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The concrete material ofthe supports was assumed to behomogeneous and linear-elastic.
Dulinska, Cooling tower shell under asynchronous kinematic excitation using concrete damaged plasticity model, Key Engineering Materials, 535-536 (2013) 469-472
Journal of Earth Sciences and Engineering, 4 (2011) 538-541
Oñate, A Plastic-Damage Model for Concrete, International Journal of Solids and Structures, 25 (1989) 229–326
Fenves, Plastic-Damage Model for Cyclic Loading of Concrete Structures, Journal of Engineering Mechanics, 124 (1998) 892–900

Spring MRF Dampers Fig. 2 Vibration isolation device Table 1 shows the material parameters of the set, the spring material of Si-Cr Alloy, damper parameters of MRF, other parts of the material is a Medium carbon steel.
Acknowledgments The authors gratefully acknowledged the financial support of the Ministry of Science and Technology of the Republic of China under Grant No.
Lee, Experimental test of asymmetrical cable-stayed bridges using MR-damper for vibration control, Journal of Sound and Vibration, 2014, 78–85 [2] P.
Zhou et al., Semi-active control of three-dimensional vibrations of an inclined sag cable with magneto rheological dampers, Journal of Sound and Vibration 296 (2006) 1–22
Zhang, An adaptive beam model and dynamic characteristics of magnetorheological materials, Journal of Sound and Vibration 261(3) (2000) 465–481.

Wu-Khanh: Journal of Composite Materials, Vol. 29, No. 2 (1995), p. 156 [2] L.
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Sun: Journal of Composite Materials, Vol. 27 (1993), p. 684 [7] Y.
Netravali: Journal of Composite Materials, Vol. 28 (1994), p. 837 [8] J.
Chang: Journal of Composite Materials, Vol. 21 (1987), p. 834 [11] Y.

American Society for Testing and Materials Standard (ASTM) and Aerospace Materials Specification (AMS) have proposed that ultrasonic Lamb wave can be used for detecting the defects in thin strip and plate, but the details have not been mentioned [6].
[3] Wu Shihong, He Shuangqi and Chen Ying: Aerospace Materials & Technology, 2007, (6):124-126
[5] Jiang Futang, He Shuanghong and Shen Jianzhong: Journal Material Engineering, 1996, 41(10):29-31 [6] J.
Guangzhou: Guangdong Science and Technology Press, 1984
Crean: The Journal of the Acoustical Society of America, 1999, 105(02):1342

This may involve steps like separation of functional parts and hazardous materials followed by shredding, screening, magnetic and Eddy current separation of ferrous and non-ferrous materials and density separation.
Science of The Total Environment (2010) Vol. 409, p. 19
International Journal of Engineering Research and General Science (2014) Vol. 2(6), p. 324
Journal of Hazardous Materials (2008), Vol. 158, p. 228
International Journal of Chemical Sciences (2011), Vol. 9, p.1063.

Dynamic recrystallization during hot compression processes of 304 austenite stainless steel Xiaodong Zhao1, a, Jiansheng Liu1, b , Huiqin Chen1,c and Wenwu He1,d 1 School of Material Science and Engineering of Taiyuan University of Science and Technology, China a zxd917@qq.com, bjiansliu@163.com, cchen_huiqin@126.com,d hwwssl@126.com Keywords: 304 Austenite stainless steel, Hot compression, Flow stress, Microstructure, Grain size.
Introduction 304 austenite stainless steel is one of the major materials of large forging parts used in nuclear power plants.
Experimental Materials and Procedures Material is as-rolled 304 austenite stainless steel, and the cylinder specimens with a size of Φ10mm×15mm were prepared.
Li: Journal of Northeast Heavy Machine College, Vol. 11 (1987) No. 4, p.15（In Chinese） [4] L.Z.
Zhang etc: Journal of Shanghai Jiaotong University, Vol.13 (2008) No.5,p.786（In Chinese） [5] Y.C Lin, M.S.

The WCO sample collected was filtered using filter paper to remove any foreign materials. 100 mL of filtered WCO was heated to temperature 95-125 oC.
Material Science Forum, 775-776, 351-356
Journal of Material Science Letters, 19, 1355-1356
American J. of Engineering and Applied Sciences, 59 – 62
European Polymer Journal, 49(6), 1204 – 1214

Materials and Methods Preparation of extracts.
Food Science, 2009, 30(1): 28-30 [2] L.
Food Science, 2006, 27(4): 99-102 [4] T.
Journal of the Food Sciences, 2010, 75: 54–61 [5] A.
Journal of Chinese Institute of Food Science and Technology, 2013, 13(1): 201-205 [11] B.

Experimental Materials PLA (IngeoTM Biopolymer, 2003D) was purchased by NatureWorks LLC, USA.
It shows the high performance material which can be applied to bio-packaging materials.
Kuhaudomlap, "Comparison of Morphology and Mechanical Properties of Polyoxymethylene/Cellulose and Poly(Lactic Acid)/Cellulose Composites," Materials Science Forum, vol. 916 (2018) 19-23, [3] X.
Madaan, "Development and characterization of PLA-based green composites: A review," Journal of Thermoplastic Composite Materials 27 (2014) 52-81
Saeed, "Wood cellulose fibers reinforced polylactic acid composite: mechanical, thermomechanical characteristics and orientation of fiber," AIMS Materials Science 7 (2020) 9-23

With the dimension design as shown in Table 1, the silicon material is adopted and the model is established as shown in Fig. 2(a).
The 2D MEMS scanning mirror, the permanent magnets and the field yokes are packaged together in a compact structure with duralumin materials.
Acknowledgments The project supported by National Natural Science Foundation of China (No. 51105228).
Journal of the Society for Information Display, 2009, 17(7): 591-595
Huang, “Design and Simulation of Electromagnetic Two-dimensional MOEMS Scanning Mirror”, Key Engineering Materials, vol. 483, pp. 185-189, 2011.