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Online since: July 2014
Authors: Song Yong
Segregation control of strong embedded squeeze Framework Grading cement stabilized crushed stone
Variability control of raw material
In the current highway pavement materials, different specifications of road crushed stone are selected from small and midsize stone pit, in which the types and specifications of crusher and screening machine are different from each other.
Journal of South China University of Technology: Natural Science, 2012,40(2): 92-98
Journal of Chang'an University: Natural Science,2008,28(5):1-4
Vibration Test Method of Semi-rigid Base Course Material.
Journal of Traffic and Transportation Engineering, 2010(01)
Journal of South China University of Technology: Natural Science, 2012,40(2): 92-98
Journal of Chang'an University: Natural Science,2008,28(5):1-4
Vibration Test Method of Semi-rigid Base Course Material.
Journal of Traffic and Transportation Engineering, 2010(01)
Online since: June 2013
Authors: Wei Tan, Yu Cang Zhang, Shu Ying Xu, Zhong Ping He
We are trying to extract natural fibers from Hainan immense resources of biological materials.
Introduction Biological materials may refer to biomass, living or dead biological matter, often plants grown as staple.
The banana waste is a concentrated source of biological materials, ideal for extraction of fiber from the pseudostem to produce material of pulp and paper.
It can use banana stems of biological material as raw materials of pulp and paper.
Material and methods Materials.
Introduction Biological materials may refer to biomass, living or dead biological matter, often plants grown as staple.
The banana waste is a concentrated source of biological materials, ideal for extraction of fiber from the pseudostem to produce material of pulp and paper.
It can use banana stems of biological material as raw materials of pulp and paper.
Material and methods Materials.
Online since: January 2022
Authors: Chaimae Abadi, Imad Manssouri, Asmae Abadi
The second side of the modeling for materials step was the identification of the orientation of materials attributes (materials properties).
MATEC Web of Conferences, EDP Sciences 207 (2018) 3025 [12] U.
Springer Science & Business Media. (2010)
In IOP Conference Series: Materials Science and Engineering. 719(1) (2020, January) 012020
In: International Journal of Advanced Computer Science and Applications (IJACSA), 11(7), DOI: 10.14569/IJACSA.2020.0110772, (2020) [30] I.
MATEC Web of Conferences, EDP Sciences 207 (2018) 3025 [12] U.
Springer Science & Business Media. (2010)
In IOP Conference Series: Materials Science and Engineering. 719(1) (2020, January) 012020
In: International Journal of Advanced Computer Science and Applications (IJACSA), 11(7), DOI: 10.14569/IJACSA.2020.0110772, (2020) [30] I.
Online since: March 2014
Authors: Hilton Ahmad
Introduction
Composite materials offer a flexibility in processing, which often leads to a reduction in part count compared to conventional materials.
Journal Composite Material, 1978: 12:275-284. [8] Hollmann, K.,.
Journal of Composite Materials, 1996: 30(3):358-383. [9] Aronsson CG, Backlund JA.
Computational Materials Science, 2011: 50:1543-1549. [11] 6.9.1, ABAQUS®V.
Journal of Composite Materials, Vol. 39, pp 1881-1908, 2005. [13] Ahmad, H., Crocombe, A.D., Smith, P.A., "Physically Based Finite Element Strength Prediction in Notched Woven Laminates under Quasi-static Loading."
Journal Composite Material, 1978: 12:275-284. [8] Hollmann, K.,.
Journal of Composite Materials, 1996: 30(3):358-383. [9] Aronsson CG, Backlund JA.
Computational Materials Science, 2011: 50:1543-1549. [11] 6.9.1, ABAQUS®V.
Journal of Composite Materials, Vol. 39, pp 1881-1908, 2005. [13] Ahmad, H., Crocombe, A.D., Smith, P.A., "Physically Based Finite Element Strength Prediction in Notched Woven Laminates under Quasi-static Loading."
Online since: September 2011
Authors: Li Rong Yao, Pei Cheng Fan, Rong Chen, Wen Yi Zhang, Ning Han
Materials and Methods
A.
J, Willey, B.Notari, “An investigation on the catalytic properties of titonic-silica materials,” J.
Journal of Catalysis, vol. 220, 2003, pp. 240-248
Journal of Huaqiao University(Natural Science), vol. 23, 2002, pp. 129-132
Functional Materials, vol. 36, 2005, pp. 859-861
J, Willey, B.Notari, “An investigation on the catalytic properties of titonic-silica materials,” J.
Journal of Catalysis, vol. 220, 2003, pp. 240-248
Journal of Huaqiao University(Natural Science), vol. 23, 2002, pp. 129-132
Functional Materials, vol. 36, 2005, pp. 859-861
Online since: March 2017
Authors: Fei Fei Wang
Study on the Application of Carbon Fiber Composite Materials
in High-Speed Trains
Feifei Wang1, a *
1 Jilin Railway Technology College, Jilin, 132200, China
afeifei_wang@126.com
Keywords: new carbon fiber composite materials, 500km/h high-speed train, trains hood.
Introduction The laminate may be made of a single layer of different materials or of an anisotropic monolayer of the same material in different laying directions.
Simulation and Analysis of Composite Materials Based on ANSYS.
University of Electronic Science and Technology of China, 2009: 9-32
Journal of Traffic and Transportation Engineering, 2001 (1): 102-104
Introduction The laminate may be made of a single layer of different materials or of an anisotropic monolayer of the same material in different laying directions.
Simulation and Analysis of Composite Materials Based on ANSYS.
University of Electronic Science and Technology of China, 2009: 9-32
Journal of Traffic and Transportation Engineering, 2001 (1): 102-104
Online since: March 2013
Authors: Yan Shu Liu
Honing TC11 titanium alloy material the choice of stone
Liu Yan Shu
School of Mechanical Engineering, Xi’an Shiyou University
Zhuzhu12341997@sina.com
Keywords: Titanium alloy; Deep-Hole honing; Honing Stones material; Honing Stones wear
Abstract: Based on the study of cutting properties of titanium alloy, and according to its features, several commonly used honing stones materials are selected to carry out the wear experiments of deep-hole honing for the alloy. the analysis of the experiments results shows the suitable for titanium alloy TC11 deep-hole drilling is identified.
1.
Intorduction With the advance of science and technology, especially in recent years, aerospace manufacturing, atomic energy, electric power, petroleum equipment etc the rapid development of the industry, the machine and its spare parts material performance put forward higher request. and titanium alloy with its excellent mechanical properties, KangFuXing can, diamagnetic can, resisting high temperature oxidation performance and so on, in the industry has rapidly application..demand titanium alloy tube parts also more and more, especially with high precision requirements of the titanium alloy tube parts number is more and more titanium alloy is is a kind of hard processing material, it's the cutting itself is very difficult, talked about deep hole precision processing that is a difficult task. therefore, how to realize the titanium alloy for deep hole precision machining is the current cheng to solve the problem. this paper through the test of TC11 titanium alloy to choose the suitable
honing stone material, to improve the precision of the titanium alloy material processing has certain instructive significance. 2.Sample preparation and test method 2.1 Sample preparation The matrix for single crystal corundum , white corundum,the silicon carbide according to certain proportion as mixed abrasive stone (mixed abrasive stone abrasive separable give priority to abrasive and auxiliary abrasive two),according to what I often machining titanium alloy precision requirements will single crystal corundum (SA), white corundum (WA)and green silicon carbide(GC)abrasive according to the following kinds of mixing ratio of the honing stone (table 1 ). the adhesive using ceramic glue and vulcanization processing.the mixed stone hardness for K level main abrasive particle size for 100#,auxiliary abrasive particle size for fine level 120#。
As a result of our repeated test obtain the final grinding TC11 titanium alloy material, the best proportion is: GC (70%), SA (30%) mixed honing stone.
[3] Lian Pin etc, Abrasive materials of the new development [J],Journal of modern manufacturing engineering. 2003 (8) : 53 ~ 56.
Intorduction With the advance of science and technology, especially in recent years, aerospace manufacturing, atomic energy, electric power, petroleum equipment etc the rapid development of the industry, the machine and its spare parts material performance put forward higher request. and titanium alloy with its excellent mechanical properties, KangFuXing can, diamagnetic can, resisting high temperature oxidation performance and so on, in the industry has rapidly application..demand titanium alloy tube parts also more and more, especially with high precision requirements of the titanium alloy tube parts number is more and more titanium alloy is is a kind of hard processing material, it's the cutting itself is very difficult, talked about deep hole precision processing that is a difficult task. therefore, how to realize the titanium alloy for deep hole precision machining is the current cheng to solve the problem. this paper through the test of TC11 titanium alloy to choose the suitable
honing stone material, to improve the precision of the titanium alloy material processing has certain instructive significance. 2.Sample preparation and test method 2.1 Sample preparation The matrix for single crystal corundum , white corundum,the silicon carbide according to certain proportion as mixed abrasive stone (mixed abrasive stone abrasive separable give priority to abrasive and auxiliary abrasive two),according to what I often machining titanium alloy precision requirements will single crystal corundum (SA), white corundum (WA)and green silicon carbide(GC)abrasive according to the following kinds of mixing ratio of the honing stone (table 1 ). the adhesive using ceramic glue and vulcanization processing.the mixed stone hardness for K level main abrasive particle size for 100#,auxiliary abrasive particle size for fine level 120#。
As a result of our repeated test obtain the final grinding TC11 titanium alloy material, the best proportion is: GC (70%), SA (30%) mixed honing stone.
[3] Lian Pin etc, Abrasive materials of the new development [J],Journal of modern manufacturing engineering. 2003 (8) : 53 ~ 56.
Online since: December 2014
Authors: Long Gui Peng, Cheng Cheng Shi, Zhi Wang
Preparation and Research of α-Fe/montmorillonite Magnetic Material
Cheng-cheng SHIa, Long-gui PENGb, Zhi WANGc
(Department of Materials Science and Engineering, Xi'an University of Science and Technology, Xi'an Shaanxi 710054)
alittlecheng2008@163.com, bpenglonggui@163.com, c2181345wang@163.com
Key words: MMT, Hydroxyl-Fe, In-situ pillared-reduction, Magnetic property
Abstract. α-Fe/montmorillonite(MMT)magnetic material was successfully prepared by the in-situ pillared-reduction method.
The preparation of hydroxyl-Fe pillared MMT have received increasing attention because of wide source of raw materials and low toxicity to environment, but it focused on adsorption or modification in the layers of MMT [2-3].
The application of magnetic materials in biology, medicine, electronic and other fields has opened up a new way for the future development of composite materials.
Journal of Functional Materials, Vol.36 (2005), No.6, p. 874-880
Journal of Central South University.
The preparation of hydroxyl-Fe pillared MMT have received increasing attention because of wide source of raw materials and low toxicity to environment, but it focused on adsorption or modification in the layers of MMT [2-3].
The application of magnetic materials in biology, medicine, electronic and other fields has opened up a new way for the future development of composite materials.
Journal of Functional Materials, Vol.36 (2005), No.6, p. 874-880
Journal of Central South University.
Online since: January 2014
Authors: Mahros Darsin, Hari Arbiantara Basuki
Journal of Materials Processing Technology 166, pp. 188–192
[9] Ginta, L.T., Lajis, M.A. and Nurul Amin, AKM. , 2009.
Journal of Materials Processing Technology xxx (2006) xxx–xxx [17] Sharif, S., Abd Rahim, E., and Sasahara, H. , 2012.
Journal of Surface Engineered Materials and Advanced Technology, 2011, 1, 9-14 [20] Yasir, A.M.S, Che Hassan C.H, Jaharah A.G, Nagi H.E, Yanuar B and Gusri A.I., 2009.
“Effectiveness of cryogenic machining with modified tool holder”, Journal of materials processing technology, 185, pp 91-96 [29] Umbrello, D.
Journal of Applied Sciences Research, 8(9): pp. 4880-4890
Journal of Materials Processing Technology xxx (2006) xxx–xxx [17] Sharif, S., Abd Rahim, E., and Sasahara, H. , 2012.
Journal of Surface Engineered Materials and Advanced Technology, 2011, 1, 9-14 [20] Yasir, A.M.S, Che Hassan C.H, Jaharah A.G, Nagi H.E, Yanuar B and Gusri A.I., 2009.
“Effectiveness of cryogenic machining with modified tool holder”, Journal of materials processing technology, 185, pp 91-96 [29] Umbrello, D.
Journal of Applied Sciences Research, 8(9): pp. 4880-4890
Online since: August 2015
Authors: A.M. Mustafa Al Bakri, Emy Aizat Azimi, Ikmal Hakem Aziz, Liew Yun Ming, Cheng Yong Heah, Kamarudin Hussin
Journal of materials science, (2007). 429: p. 2917-2933
Australian Journal of Basic and Applied Sciences, (2011). 59: p. 441-449
Journal of materials science, (2011). 4616: p. 5477-5486
Journal of hazardous materials, (2010). 1801: p. 748-752
International journal of molecular sciences, (2012). 134: p. 4388-4395.
Australian Journal of Basic and Applied Sciences, (2011). 59: p. 441-449
Journal of materials science, (2011). 4616: p. 5477-5486
Journal of hazardous materials, (2010). 1801: p. 748-752
International journal of molecular sciences, (2012). 134: p. 4388-4395.