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However, there are several problems to use the starch as filling materials[4]: (1) complicated pretreatment process.
Materials and methods Experimental materials Heavy calcium carbonate, 1500 mesh, Guangfu Building Materials Limited Corporation, Chaozhou City, Guangdong Province.
The activation time is controlled within 10-15 min, then the materials were mixed with carrier resin, dispersants and lubricants[7].
The mixed materials containing modified filler, carrier resins, dispersants and lubricants were added into the machine from a hopper.
Khaki: Journal of Materials Processing Technology, Vol 209, Issue 3 (2009), pp. 1310-1317

It has many advantages and significance to prepare degradable plastics with natural cellulose materials.
Experimental Materials.
The softwood fibers which were used as raw materials were commercial bleached softwood pulp board with the beating degree 45°SR.
All materials were used as received without further purification.
Journal of Applied Polymer Science, 2000, 76: 561-574.

Introduction Requirement for advanced materials in modern industry and techniques is more and more increasing, for pure metals and single alloys cannot fit for the developing demand of society.
Metal Matrix Composites (MMCs), as a type of advanced materials, has been one of hot fields of materials research.
Those technologies as above are based on the addition of the particulate reinforcement to the matrix materials, which may be in molten or power form.
Takaki: proceedings of THERME'97, (The Minerals, Metals & Materials Society, Warrendale, 1997) [2] A.
A187 (1994), p.189 [13] F Ozturk, S Toros, S Kilic: Journal of Iron and Steel Research, International, Vol.16 (2009), p.41 [14] C.

V, Effect of cooling rate on microstructure of Ti-6Al-4V forging, Material Science and technology, 18/ 12 (2002) 1471-1478 [4] R.
Ziaja, The effect of microstructure on the mechanical properties of two-phase titanium alloys, Journal of Materials Processing Technology 133 (2003) 84–89 [5] J.W.
Qiu, Y.Liu, Y.B Liu, Microstructure and mechanical properties of Ti alloy connecting rod made by powder forging process, Materials and Design, 33 (2012) 213-219 [6] Y.H.
Shin, High temperature forming of Ti6Al4V alloy considering microstructure evolution, Key Engineering Materials, 274-276 (2004) 117-122 [7] Z.
Robinson, Consolidation of Titanium, and Ti-6Al-4V Alloy Powders by Powder Compact Forging, Materials Science Forum 618-619 (2009) 513-516.

The environmental factors that can affect the materials corrosion behaviour such as temperature, dissolved oxygen, pressure changed compared with the shallow sea [5], and the materials corrosion behaviour was also different.
Juarez-Islas, Evaluation of an Al-Zn-Mg-Li alloy/potential candidate as Al-sacrificial anode, Journal of Materials Engineering and Performance. 10(2001) 596-601
Safi, Influence of bismuth on electrochemical behavior of sacrificial aluminium anode, Anti-Corrosion Methods and Materials. 53(2006)102-109
Juarez-Islas, Characterization and prediction of microstructure in Al-Zn-Mg alloys, Materials Science and Engineering A. 402(2005) 320–324
Campbell, The influence of Ti and Zr on electrochemical properties of aluminum sacrificial anodes, Materials Science and Engineering A. 431(2006) 263-276.

Studies of reliability indicators of materials used for electrolysis were carried out.
Inguanta, Ni alloy nanowires as high efficiency electrode materials for alkaline electrolysers.
Yashtulov, Installation for the production of nano-porous (ultrafine) catalytically active materials.
Mudrakova, Chemical-technological approach to the creation of nanofilament (ultradisperse) catalytically active materials.
Journal of Membrane Science. 625 (2021) 119172.

Moreover, if the laser energy was too large, the ceramic materials would turn Metamorphic after being heated.
At the same time, the materials gasified more than it molted.
International Journal of Machine Tools and Manufacture, 2007,47(3~4):618~612 [2] G.F.Yuan.
Laser Milling mechanism and dynamics process of hard and brittle materials[D].
[4] Y.Zhou, T.Q.Lei, ceramic material science[M].

The optimization of corn juice beverage processing technology YANG Xin-chao1,a , and WANG Yuan-xiu1,b , QIN Yu-xiang1,c ,MA Chuang2,d , SU Zhengbo2,e, 1School of biomedical and life science, University of Jinan, Jinan, Shandong 250022, China; 2Shandong province food fermentation industry research & Design Institute Jinan, Shandong 250013, China; acse_yangxc@ujn.edu.cn, bchm_wangyx@ujn.edu.cn , cchm_qinyx@ujn.edu.cn ,dmachuang0419@163.com ,escosy1@163.com Key words: corn residue; Saccharification; liquefaction; stability; Abstract: Corn residue is used as raw material, and through the study of corn juice processing, we can optimize the machining process, reduce processing costs, increase economic efficiency.
Using corn as raw material for making beverage has the advantages of low cost, wide source of raw materials, high economic benefits.
So the optimization of processing technology of corn of corn beverage industry development becomes the urgent need to solve the problem[5]. 2 Main materials and apparatus Corn residue; Amylase; Saccharifying enzyme; Analytical balance; Vacuum filter pump; High pressure sterilization pot; Clean bench; High pressure homogenizer 3 Method 3.1 Determination of cooking time Weigh 100g of corn residue, cooking time are respectively 15min, 30 min, 45 min, 60 min, 75 min, 90 min, beating with a beater, and record the difficulty of beating.
But for the same material homogenizing temperature is determined, we only study the effect of homogeneous temperature and frequency.
Journal of Food Science, 1995.60(5): 949-952.

In term of composition, four groups can be classified for humidity controlling materials, namely as silica gel, inorganic salts, inorganic mineral and polymer.
Consequently the adsorption and desorption capacity and controlling rate of materials were obviously improved.
Jiang: Materials Reviews, Vol. 20(2006), p. 8 (In Chinese) [2] L.
Jin: Journal of Shenyang Institute of Chemical Technology, Vol. 13(1999), p.1 (In Chinese) [3] J.
Wang: Rare Metal Materials and Engineering, Vol.39 (2010), p.418 (In Chinese)

Introduction Monocrystalline silicon is the base material of the electronic industry.
Model and material properties In order to understand the fluid characteristics of molten silicon , and get the temperature and velocity value in CZ crystal furnace at different time, in this paper, the model and the parameter of CZ crystal furnace have been selected as in fig.1 ,and the material parameter of CZ crystal furnace as in Table.1.and Table.2.
CZ single crystal furnace two-dimensional model Table.1.Material properties of CZ crystal furnace Radiation coefficient 0. 5 (Crystal) 0. 3 (Melt) 0. 5 (Quartz crucible) 0. 8 (Graphite) 0. 6 (Curing carbon fiber felt) 1. 0 (Soft carbon felt) 0. 3 (Heat shield) Thermal conductivity/ (W·m- 1·K- 1) 66 (Melt) 3. 5 (Quartz crucible) 42 (Graphite) 2. 4 (Curing carbon fiber felt) 0. 45 (Soft carbon felt) 105 (Heat shield) 0.23(Argon) Density/ (kg·m- 3) 2330 (Melt) Heat capacity/ (J·kg - 1·K- 1) 1000 (Melt) 2000 Graphite) 521(Argon) Silicon crystallization temperature/ (K) 1683 Table.2.Silicon enthalpy Temperature/(K) 300 1523 1723 1823 Silicon enthalpy/(J·m-3) 4×109 8.3×109 11×109 11.2×109 Presentation of Result By using FEM and the software of ANSYS, in this paper, the preparation process of Czochralski crystal has been
Acknowledgements This work has been supported by the National Natural Science Foundation of China (No.10962007), and Key Project of Chinese Ministry of Education (No.209136), and Ningxia Natural Science Foundation of China (NZ1027).
Journal of Inorganic Materals. 2, 20 (2005)