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Online since: January 2022
Authors: Napat Noinumsai, Waraporn Kosanlavit
It was made with acrylic materials.
Washington DC, Silver Spring, MD: Hazardous Materials Control Research Institute. (1985)
Silver Spring, MD: Hazardous Materials Controls Research Institute, (1983) 270-274
Materials Science Forum. 544-545 (2007)705-708
Materials Science Forum. 712 (2012) 147-173
Washington DC, Silver Spring, MD: Hazardous Materials Control Research Institute. (1985)
Silver Spring, MD: Hazardous Materials Controls Research Institute, (1983) 270-274
Materials Science Forum. 544-545 (2007)705-708
Materials Science Forum. 712 (2012) 147-173
Online since: July 2012
Authors: Wei Liu, Li Da Sun, Rui Min Xiao, Zi Jing Li, Yan Jiang, Du Shu Huang
Therefore, the research of ITO nano-powder is one of the hot spot in materials science.There are many methods for the preparation of ITO powder, such as chemical precipitation, sol-gel method [3], hydrothermal method [4], metal spray combustion method [5] and spray pyrolysis method.
Estreicher :Journal of Functional Materials .
Estreicher : Journal of Functional Materials.
Estreicher:Journal of Jilin University(Science Edition).
Forum Vol. 351(1979), p. 79 [9] C.M, Z.L.Pei and X.D.Bai .Estreicher :Chinese Journal of Materials Research.
Estreicher :Journal of Functional Materials .
Estreicher : Journal of Functional Materials.
Estreicher:Journal of Jilin University(Science Edition).
Forum Vol. 351(1979), p. 79 [9] C.M, Z.L.Pei and X.D.Bai .Estreicher :Chinese Journal of Materials Research.
Online since: September 2020
Authors: Sergey Gorbatyuk, Dmitry Efremov, Sergei Albul, Natalya Kirillova
Starova// Materials Science Forum. – 2019. - Vol.968. - P. 355-360.
Sotnikov, Position control and alignment of the CCM equipment, Materials Science Forum, 946 MSF (2019) 644-649.
Kirillova, Research and development of broaching methods on mandrel of large-sized pipe forgings, IOP Conference Series: Materials Science and Engineering, 709/4 (2020) 044104.
Kirillova, Future developments of a roll forming mill design algorithm, IOP Conference Series: Materials Science and Engineering 709/4 (2020) 044079.
Materials Today: Proceedings 11 (2019) 258-264.
Sotnikov, Position control and alignment of the CCM equipment, Materials Science Forum, 946 MSF (2019) 644-649.
Kirillova, Research and development of broaching methods on mandrel of large-sized pipe forgings, IOP Conference Series: Materials Science and Engineering, 709/4 (2020) 044104.
Kirillova, Future developments of a roll forming mill design algorithm, IOP Conference Series: Materials Science and Engineering 709/4 (2020) 044079.
Materials Today: Proceedings 11 (2019) 258-264.
Online since: September 2011
Authors: Jia Qi Guo, Guang Yong Wang, Lian Wei Ren
Fig.1 Schematic diagram of numerical model
SOIL-CONTRETE materials are used as medium of rock mass.
G and K are shear modulus and volume modulus of the model materials respectively.
E and μ respectively represent the elastic modulus and Poisson's ratio of the bolt materials.
International Journal of Rock Mechanics and Mining Sciences, 2006, 43(4):634-639
Journal of PLA University of Science and Technology,2007,8(6):582–588.
G and K are shear modulus and volume modulus of the model materials respectively.
E and μ respectively represent the elastic modulus and Poisson's ratio of the bolt materials.
International Journal of Rock Mechanics and Mining Sciences, 2006, 43(4):634-639
Journal of PLA University of Science and Technology,2007,8(6):582–588.
Online since: January 2014
Authors: Chun Mei Gao, Shuang Chen, He Li, Shuo Han
Journal of Chang 'an University (natural science edition), 2012,(3):34-37(In Chinese)
[2] Jun Chen,Qixiang Li,et al..
Journal of Hubei University (natural science edition), 2012,(3):16-19(In Chinese) [3] Zisheng Luan,Junqi Lei,Pu Qu,Huaxin Chen.
Journal of Traffic and Transportation Engineering, 2013,(2):21-28(In Chinese) [6] Dongyang Xie,Jianming Dan,Bin Dai.
New Building Materials, 2011(1):65-68(In Chinese) [7] Chao Zeng,Mingyu Xie,Zhidong Li.
Journal of Chang 'an University (natural science edition), 2011,(3):33-36(In Chinese) [9] Guohu Tan,Xi Li.
Journal of Hubei University (natural science edition), 2012,(3):16-19(In Chinese) [3] Zisheng Luan,Junqi Lei,Pu Qu,Huaxin Chen.
Journal of Traffic and Transportation Engineering, 2013,(2):21-28(In Chinese) [6] Dongyang Xie,Jianming Dan,Bin Dai.
New Building Materials, 2011(1):65-68(In Chinese) [7] Chao Zeng,Mingyu Xie,Zhidong Li.
Journal of Chang 'an University (natural science edition), 2011,(3):33-36(In Chinese) [9] Guohu Tan,Xi Li.
Online since: December 2014
Authors: Jin Ping Li, Xiu Zhen Li, Na Wang, Jing Yi Han
Thermal conductivity of common building materials is shown in table 1 [[] B Jones.
UK: Green Books and Resurgence Books, (2009) ,[] T Ashour, H Wieland, H Georg, FJ Bockisch and W Wu: Materials and Design, vol. 31 (2010), p. 4676 ].
Straw bales were load-bearing components in straw bale houses because of simple methods and light work load of construction at first [[] A J Swan, A Rteil and G Lovegrove: Journal of Materials in Civil Engineering, vol. 23 (2011), p. 866 ].
Downing College, University of Cambridge, (2008) ,[] AR Bertorello: Key Engineering Materials, vol. 600 (2014), p. 719 ].
Straw bale construction standards and norms of straw bales as building materials in North America were reformed and modified in practical application [27].
UK: Green Books and Resurgence Books, (2009) ,[] T Ashour, H Wieland, H Georg, FJ Bockisch and W Wu: Materials and Design, vol. 31 (2010), p. 4676 ].
Straw bales were load-bearing components in straw bale houses because of simple methods and light work load of construction at first [[] A J Swan, A Rteil and G Lovegrove: Journal of Materials in Civil Engineering, vol. 23 (2011), p. 866 ].
Downing College, University of Cambridge, (2008) ,[] AR Bertorello: Key Engineering Materials, vol. 600 (2014), p. 719 ].
Straw bale construction standards and norms of straw bales as building materials in North America were reformed and modified in practical application [27].
Online since: October 2007
Authors: Guo Yi Tang, Chun Yan Miao, Gang Lü, Ke Cao, You Wei Yao, Duan Weng
Preparation of Silica Microcapsules Containing
Phase Change Paraffin Wax
Chunyan Miao1, a, Gang Lü
1, b,Ke Cao
1, c,Youwei Yao1, d,
Guoyi Tang
1, e, and Duan Weng2, f
1
Institute of Advanced Materials, Graduated School at Shenzhen, Tsinghua University, China
2
Department of Materials Science and Engineering, Tsinghua University, China
a
email: miucy04@mails.tsinghua.edu.cn, bemail: lv04@mails.tsinghua.edu.cn
c
email: caok05@mails.tsinghua.edu.cn, demail: yaoyw@mail.tsinghua.edu.cn
e
email: tanggy@mail.tsinghua.edu.cn, femail: duanweng@mail.tsinghua.edu.cn
Keywords : phase change materials; paraffin; microcapsule; emulsion; silica
Abstract.
On the one hand, metal materials were directly used to make containers of different shape for paraffin wax for various applications [1]; on the other hand, considerable studies on a latent heat storage system using encapsulated phase change materials (PCMs) have been reported.
Experimental Materials.
Fig. 4 (a) Sketched model, (b) Temperature in the model lining with wallpaper containing micro-P1 Summary Microcapsules of paraffin wax as phase change material were prepared with TEOS as shell-forming materials in emulsion system.
Submitted to Journal of Chemical Engineering of Japan (2006) [6] R.K.
On the one hand, metal materials were directly used to make containers of different shape for paraffin wax for various applications [1]; on the other hand, considerable studies on a latent heat storage system using encapsulated phase change materials (PCMs) have been reported.
Experimental Materials.
Fig. 4 (a) Sketched model, (b) Temperature in the model lining with wallpaper containing micro-P1 Summary Microcapsules of paraffin wax as phase change material were prepared with TEOS as shell-forming materials in emulsion system.
Submitted to Journal of Chemical Engineering of Japan (2006) [6] R.K.
Online since: January 2022
Authors: B. Vijaya Prasad, N. Anand, Arun P. Kumar, Paul Daniel Arumairaj, T. Dhilip, M. Sanath Kumar
Due to the environmental problems resulting from the production of cement, created the demand to replace the cement by industrial waste materials, Fly ash (FA) is the waste material having pozzolonic properties, also it is cost-effective and eco-friendly material.
Materials High Calcium fly ash and Aggregates.
Waste materials such as HCF are used as binding materials, M-sand is used as fine aggregate, Sodium hydroxide (SH) and Sodium silicates (SS) are used as alkaline solutions, with different AL to HCF such as 0.45, 0.55, 0.6 and 0.65 under ambient curing.
Mehta, ACI, 144 (1994) 383–93 [9] Topark-Ngarm P, Chindaprasirt P and Sata V, Setting time, strength, and bond of high-calcium fly ash geopolymer concrete, Journal of Materials in Civil Engineering. 27(7) (2015) 1–7 [10] Part W K, Ramli M and Cheah C B, An overview on the influence of various factors on the properties of geopolymer concrete derived from industrial by-products, Construction and Building Materials. 77 (2015) 370–95 [11] Cheah C B, Samsudin M H, Ramli M, Part W K and Tan L E ,The use of high calcium wood ash in the preparation of Ground Granulated Blast Furnace Slag and Pulverized Fly Ash geopolymers: A complete microstructural and mechanical characterization, Journal of Cleaner Production. 156 (2015) 114–23 [12] Vijaya Prasad and Arumairaj,Recent Advancements in Geopolymer Concrete using Class-F and Class-C Fly Ash, International Journal of Innovative Technology and Exploring Engineering. 8 (2019) 5879–84 [13] Antoni, Wijaya S W and Hardjito D, Factors affecting
the setting time of fly ash-based geopolymer Materials Science Forum, (2015) [14] Wattimena O K, Antoni and Hardjito D, A review on the effect of fly ash characteristics and their variations on the synthesis of fly ash based geopolymer, AIP Conference Proceedings, (2015) [15] IS383 2016 Coarse and fine aggregate for concrete Third edit 1–17, Bureau of Indian Standards.
Materials High Calcium fly ash and Aggregates.
Waste materials such as HCF are used as binding materials, M-sand is used as fine aggregate, Sodium hydroxide (SH) and Sodium silicates (SS) are used as alkaline solutions, with different AL to HCF such as 0.45, 0.55, 0.6 and 0.65 under ambient curing.
Mehta, ACI, 144 (1994) 383–93 [9] Topark-Ngarm P, Chindaprasirt P and Sata V, Setting time, strength, and bond of high-calcium fly ash geopolymer concrete, Journal of Materials in Civil Engineering. 27(7) (2015) 1–7 [10] Part W K, Ramli M and Cheah C B, An overview on the influence of various factors on the properties of geopolymer concrete derived from industrial by-products, Construction and Building Materials. 77 (2015) 370–95 [11] Cheah C B, Samsudin M H, Ramli M, Part W K and Tan L E ,The use of high calcium wood ash in the preparation of Ground Granulated Blast Furnace Slag and Pulverized Fly Ash geopolymers: A complete microstructural and mechanical characterization, Journal of Cleaner Production. 156 (2015) 114–23 [12] Vijaya Prasad and Arumairaj,Recent Advancements in Geopolymer Concrete using Class-F and Class-C Fly Ash, International Journal of Innovative Technology and Exploring Engineering. 8 (2019) 5879–84 [13] Antoni, Wijaya S W and Hardjito D, Factors affecting
the setting time of fly ash-based geopolymer Materials Science Forum, (2015) [14] Wattimena O K, Antoni and Hardjito D, A review on the effect of fly ash characteristics and their variations on the synthesis of fly ash based geopolymer, AIP Conference Proceedings, (2015) [15] IS383 2016 Coarse and fine aggregate for concrete Third edit 1–17, Bureau of Indian Standards.
Online since: September 2014
Authors: Zhi Xiong Huang, Min Xian Shi, Long Ying Yu
Sol-gel process is a chemical compound containing the active ingredient as a precursor, this compound is typically a lipid or alkoxides, in the liquid phase these starting materials were homogeneously mixed and subjected to hydrolysis and condensation reaction.
Tong: Journal of Silicate Bulletin, Vol. 1 (1992) No.3, p.43-48
Liu: Advanced Materials Research, Vol. 3 (2013) No.721, p.224-228
Chen: Journal of Composite Materials, Vol. 21 (2004) No.2, p.70-75
Guo: Journal of Inner Mongolia University: Natural Science Edition, Vol. 38 (2008) No.6, p.707-711.
Tong: Journal of Silicate Bulletin, Vol. 1 (1992) No.3, p.43-48
Liu: Advanced Materials Research, Vol. 3 (2013) No.721, p.224-228
Chen: Journal of Composite Materials, Vol. 21 (2004) No.2, p.70-75
Guo: Journal of Inner Mongolia University: Natural Science Edition, Vol. 38 (2008) No.6, p.707-711.
Online since: December 2010
Authors: Hui Min Chen, H.G. Wang, L.J. Xu
Wang
1
1
School of Materials Science and Engineering, Henan University of Science and Technology,
Henan, China
2
Henan Engineering Research Center for Wear Resistant Material, Henan, China
a
huiminchen5@163.com
Key words: High vanadium high speed steel, Microstructure, Slip-roll Ratio, wearing resistance,
Abrasion mechanism
Abstract.
Introductions As a new type of wear resistant material, high vanadium high speed steel (HSS) is widely used in hammer, spear plate and so on, in recent years it is used in outer materials of mill roll in many countries.
Wang: Journal of Zhengzhou University of Technology, Vol.22 (2001) No4, p. 25-27 [2] Y.
Guo: Journal of Luoyang Institute of Technology, Vol.23 (2002) No2, p. 8-10 [3] H.G.
Li: Journal of Chinese Electron Microscopy Society, Vol.23 (2004) No4,p. 413-413 [6] S.Z.
Introductions As a new type of wear resistant material, high vanadium high speed steel (HSS) is widely used in hammer, spear plate and so on, in recent years it is used in outer materials of mill roll in many countries.
Wang: Journal of Zhengzhou University of Technology, Vol.22 (2001) No4, p. 25-27 [2] Y.
Guo: Journal of Luoyang Institute of Technology, Vol.23 (2002) No2, p. 8-10 [3] H.G.
Li: Journal of Chinese Electron Microscopy Society, Vol.23 (2004) No4,p. 413-413 [6] S.Z.