Search results

Siclovan:Solar Energy Materials & Solar Cells Vol. 90 (2006), p- 1041 [3] M.
Adachi:Materials Letters Vol. 58 (2004), p. 3915 [5] H.
Rusu :Applied Surface Science Vol. 156 (2000), p. 200 [7] M.
Zhang: Journal Raman Spectroscopy Vol. 32 (2001), p 862 [10] G.A.
Seakins, Journal Raman Spectroscopy Vol. 26 (1995), p. 57

Introduction Regeneration pre-sensitized offset plate which had excellent performance and wide application was made by used plate recycled again after processing system.This plate was a green printing material.It could fully recycling used the metal aluminum, reduce production cost.
Materials and methods Materials.
Journal of Nanjing Forestry University: Natural Sciences Edition,2005, 29(6): 91-94
Wang: Journal of Wood Science Vol. 51 (2005), 7
Nakao: Wood Science and Technology Vol. 39 (2005),439.

Thermoelectric Materials Despite several attempts to find better materials, bismuth telluride, Bi2Te3, and its alloys with Sb2Te3 and Bi2Se3 are the most significant class of thermoelectric materials because they have the highest known efficiency close to room temperature.
“Optimized Photovoltaic Panels Power Using Cooling System Based Thermoelectric Materials.”
Wasit Journal of Engineering Sciences 7: 1–13
International Journal of Engineering Science and Technology 4 (05): 2381–95(2012) [13] Srivastava, Raj Shekhar, Anuruddh Kumar, Harishchandra Thakur, and Rahul Vaish.
Advanced Electronic Materials 5 (6): 1–20. https://doi.org/10.1002/aelm.201800904

(a) Main experiment materials: Dielectric elastomer: 3M acrylic VHB4910, thickness:1mm.
Xiong: Journal of Materials Science and Engineering, Vol. 26 (2008) No.1, P.156-160 (In Chinese)
Zhang: Journal of Chongqing Institute of Technology, Vol. 21 (2007) No.1, P.25-28 (In Chinese)
Leng: Science in China (E), Vol. 39 (2009) No.9, P.1564~1573 (In Chinese)
Kessler: Materials Letters, Vol. 60 (2006) No.29-30, P.3437-3440

Hard magnetic materials and soft magnetic materials which are distinguished by the material and the relative position to the DMC compose the ferromagnetic materials.
Hard magnetic materials are always the electric equipments or ferromagnetic materials with high coercivity, whose strength and relative position to the DMC are invariable.
Soft magnetic materials have low coercivity, and their strength and relative position to the DMC are variable.
The research on ferromagnetic materials indicates that hard magnetic materials make the centre of the circle move a constant value from the origin; soft magnetic materials change the circle to an ellipse whose axis has an included angle to the circle’s, and this included angle is related to the strength of soft magnetic materials.
After analysis, the interference caused by hard magnetic materials has a sine relationship with: The interference caused by soft magnetic materials has a sine relationship withand a constant error: So compass error is known as .

Considering from the current situation to the future, the application of practical laser material can be mainly divided into the blue, green and violet and visible light laser material for full-color displays, optical storage, lithography and other applications, or 2 ~ 5μm mid-infrared laser material for eye-safe, remote sensing, optical communications, medical and other applications, or 1μm-band high-power, high-energy laser material for advanced manufacturing technology, "new concept" laser weapons, or Diode-pumped laser (Diode pump Laser, DPL) and amplified ultrafast laser gain media materials.
Among the above high power, high efficiency, high-energy solid-state laser crystal materials and DPL speed laser crystal materials should be classified as the key problem with the common direction of basic science [1-4].
Progress and thinking of laser materials.
Journal of Synthetic Crystals, 1998, 27(3)229~232 [3] D.
Chinese Journal of Quantum Electronics. 2002,19(2):104~108.

Fabrication of NiTi Alloy Coating on 2Cr13 Stainless Steel by Laser Cladding ZHANG Chunhua1, a, LI Shuang1, a, QI Lin1, a, REN Yuhang1, a, ZHANG Song1, a, WANG Maocai2, b 1School of Materials Science and Engineering, Shenyang University of Technology, China 2State Key Lab. of Corrosion and Protection, Institute of Metal Research Chinese Academy of Sciences, China asongzhang_sy@yahoo.com.cn Keywords: Laser cladding, NiTi alloy, microhardness, clad angle, dendrites Abstract.
At the same time, these materials also have the good cavitation erosion resistance[1,2].
Laser cladding is an important means of material surface remelting hardening technology, possesses higher accuracy and flexibility especially in the preparation of special coating materials.
Experimental procedure Materials and sample preparation.
Materials Science and Engineering, Vol. 459 (2007), p. 52 [6] J.L.

Since the dispersed materials properties depend on the particle size, particle size control is an important technological component in the production of powder materials [8, 9, 10].
Comparison of methods of photo sedimentation and laser diffraction in determining the particle size distribution of fine powders, Innovations in materials science and metallurgy, Ural Publishing House, University, Yekaterinburg, 2012, pp. 194-197
Diagnostics of materials 2(76) (2010) 26-29
Diagnostics of materials 5(75) (2009) 31-34
Journal of Physics: Conference Series 1679 (2020) 022010

For example, in engineering we often make use of the principle of material properties that plastic material can withstand tension and brittle materials can withstand pressure in order to achieve rational use of different materials.
Nowadays, with the scientific and technological progress and the development of material science, researchers explore the method and ideas of material science have undergone tremendous changes.
People begin to explore the materials of physical properties, design methods and processing methods then strive to create new materials to meet human needs in accordance with the human will.
The research work has risen to a new stage from the rational use of materials to actively create materials.
Modeling and Simulation in Materials Science and Engineering, 2003, 11 (3): 265~286 [13]Liu W K, Hao S, Vernerey FJ, et al.

awubo19880720@hotmail.com, bzhengguo@tjpu.edu.cn csunyu_1980@126.com, djiejiegua@126.com, ewanglei9185@126.com frxxw@sohu.com Key word: Hard hydrolytic, Borate ester, Glycerol, Modify, Oxirane (EO) Abstract: Boric acid and glycerol were adopted as the starting materials to react with cation exchange resin (CER) as the catalyst.
Fig. 1 The mechanism of hydrolysis of borate esters Experiment Materials and instruments.
Materials: Boric acid and glycerol were analytically pure purchased from Tianjin Kermel Chemical Reagent Co. and used as received.
Fig. 4 The IR spectrum of borate ester Fig. 5 The IR spectrum of EO borate ester Conclusion Boric acid and glycerol were adopted as the starting materials to react to borate ester.
[3] Chunhua Ge: Journal of Liaoning University. 26-29, (1998) p. 125 [4] ZhiZheng and GuangqiuShen: Wear. 135-144, (1998) p. 222 [5] Yuki Kato and Shoichi Yokoyama: Electrochemistry Communications. 128-130, (2001) p.3 [6] Takuro Hirakimoto and Masayoshi Watanabe: Electrochimica Acta. 1609-1614, (2001) p. 46 [7] Zhonghua Cao and Aijun Wang: Journal of Shenyang University Of Chenical Technology. 249-252, (2010) p. 324 [8] MaoyuanLi: Polyurethane Industry. 43-46, (1999) p. 414 [9] Jianke Liu and Can Li: Applied Surface Science. 16-20, (1998) p.126 [10] Othma Stelzer and Reinhard Schmutzler: Fluorine Chemistry. 313-315, (2001) p. 112