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Experimental Designs Chemical composition of materials is given in Table 1.
The base Materials (BM’s) is used in the form of rolled plates of 3 mm thickness.
Cheng, Effect of nickel and molybdenum additions on weld metal toughness in a submerged arc welded HSLA line-pipe steel, Journal of Materials Processing Technology, Vol. 173 (2006), pp. 92-100
Hu, Effect of welding process on the microstructure and properties of dissimilar weld joints between low alloy steel and duplex stainless steel, International Journal of Minerals, Metallurgy and Materials, Vol. 19 (2012), pp. 518
Hassan, Application of Taguchi method in the optimization of end milling parameters, Journal of Materials Processing Technology, Vol. 145 (2004), pp. 84-92

The punch, container and die materials were H13 and punch holder, die holder and pedestal materials were Ck45.
Materials Science and Engineering , 384, 70–76
Journal of Materials Processing Technology , 124, 49–56
Materials and Design , 31, 493-499
Materials Letters , 61, 4110–4113.

However, C, N and P contents of other materials are derived from the reference books and publications [15-18].
[5] Rodhe H.A.: Science, 1990, 280, 1217-1219
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Shanghai: shanghai science and technology press, 1962.

As experimental material A type zeolite was used and different variations of Ag, Cu and Zn ions were incorporated into the crystal structure.
Materials and Sample preparation Synthetic “A” type zeolite, ZEOMIC AJ10D inorganic antimicrobial agent (Ag content 2.5%) was purchased from Sinanen Zeomic Co., Ltd.
Microporous and Mesoporous Materials, 2005. 84(1-3): p. 161-170
Brazilian Journal of Chemical Engineering, 2003. 20: p. 413-421
Journal of Colloid and Interface Science, 2000. 232(1): p. 126-132.

But all kinds of material consumption also can increase accordingly.
Another material consumption of the opening experiments also has the funds support.
They can discuss each other; they may refer to the relevant material too.
Li: Journal of Henan Institute of Education (Natural Science Edition) 1(2012), p. 58-60(In Chinese) [6] Li W, Chen X L, He Y P 2011 Construction and Confer Open Physical Experiments Teaching System in Engineering College.
Zhao: China Science and Technology Information 6(2006), p. 285-286(In Chinese)

Design, fabrication and test of in-plane MEMS piezoresistive high-g accelerometer Yun-bo Shi 1,2, 3,a,Zhi-jun Zhou1,2,3,b* , Sheng-fei Dong1,2,3,c and Jun Tang 1,2,3 1 Key Laboratory of Instrumentation Science & Dynamic Measurement (North University of China), Ministry of Education Taiyuan,China 030051; 2 Science and Technology on Electronic Test & Measurement Laboratory(North University of China) Taiyuan,China 030051 3 School of Instrument and Electronics, North University of China, Taiyuan, China,030051 ay.b.shi@126.com, bzhouzhijun5@126.com (corresponding author),cdongshengfei90@yeah.net Keywords: MEMS; piezoresistive; high-g; accelerometer Abstract: The new structure of in-plane high-g MEMS sensor for 10,000-150,000g has been designed in our paper, and it was packaged in dimensions of 17.5mm×12mm×4.5mm.
Fig. 1 The diagram of the accelerometer According to the coordinates of the Fig. 1, we can obtain the cross section moment equation is: (1) Where q1=ρb1h1a, q2=ρb2h2a (ρ is the density of the material, a is the acceleration), X1 is redundant restraint and can be obtained by canonical equation of force method.
Journal of Mechanical Science and Technology, 27(3)(2013)831-836
Materials Science Science and Engineering B-Solid State Materials for Advanced Technology:l996, 36(1-3),246-250．

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The thermodynamic analysis of Ni1/2Mn1/2(OH)2 prepared by hydroxide co-precipitation method YiJie Gu1, a, *, QingGang Zhang1, b, YunBo Chen2, HongQuan Liu1, YanMin Wang1, FeiXiang Hao1, Peng Liu1, ShuQi Li1 1College of Material Science and Engineering, Shandong University of Science and Technology, Qingdao 266590, PR China 2Advanced Manufacture Technology Center, China Academy of Machinery Science and Technology, Beijing 100044, China aguyijie@sdust.edu.cn, bqinggang_jie@126.com Keywords: Lithium-ion batteries; Ni1/2Mn1/2(OH)2; Chelating agent Abstract: The thermodynamic analysis of Ni2+-Mn2+-NH3-OH--H2O in co-precipitation system was carried out, and the precursor Ni1/2Mn1/2(OH)2 was prepared by hydroxide co-precipitation method.
NiSO4·6H2O,MnSO4·H2O, NaOH and NH3·H2O were used as the starting material.
Ni1/2Mn1/2(OH)2 cathode material are prepared by hydroxide co-precipitation at 323K.
Ceder, Science 311 (2006) 977-980
Journal of Inorganic material, 1999, 14(5) : 733-738

Purohit, A Review on Properties, Behaviour and Processing Methods for Al- Nano Al2O3 Composites, Procedia Materials Science. 6 (2014) 567-589
Materials Research Express. 6 (2019), 106566
Journal of Composite Materials. 54 (2020), 1107-1117 [31] S.
Materials Today: Proceedings. 2020
Materials & Design, 98 (2016), 155-166.

Acknowledgements The project is partly supported by the National Natural Science Foundation of China (Grant No. 50908243) and Natural Science Foundation of CQ CSTC (Grant No.
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