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Osipov, Amorphous and ultradisperse materials.
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Methods and Materials Experimental Methods.
Journal of Environmental Sciences. 25 (2013) 808-814
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By considering the treatment method of foundation, the two-way weight coefficient method of material characteristic factors to calculate, the specific method is as following: First, defining the elastic modulus of the foundation treatment materials and the deformation modulus of soil, and then according to the treatment methods of foundation, materials and area ratio or replacement ratio of each material in the soil weight, deformation modulus of foundation treatment layer are obtained: (2) Where = deformation modulus of foundation treatment layer; =foundation treatment materials and deformation modulus of soil; = weight coefficient of area from different materials or replacement ratio.
Main materials used in calculation are concrete and foundation soil.
Qi: Journal of Chongqing Jianzhu University, Vol. 28 (2006) No.2, p. 52.
Xiao: Fujian Building Materials, Vol. 1 (2010) No.4, p. 84.
Zeng: Journal of China Coal Society, Vol. 1 (2004) No.3, p. 284.

Laila Masrura, A.S.Anasyidab*, H.Zuhailawatic Structural Materials Niche Area, School of Materials and Mineral Resources Engineering, Universiti Sains Malaysia, 14300 Nibong Tebal, Penang, Malaysia alailamasrur@yahoo.com, b*anasyida@usm.my, czuhaila@usm.my Keywords: Semi-solid casting; Grain refiner; globular structure; A356 alloy Abstract.
TMS (The Minerals, Metals and Materials Society)
Materials Science Engineering A, 220 (1996) 109-116
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Journal of Materials Processing Technology 174 (2006) 371–383.

The resistivity and materials constant B value exhibit opposite change laws.
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Acknowledgement This material is based upon work funded by Zhejiang Provincial Natural Science Foundation of China under Grant (Y1110504) and Ningbo Science Foundation (2011A610114).
[2] A.Vuruskan, E.Bulgun: International Journal of Clothing Science and Technology Vol. 23 (2011), p. 46-60
[4] H.Han, Y.Nam, and S.J.H.Shin: International Journal of Clothing Science and Technology Vol. 22 (2010), p.343-357
[5] W.Lee, H.Imalka: International Journal of Clothing Science and Technology Vol. 22 (2010), p.297-311
[8] Fengyuan Zou et al: Journal of Textile Research Vol. 27 (2006), p.56-59, in Chinese

Acknowledgements This work was supported by the National Natural Science Foundation of China (Grant no. 20876108).
Cahill: Materials Today Vol.8 (2005), p. 36 [5] P.R.
Ye: International Journal of Thermal Sciences Vol. 46 (2007), p. 105 [10]Y.M Xuan, M.
Li: Theroy and application of energy transport in nanofluid (Science Press, Beijing 2011)
Han: Journal of China University of Metrology Vol. 4 (2010)

The plasma treatment influence on the adhesive wafer bonding by the PDAP Fang Zhong1, Tao Dong2,a, He Yong1, Su Yan1 1School of Mechanical Engineering, Nanjing University of Science and Technology,Nanjing, China, 2Department of Micro- and Nanosystem Technology, Faculty of Engineering and Maritime Science, Høgskolen i Buskerud og Vestfold, Norway a Corresponding Author, PhD Tao DONG.
The bonding process allows the deposition of thin films on SOI wafers to be separated from the fabrication of integrated circuits (IC), where an intermediate adhesive material then bonds the SOI wafer to the IC wafer [1].
The void-free wafer-level bonding of PDAP as the adhesive wafer bonding material has been presented.
Journal of Micromechanics and Microengineering, 23(12), 125021
Gutmann, "Adhesive wafer bonding", Journal of Applied Physics, Vol.99, No.1, pp.031101.1-031101.28, 2006

Introduction Mg alloys are considered to be amongst the advanced materials for the 21st century.
The wrought magnesium alloy AZ31B was used as raw material which produced by commercial process.
G2000067208-4 and the Natural Science Foundation of Liaoning Province under the contract No. 2001101021.
Effect of Zn and Si additions on structure and properties of rapidly solidified Mg-Al alloys [J], Materials Science & Technology, 1994,(9):763-769 [5] Kubato K, Mabuchi M, Higashi K.Review processing and mechanical properties of fine-grained magnesium alloys[J], Journal of Materials Science, 1999, 34(10):4311-4320 [6] WANG Ling-yun, HUANG Guang-sheng, FAN Yong-ge, HUANG Guang-jie Grain refinement of wrought AZ31 magnesium alloy[J], The Chinese Jounal of Nonferrous Metals, 2003, 13(3):35-41(in Chinese) [7] Kojima Y.
Platform Science and Technology for Advanced Magnesium Alloy[J], Mater.

Reduction of Iron Ore Pellets Containing Blast Furnace Dust Tran Thi Thu Hiena,*, Nguyen Sy Longb School of Materials Science and Technology, Hanoi University of Science and Technology, Hanoi, Vietnam ahien.tranthithu@hust.edu.vn, blong0789228885@gmail.com *Corresponding author Keywords: Blast furnace dust (BFD), recycling, pelletization.
The chemical composition of raw materials is shown in Table 1.
This strength is suitable for raw materials changing into blast furnaces [8].
Acknowledgment The authors would like to thank Hoa Phat Hai Duong Steel Joint Stock Company supplied the raw materials.
[7] Tran Thi Thu Hien, Pham Ngoc Hai, Tran Trung Hai, Recycling Blast Furnace Dust as Raw Material in Iron-Making, Applied Mechanics and Materials. 919 (2024) 79-84