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Online since: December 2013
Authors: Ying Chen, Hai Yan Wu, Zhi Jie Liao, Mu Xiao, Feng Xia, J.Z. Xiao
Xiaof
State Key Laboratory of Materials Processing and Die & Mould Technology, School of
Materials Science and Engineering, Huazhong University of Science and Technology,
Wuhan, 430074, P.
Researchers used to focus on the partially stabilized zirconia played toughening role in zirconia toughened alumina bulk materials [5-7].
Raw material.
Table 1 Chemical composition of raw material powder.
Kurizoe: Journal of the European Ceramic Society, Vol. 33 (2013), p. 521
Researchers used to focus on the partially stabilized zirconia played toughening role in zirconia toughened alumina bulk materials [5-7].
Raw material.
Table 1 Chemical composition of raw material powder.
Kurizoe: Journal of the European Ceramic Society, Vol. 33 (2013), p. 521
Online since: December 2011
Authors: Qing Zhi Ma, Qi Mei Liu, Dang Quan Ma, Lu Yang Xiao
Introduction
Wood, which is ancient and natural green materials, has been used to produce toothpicks, chopsticks, and other specific materials for large buildings, furniture and interior decoration.
Materials and Methods Materials and Methods.
The sample 20-30mu powder were processed from fresh material.
Journal of Central South University of Forestry & Technology, 2010, (3):18-24 [4] Peng Wanxi, Wu Yiqiang, Zhang Zhongfeng, Zhang Dangquan, Li Niancun.
Gang: Food Science and Technology Vol.(2005), p.98-100
Materials and Methods Materials and Methods.
The sample 20-30mu powder were processed from fresh material.
Journal of Central South University of Forestry & Technology, 2010, (3):18-24 [4] Peng Wanxi, Wu Yiqiang, Zhang Zhongfeng, Zhang Dangquan, Li Niancun.
Gang: Food Science and Technology Vol.(2005), p.98-100
Online since: May 2010
Authors: J. Eiken
It is well known that a crystallographic texture
strongly affects the mechanical properties of Mg materials [1].
Reed, Materials Science and Engineering A, 280, (2000), p. 233 [4] Y.Z.
Reed, Materials Science and Engineering A, 280, (2000), p. 233 [6] A.
Henry, Metallurgical and Materials Transactions A, 31 (2000), p.487 [7] K.
Ohno, Advanced Engineering Materials 7, (2005), p. 1142 [13] Z.
Reed, Materials Science and Engineering A, 280, (2000), p. 233 [4] Y.Z.
Reed, Materials Science and Engineering A, 280, (2000), p. 233 [6] A.
Henry, Metallurgical and Materials Transactions A, 31 (2000), p.487 [7] K.
Ohno, Advanced Engineering Materials 7, (2005), p. 1142 [13] Z.
Online since: July 2021
Authors: Stepan Neutov, Zlata Holovata, Daria Kirichenko, Marina Vyhnanets, Irina Korneeva
Materials and Methods
Mathematical methods of experiment planning with obtaining and technological analysis of the corresponding experimental-statistical models were used.
Direct tensile strength of lightweight concrete with different specimen depths and aggregate sizes, Construction and Building Materials, Vol. 63, pp. 132–141
Journal of Testing and Evaluation, 47 (2), pp. 704-718
Experimental and Computer Researches of Ferroconcrete Beams at High-Temperature Influences, Materials Science Forum 6th International Conference "Actual Problems of Engineering Mechanics" (APEM 2019) ISSN:1662-9752, Vol. 968, pp. 355-360
Experimental Studies of Reinforced Concrete and Fiber-Reinforced Concrete Beams with Short-Term and Long-Term Loads, Materials Science Forum 6th International Conference "Actual Problems of Engineering Mechanics" (APEM 2019), ISSN:1662-9752, Vol. 968, pp. 227-233
Direct tensile strength of lightweight concrete with different specimen depths and aggregate sizes, Construction and Building Materials, Vol. 63, pp. 132–141
Journal of Testing and Evaluation, 47 (2), pp. 704-718
Experimental and Computer Researches of Ferroconcrete Beams at High-Temperature Influences, Materials Science Forum 6th International Conference "Actual Problems of Engineering Mechanics" (APEM 2019) ISSN:1662-9752, Vol. 968, pp. 355-360
Experimental Studies of Reinforced Concrete and Fiber-Reinforced Concrete Beams with Short-Term and Long-Term Loads, Materials Science Forum 6th International Conference "Actual Problems of Engineering Mechanics" (APEM 2019), ISSN:1662-9752, Vol. 968, pp. 227-233
Online since: March 2011
Authors: Bernd-Arno Behrens, Richard Krimm, Sven Hübner, Christian Wager, Milan Vucetic, Teguh Cahyono
Especially when using high-strength materials with the thickness from 1.0 to 3.0 mm a very high process forces in the deep drawing and shearing could occur.
In certain cases metal-forming machines with higher nominal forces are required to manufacture these materials.
The sheet-bulk metal forming is a novel forming technology, which unites the advantages and design solution of sheet metal forming and bulk metal forming by the use of sheet materials.
Ulmer: Journal of Engineering Materials and Technology, Vol. 123 (2001), p. 517-523 [4] B.
Lange: UTF-Science, Vol. 1 (2010), p. 1-12 [5] C.
In certain cases metal-forming machines with higher nominal forces are required to manufacture these materials.
The sheet-bulk metal forming is a novel forming technology, which unites the advantages and design solution of sheet metal forming and bulk metal forming by the use of sheet materials.
Ulmer: Journal of Engineering Materials and Technology, Vol. 123 (2001), p. 517-523 [4] B.
Lange: UTF-Science, Vol. 1 (2010), p. 1-12 [5] C.
Online since: November 2013
Authors: Sorin Iacob Strugaru, Geanina Laura Pintilei, Florin Brânza, Valentin Nica, Eduard Sebastian Bârcă, Corneliu Munteanu
Materials, methods and instrumentation
The protection layers were obtained by successive deposition of the bonding and ceramic top layer by air plasma jet method on a 7MB METCO type installation.
In the case of the 15 hours heat treatment an oxidation occurred in the bond layer and base material due to the chemical reaction of the chemical elements which compose them (Fig. 5. d)).
Because the grain diameter is linked to material hardness the obtained material can be tunable via heat treatment.
I give thanks to the Faculty of Mechanics for the support and for making available the science of materials and Materials Science laboratories for performing the necessary tests for the paper.
On Baddeleyite (native zirconia), a new Mineral, from Rakwana, Ceylon, Mineralogy Magazine and Journal of the Mineralogical Society: 149–161
In the case of the 15 hours heat treatment an oxidation occurred in the bond layer and base material due to the chemical reaction of the chemical elements which compose them (Fig. 5. d)).
Because the grain diameter is linked to material hardness the obtained material can be tunable via heat treatment.
I give thanks to the Faculty of Mechanics for the support and for making available the science of materials and Materials Science laboratories for performing the necessary tests for the paper.
On Baddeleyite (native zirconia), a new Mineral, from Rakwana, Ceylon, Mineralogy Magazine and Journal of the Mineralogical Society: 149–161
Online since: March 2013
Authors: Xiu Chun Wang, Jun Wei, Jing Zhang, Jie Ma, Shuo Liu, Xi Bin Yi
Institute of New Materials, Shandong Academy of Sciences, Jinan, 250014, China
2.
Experimental 1.1 Materials Low carbon cold rolled steel plate 08F steel is selected for mechanical energy aided aluminizing process.
Al powders, Al-Fe alloy, AlCl3 and other aluminiferous materials and reagents are used as aluminum source in the powder aluminizing agent.
Journal of Taiyuan University of Technology, 2005, 36(3)342-345
Advanced Materials Research, Vols. 306-307 (2011) pp 505-508
Experimental 1.1 Materials Low carbon cold rolled steel plate 08F steel is selected for mechanical energy aided aluminizing process.
Al powders, Al-Fe alloy, AlCl3 and other aluminiferous materials and reagents are used as aluminum source in the powder aluminizing agent.
Journal of Taiyuan University of Technology, 2005, 36(3)342-345
Advanced Materials Research, Vols. 306-307 (2011) pp 505-508
Online since: May 2012
Authors: Zhan Li Chen, Xiang Rong Sun, Xiao Hua Huang, Zhen Zhong Liu, Jian Zhan
Materials and Methods
Wastewater Characteristics.
The hydrolytic process is a complex biotic and physical process which included three steps: first, the soluble or insoluble materials are absorbed on the surface of the sludge by the effective adsorption and filtration; second, the macromolecule materials (soluble or in soluble) are hydrolyzed into soluble micro molecule materials.
Chemical Engineering Science.
Journal of Hazardous Materials.
Beijing, China: Environmental Science Press, 2006 (in Chinese)
The hydrolytic process is a complex biotic and physical process which included three steps: first, the soluble or insoluble materials are absorbed on the surface of the sludge by the effective adsorption and filtration; second, the macromolecule materials (soluble or in soluble) are hydrolyzed into soluble micro molecule materials.
Chemical Engineering Science.
Journal of Hazardous Materials.
Beijing, China: Environmental Science Press, 2006 (in Chinese)
Online since: December 2012
Authors: Hui Ju Wi, Jae Ho Lee, Hong Guan, Yew Chaye Loo, Michael Blumenstein
For example: concrete (7 including crack, spalling, corrosion etc.); steel (4 including corrosion and deformation etc.); timber (7 including shrinkage and splitting etc.); and other materials (3 including cracking, spalling, slitting etc.).
Such a selection is based on the fact that concrete is the most commonly used material in bridge structures; and there are 46 varieties of concrete materials used in bridge construction, constituting 40.7% of all material types.
Furthermore, cracking in concrete materials is one of the most common and significant types of defect in bridge structures because cracking causes, over time, serious surface deterioration and concrete spalling..
Types of deterioration for major bridge materials [8] Methodology Bridge elements exhibit different deterioration behaviour due to different material types and their surrounding environment [8].
Moore: Routine highway bridge inspection condition documentation accuracy and reliability, Journal of Bridge Engineering, Vol. 9(4) (2004), pp. 403–413
Such a selection is based on the fact that concrete is the most commonly used material in bridge structures; and there are 46 varieties of concrete materials used in bridge construction, constituting 40.7% of all material types.
Furthermore, cracking in concrete materials is one of the most common and significant types of defect in bridge structures because cracking causes, over time, serious surface deterioration and concrete spalling..
Types of deterioration for major bridge materials [8] Methodology Bridge elements exhibit different deterioration behaviour due to different material types and their surrounding environment [8].
Moore: Routine highway bridge inspection condition documentation accuracy and reliability, Journal of Bridge Engineering, Vol. 9(4) (2004), pp. 403–413
Online since: August 2014
Authors: Ján Piteľ, Mária Tóthová
The greatest challenge in modelling of PAMs is their properties, especially the flexibility of materials used for their design and realization.
Boržíková, Operating modes of pneumatic artificial muscle actuator, Applied Mechanics and Materials 308 (2013) 39-44
Balara, The upgrade methods of the pneumatic actuator operation ability, Applied Mechanics and Materials 308 (2013) 63-68
Hošovský, Numerical approximation of static characteristic of PAM-based antagonic actuator, Journal of Applied Science in the Thermodynamics and Fluid Mechanics 1/1 (2007) 1-4
Mižáková, Electro-pneumatic robot actuator with artificial muscles and state feedback, Applied Mechanics and Materials 460 (2014) 23-31
Boržíková, Operating modes of pneumatic artificial muscle actuator, Applied Mechanics and Materials 308 (2013) 39-44
Balara, The upgrade methods of the pneumatic actuator operation ability, Applied Mechanics and Materials 308 (2013) 63-68
Hošovský, Numerical approximation of static characteristic of PAM-based antagonic actuator, Journal of Applied Science in the Thermodynamics and Fluid Mechanics 1/1 (2007) 1-4
Mižáková, Electro-pneumatic robot actuator with artificial muscles and state feedback, Applied Mechanics and Materials 460 (2014) 23-31