concluded that BUL and BUE formation mechanisms can be different depending mainly on both tool and workpiece materials.
Marcos, The International Journal for Manufacturing Science and Production 4 (2002) 211
Marcos, The International Journal for Manufacturing Science and Production 4 (2002) 181
Online since: August 2014
Authors: Mohd Nazree B. Derman, Norainiza Saud, Norhayanti Mohd Nasir, Arif Anuar Mohd Salleh, Mohd Izrul Izwan Ramli, Rita Mohd Said
Materials and Experimental Details
Raw Materials
In this research, the material used was SAC107 solder powder with size range 20 to 38 μm (supplied by Nihon Superior Co.
Ltd, Japan for supporting the research effort through materials and finance.
Selvaduray: Materials Science Engineering, 27, p. 95–141. (2000) [2] H.L.
Zan@Hazizi, Flora Somidin Noor Farhani Mohd Alui, Zainal Arifin Ahmad: Materials Science & Engineering A, 556, p. 633–637. (2012) [13] S.
Xiaoyan:, Journal Materials Science Material Electron, 19, p. 349–56. (2008)
Ltd, Japan for supporting the research effort through materials and finance.
Selvaduray: Materials Science Engineering, 27, p. 95–141. (2000) [2] H.L.
Zan@Hazizi, Flora Somidin Noor Farhani Mohd Alui, Zainal Arifin Ahmad: Materials Science & Engineering A, 556, p. 633–637. (2012) [13] S.
Xiaoyan:, Journal Materials Science Material Electron, 19, p. 349–56. (2008)
Online since: October 2024
Authors: Anton S. Konopatsky, Dmitri V. Shtansky, Vladislava V. Kalinina, Danil V. Barilyuk
For this purpose, a series of syntheses was carried out and the chemical compositions of the resulting materials were studied.
The analysis was carried out for the initial h-BN powder and heterostructured FePt/BN materials.
Lizundia, Multicomponent magnetic nanoparticle engineering: the role of structure-property relationship in advanced applications, Materials Today Chemistry. 26 (2022) 101220. https://doi.org/10.1016/j.mtchem.2022.101220
Esparza, Atomic Surface Segregation and Structural Characterization of PdPt Bimetallic Nanoparticles, Materials. 11 (2018) 1882. https://doi.org/10.3390/ma11101882
Jeyadevan, Size controlled Fe nanoparticles through polyol process and theirmagnetic properties, Materials Chemistry and Physics. 123 (2010) 487-493. https://doi.org/10.1016/j.matchemphys.2010.05.001.
The analysis was carried out for the initial h-BN powder and heterostructured FePt/BN materials.
Lizundia, Multicomponent magnetic nanoparticle engineering: the role of structure-property relationship in advanced applications, Materials Today Chemistry. 26 (2022) 101220. https://doi.org/10.1016/j.mtchem.2022.101220
Esparza, Atomic Surface Segregation and Structural Characterization of PdPt Bimetallic Nanoparticles, Materials. 11 (2018) 1882. https://doi.org/10.3390/ma11101882
Jeyadevan, Size controlled Fe nanoparticles through polyol process and theirmagnetic properties, Materials Chemistry and Physics. 123 (2010) 487-493. https://doi.org/10.1016/j.matchemphys.2010.05.001.
Online since: August 2018
Authors: Minch Quang Do, Hoc Thang Nguyen, Van Quang Le, Minh Duc Hoang, Vo Thi Ha Quyen Pham, Thu Ha Bui
The engineering properties of geopolymer-based materials depend on raw materials and synthesized conditions.
Reports on solidification of the geopolymer-based materials after cured for 28 days.
Engineering properties of the WGS-RM-based geopolymer materials.
American Society for Testing and Materials.
American Society for Testing and Materials.
Reports on solidification of the geopolymer-based materials after cured for 28 days.
Engineering properties of the WGS-RM-based geopolymer materials.
American Society for Testing and Materials.
American Society for Testing and Materials.
Online since: August 2016
Authors: Ana Paula Rosifini Alves Claro, Marisa Aparecida de Souza, André Luiz Reis Rangel, Marcos Akira D’Ávila, Rosemeire dos Santos Almeida, Cristiane Mayumi Wada, Maria Cristina Rosifini Alves Rezende
Estadual Paulista, Faculty of Science, Science and Technology of Materials Department, Bauru, SP, BRAZIL.
2 UNESP- UNIV.
Estadual Paulista, Faculty of Engineering, Materials and Technology Department, Guaratinguetá, SP, BRAZIL. 3 UNICAMP – UNIV.
Surface treatments can be used for change these materials surfaces.
Arruda: Advances in Materials Physics and Chemistry Vol.1 (2011), p.94
Wu: Journal of Material Science Material Medicine Vol.21 (2010), p. 3207
Estadual Paulista, Faculty of Engineering, Materials and Technology Department, Guaratinguetá, SP, BRAZIL. 3 UNICAMP – UNIV.
Surface treatments can be used for change these materials surfaces.
Arruda: Advances in Materials Physics and Chemistry Vol.1 (2011), p.94
Wu: Journal of Material Science Material Medicine Vol.21 (2010), p. 3207
Online since: March 2015
Authors: Olga D. Arefieva, Ludmila A. Zemnukhova, Svetlana V. Isai, Natalya G. Busarova
Introduction
During the production process of rice grains there appear large volumes of wastes in the form of straw, fruit shells and husk bran, which chemical composition allows us to consider them as a renewable raw material for the preparation of various functional materials [1].
Development of an integrated scheme of sequential extraction of valuable components from plant materials require complete information about chemicals depending on the cultivar and the type of waste.
Vasiliuk: Russian Chemical Journal (Journal of DI Mendeleev Chemical Society) Vol. 48, N 3 (2004), p. 116-122
Maiorov: Inorganic Materials Vol. 50 N 1 (2014), p. 82-89
Galimova: Chemistry of Plant Raw Materials Vol. 2 (2007) p. 21-25
Development of an integrated scheme of sequential extraction of valuable components from plant materials require complete information about chemicals depending on the cultivar and the type of waste.
Vasiliuk: Russian Chemical Journal (Journal of DI Mendeleev Chemical Society) Vol. 48, N 3 (2004), p. 116-122
Maiorov: Inorganic Materials Vol. 50 N 1 (2014), p. 82-89
Galimova: Chemistry of Plant Raw Materials Vol. 2 (2007) p. 21-25
Online since: October 2014
Authors: Xiang Yang Bian, Xiao Yu Xin
This paper puts archaeological evidences and historical documents together as its research materials, reviews the history development of the felting techniques in the ancient Xinjiang, and represents the main features of the felting techniques in different eras.
The raw materials for felt production include sheep wool, goat wool, camel hair, etc; the handmade links of felt production include wool collection, wool cleaning, wool fluffing, wool spreading, heating and humidification, rolling and shaping.
The convenient material drawing and easy making process of the felts featuring great practical performances of anti-moisture, anti-wind and heat preservation had resulted in the affection of the ancient nomadic nations in Xinjiang in terms of the felts as the textile materials in their daily life for thousands of years.
Chen, A History of Textile Science and Techniques in China, Science Press, Beijing, 1984, 396-398
Yu, The Felt Maker in Yutian City, Journal of Xinjiang Human Geography Vol.5(2009)
The raw materials for felt production include sheep wool, goat wool, camel hair, etc; the handmade links of felt production include wool collection, wool cleaning, wool fluffing, wool spreading, heating and humidification, rolling and shaping.
The convenient material drawing and easy making process of the felts featuring great practical performances of anti-moisture, anti-wind and heat preservation had resulted in the affection of the ancient nomadic nations in Xinjiang in terms of the felts as the textile materials in their daily life for thousands of years.
Chen, A History of Textile Science and Techniques in China, Science Press, Beijing, 1984, 396-398
Yu, The Felt Maker in Yutian City, Journal of Xinjiang Human Geography Vol.5(2009)