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Online since: January 2012
Authors: Rui Hong Wu
Design of lotus-leaf-like Decoration Materials
Ruihong Wu
ShiJiaZhuang Vocatinal Technology Institute, China
Email: eyesnow@163.com
Keywords: decoration materials, lotus-leaf-like, crepe weave, water repellent,
Abstract.
Introduction Building materials which are divided into constructing buildings include structure material (stone, cement, plastics and composite materials ,etc),decorative material(common coatings, paints, tiles ,etc)and special effects special materials[1].As science and technology updates and the emergence of new materials, requirements for building materials have been improved, not only to meet the operating requirements, but also to have special properties such as environmental protection, radiation protection, energy conservation [2] which have put forward higher requirements for traditional building material [3].
However, no paper about indoor decoration materials has been reported.
Materials restore the original shape when the material subject to external forces squeeze.
Tian: submitted to Materials Letters(2004) [4] J.L.Guo in: Environmental engineering materials and forming processes, edited by X.S.Song, China Environmental Science Press English Publishers(2005) [5]C.T.Hsieh,J.M.Chen,R.R.Kuo,T.S.Lin,C.F.Wu: submitted to Applied Surface Science (2005) [6] X.Wei, Z,Y.Gu, L,Wu: submitted to Journal of Textile Research(2008) [7] W.Q.Du: submitted to Dyeing and Finishing(2001) [8]M.Yang: submitted to Journal of HuangShi Institute of Technology (2009)
Introduction Building materials which are divided into constructing buildings include structure material (stone, cement, plastics and composite materials ,etc),decorative material(common coatings, paints, tiles ,etc)and special effects special materials[1].As science and technology updates and the emergence of new materials, requirements for building materials have been improved, not only to meet the operating requirements, but also to have special properties such as environmental protection, radiation protection, energy conservation [2] which have put forward higher requirements for traditional building material [3].
However, no paper about indoor decoration materials has been reported.
Materials restore the original shape when the material subject to external forces squeeze.
Tian: submitted to Materials Letters(2004) [4] J.L.Guo in: Environmental engineering materials and forming processes, edited by X.S.Song, China Environmental Science Press English Publishers(2005) [5]C.T.Hsieh,J.M.Chen,R.R.Kuo,T.S.Lin,C.F.Wu: submitted to Applied Surface Science (2005) [6] X.Wei, Z,Y.Gu, L,Wu: submitted to Journal of Textile Research(2008) [7] W.Q.Du: submitted to Dyeing and Finishing(2001) [8]M.Yang: submitted to Journal of HuangShi Institute of Technology (2009)
Online since: July 2012
Authors: Quan Yuan, Zhi Xue Qu, Zi Xin Gu, Tong Wu, Wang Qun
Preparation and Electromagnetic Properties of Manganese Zinc Ferrite/Barium Ferrite Composite Materials
Quan Yuan1, Qun Wang1, a, Zhixue Qu1, Zixin Gu1, Tong Wu2
1 Key Laboratory of Functional Materials of China Education Ministry, College of Materials Science and Engineering, Beijing University of Technology, Beijing 100124, P.R.
[4] Liu Yapi, He Shijin, Development of High Frequency and High DC-Bias MnZn Frrite DMR50B Material, Journal of Magnetic Materials and Devices. 3 (2010) 36-41
[5] Chen Shichai, Luo Jun, Jia Lijun, Zhang Huaiwu, Electromagnetic Properties of PZT-NiCuZn Composite Materials, Journal of Magnetic Materials and Devices. 3 (2008) 34-38
[6] Zhong Hui, Zhang Huaiwu, Zhou Haitao, Magnetic Properties of BaTiO3-NiCuZn Composite Material, Journal of Magnetic Materials and Devices. 4 (2003) 10-12
Functional Materials. 2 (2004) 164-168
[4] Liu Yapi, He Shijin, Development of High Frequency and High DC-Bias MnZn Frrite DMR50B Material, Journal of Magnetic Materials and Devices. 3 (2010) 36-41
[5] Chen Shichai, Luo Jun, Jia Lijun, Zhang Huaiwu, Electromagnetic Properties of PZT-NiCuZn Composite Materials, Journal of Magnetic Materials and Devices. 3 (2008) 34-38
[6] Zhong Hui, Zhang Huaiwu, Zhou Haitao, Magnetic Properties of BaTiO3-NiCuZn Composite Material, Journal of Magnetic Materials and Devices. 4 (2003) 10-12
Functional Materials. 2 (2004) 164-168
Online since: June 2019
Authors: Mihaela Oleksik, Cristina Maria Biris
Girjob, Study of the formability of light metallic materials, Academic Journal of Manufacturing Engineering, 12(3), (2014) 110-115
[5] W.
Frazier, Metal Additive Manufacturing: A Review, Journal of Materials Engineering and Performance, 23, (2014) 1917–1928 [6] M.
Balan, Springback of thick sheet AHSS subject to bending under tension, International Journal of Mechanical Sciences, 59, (2012) 104 [9] K.P.
Landert, Incremental forming of sandwich panels, Journal of Materials Processing Technology, 204, (2008) 290 [10] A.
Kafafi (eds), Science and Technology of Polymers and Advanced Materials.
Frazier, Metal Additive Manufacturing: A Review, Journal of Materials Engineering and Performance, 23, (2014) 1917–1928 [6] M.
Balan, Springback of thick sheet AHSS subject to bending under tension, International Journal of Mechanical Sciences, 59, (2012) 104 [9] K.P.
Landert, Incremental forming of sandwich panels, Journal of Materials Processing Technology, 204, (2008) 290 [10] A.
Kafafi (eds), Science and Technology of Polymers and Advanced Materials.
Online since: November 2021
Authors: Phongthorn Julphunthong, Panuwat Joyklad, Thunthanut Inyai
Materials and Method
Raw materials.
The chemical composition of raw materials.
Roongreung, Cementing material from calcium carbide residue-rice husk ash, Journal of Materials in Civil Engineering 15(5) (2003) 470-475
Laosamathikul, Effects of calcium carbide residue–fly ash binder on mechanical properties of concrete, Journal of Materials in Civil Engineering 22(11) (2010) 1164-1170
Kajitvichyanukul, Microstructure of calcium carbide residue–ground fly ash paste, Journal of materials in civil Engineering 23(3) (2011) 298-304
The chemical composition of raw materials.
Roongreung, Cementing material from calcium carbide residue-rice husk ash, Journal of Materials in Civil Engineering 15(5) (2003) 470-475
Laosamathikul, Effects of calcium carbide residue–fly ash binder on mechanical properties of concrete, Journal of Materials in Civil Engineering 22(11) (2010) 1164-1170
Kajitvichyanukul, Microstructure of calcium carbide residue–ground fly ash paste, Journal of materials in civil Engineering 23(3) (2011) 298-304
Online since: October 2012
Authors: Ji Ke
Summarize the selection of green building materials, and to judge the development trend of green building materials in China.
first session International Conference materials science 1988 first proposed the concept green building materials.1992 convened by the United Nations Conference Environment and Development.1994 addition of Board "sustainable development", International Organization for Standardization ISO to discuss the development of standards for environmentally friendly products, actively promote development green building materials.
Construction of several green building materials as follows: (1) Cement and concrete: Cement and concrete is the largest amount of building materials, traditional cement use a lot of mineral resources and energy, with the progress of science and technology, has now appeared ecological cement.
References [1] Li'ping Tong: Journal of Zhengzhou university (2008),In Chinese [2] Li'ping Tong: Journal of Zhengzhou university (2008),In Chinese [3] Baizhan Li:The green building introduction.
Chemical industry press(2007),In chinese [4] Shizhong Wang: China building materials science and technology (2003),In Chinese [5] Xinhui Zhang: Energy conservation and environmental protection (2006),In Chinese
first session International Conference materials science 1988 first proposed the concept green building materials.1992 convened by the United Nations Conference Environment and Development.1994 addition of Board "sustainable development", International Organization for Standardization ISO to discuss the development of standards for environmentally friendly products, actively promote development green building materials.
Construction of several green building materials as follows: (1) Cement and concrete: Cement and concrete is the largest amount of building materials, traditional cement use a lot of mineral resources and energy, with the progress of science and technology, has now appeared ecological cement.
References [1] Li'ping Tong: Journal of Zhengzhou university (2008),In Chinese [2] Li'ping Tong: Journal of Zhengzhou university (2008),In Chinese [3] Baizhan Li:The green building introduction.
Chemical industry press(2007),In chinese [4] Shizhong Wang: China building materials science and technology (2003),In Chinese [5] Xinhui Zhang: Energy conservation and environmental protection (2006),In Chinese
Online since: July 2014
Authors: Tong Tong Xie, Yu Jie Liu, Li Li Wang
With the development of science and technology and rapidly changing times, people have developed more new material on the basis of traditional materials.
The article made a main study to structural materials and functional materials.
New modeling structure material, have many kinds, such as a new type of metal materials, new high polymer material, new type of composite materials, a new type of glass material and so on.
Some new materials were introduced here.
(In Chinese) [5] Jianning Su, Heqi Li: Journal of Gansu University of Technology, (2003).
The article made a main study to structural materials and functional materials.
New modeling structure material, have many kinds, such as a new type of metal materials, new high polymer material, new type of composite materials, a new type of glass material and so on.
Some new materials were introduced here.
(In Chinese) [5] Jianning Su, Heqi Li: Journal of Gansu University of Technology, (2003).
Online since: May 2018
Authors: Partha S. Mallick, P. Uma Sathyakam
Andrews, Carbon nanotubes: synthesis, properties, and applications, Critical Reviews in Solid State and Materials Sciences 26 (2001) 145
Dubois, Toward Successful Integration of Porous Low-k Materials: Strategies Addressing Plasma Damage, ECS Journal of Solid State Science and Technology 4 (2015) N3071-N3083
Ozin, Materials Chemistry for low-k materials, Materials Today 9 (2006) 22-31
Gendta, Advanced Interconnects: Materials, Processing, and Reliability, ECS Journal of Solid State Science and Technology 4 (2015) Y1-Y4
Ha, Advanced polyimide materials: Syntheses, physical properties and applications, Progress in Polymer Science 37 (2012) 907
Dubois, Toward Successful Integration of Porous Low-k Materials: Strategies Addressing Plasma Damage, ECS Journal of Solid State Science and Technology 4 (2015) N3071-N3083
Ozin, Materials Chemistry for low-k materials, Materials Today 9 (2006) 22-31
Gendta, Advanced Interconnects: Materials, Processing, and Reliability, ECS Journal of Solid State Science and Technology 4 (2015) Y1-Y4
Ha, Advanced polyimide materials: Syntheses, physical properties and applications, Progress in Polymer Science 37 (2012) 907
Online since: October 2012
Authors: Man De Qiu, Xiao Yan Wang, Yong Qing Zhai, Zi Hua Yao
Materials Review(2011),25(2):125-130
Journal of Traumatic Surgery(2011),13(3):272-275
Materials Chemistry and Physics(2011),130(1):561-568
Journal of Peking University (2011),43(5):730-735
Journal of Xiamen University (2010),49(5):671-675
Journal of Traumatic Surgery(2011),13(3):272-275
Materials Chemistry and Physics(2011),130(1):561-568
Journal of Peking University (2011),43(5):730-735
Journal of Xiamen University (2010),49(5):671-675
Online since: July 2024
Authors: Dan Yong Wang, Wen Fang Xing, Shu Hu Li, Hua Zhen Wei
Barbero, Journal of Composite Materials. 32(1998) 483
[2] E.J.
Saleh, Journal of Composite Materials. 27(1993) 83 [4] J.M.
Springer, Journal of Composite Materials. 21(1987) 421 [5] B.W.
Morals, Journal of composite materials. 30(1996) 1115 [8] A.S.
Argon A S, Treatise on Materials Science and Technology. 1(1972) 79 [9] B.
Saleh, Journal of Composite Materials. 27(1993) 83 [4] J.M.
Springer, Journal of Composite Materials. 21(1987) 421 [5] B.W.
Morals, Journal of composite materials. 30(1996) 1115 [8] A.S.
Argon A S, Treatise on Materials Science and Technology. 1(1972) 79 [9] B.
Online since: November 2015
Authors: Daniela Monica Iordache, Eduard Laurentiu Nitu, Ana Boşneag, Marius Adrian Constantin, Alin Rizea
Introduction
In terms of appearance, composite materials are very old, but metal matrix composite materials have emerged in the 1970s.
Ma, Tensile properties and strain-hardening behaviour of friction stir welded SiCp/AA2009 composite joints, Materials Science & Engineering.
Suri, An Improved FSW Tool for Joining Commercial Aluminum Plates, Procedia Materials Science. 6 (2014) 1857 – 1864
Ma, Friction stir welding and processing, Materials Science and Engineering R. 50 (2005) 1–78
Wei, Friction stir welding of dissimilar materials between AA6061 and AA7075 Al alloys effects of process parameters, Materials and Design. 56 (2014) 185–192.
Ma, Tensile properties and strain-hardening behaviour of friction stir welded SiCp/AA2009 composite joints, Materials Science & Engineering.
Suri, An Improved FSW Tool for Joining Commercial Aluminum Plates, Procedia Materials Science. 6 (2014) 1857 – 1864
Ma, Friction stir welding and processing, Materials Science and Engineering R. 50 (2005) 1–78
Wei, Friction stir welding of dissimilar materials between AA6061 and AA7075 Al alloys effects of process parameters, Materials and Design. 56 (2014) 185–192.