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Lignin is a natural thermoplastic material.
Materials and Methods Basalt glass powder was made in our laboratory with size less than 5 micron and the particle size of fir powder was 16 mesh, The melamine modified urea-formaldehyde resin LN-5011, silane coupling agent KH550 and PMR release agent were supplied by Beijing Zhonghe Linuo Adhesive Limited.
Composites Science and Technology, 2007, 67(7-8): 1674-1683
International Journal of Fatigue, 2006, 28(10): 1307-1314
[6] Aiyun Pang, et al. 2011 International Conference on Textile Engineering and Materials.

Matsusshita and Junichi have studied the oxidation of CaB6 and reported these materials containing CaB6 have excellent oxidation resistance.
Because the CaB2O4 is generated and covered the surface of these materials between 900 and 1100°С as protecting layer [4].
There are some other methods to synthesize ZrB2-SiC materials.
Raw materials The raw materials mainly consist of H3BO3 (≥99.8wt %), petroleum coke (C≥80wt %), and the additives (e.g.
Journal Vol.6 (2011), p. 60

The following sections will describe the Materials and Methodology used in this study, will present the data obtained as a result of the mechanical tests performed and will discuss the main results and implications of the study.
Materials and Methods A short dental implant was designed with a conical length of 12 mm, a flat head with a circular section of diameter 4 mm and an internal hexagon for the adjustment of the abutment [12].
Science and Technology of Advanced Materials, (2003) Vol 4 p. 445
Journal of Dentistry.
[13] ASTM 2009 American Society for Testing and Materials.

In this way, average roughness of 0.2µ and lower can be achieved for softer materials such as brass and copper.
Materials and Manufacturing Process. (2015)
International Journal of Material Processing Technology. 173(2) (2006), 157-165
International Journal of Manufacturing Science and Engineering. 129 (2007b) 1045-1059
International Journal of Materials Processing Technology. (2009).

Study on Misalignment of Focus Position in Laser Metal Deposition Shaping Processing Fengjie Tian1,2,3,a, Weijun Liu 1,b , Xiaofeng Shang1,c and Guang Yang1,3,d 1 Shenyang Institute of Automation, Chinese Academy of Sciences, Shenyang, China, 110016 2 Shenyang Ligong University, Shenyang, China, 110168 3 Graduate School of Chinese Academy of Sciences, Beijing, China, 100039 a tianfj@sia.cn, bwjliu@sia.cn, cxfshang@sia.cn, dyangguang@sia.cn Keywords: Laser metal deposition shaping, Focus position, Misalignment, Shaping quality Abstract.
Lu: Ordnance Material Science and Engineering, Vol. 30 (2007) No.5, pp.68-72
Li: Direct Laser Fabrication of 3-Dimentional Metal Parts Based on Laser Cladding (Ph.D., Huazhong University of Science and Technology, China 2004).
Liou: Journal of Materials Processing Technology, Vol. 168(2005), pp.230-244
Kennedy: Journal of Materials Processing Technology, Vol. 122 (2002), pp.63-68

Introduction Each day reveals new materials that could be applied in different areas of mechanical engineering.
In most of these materials processing by conventional methods is a major problem due to breakage and tool wear, uneconomical or even impossibility of processing, while the non-traditional manufacturing processes are applied without the usual restrictions on the mechanical properties and machinability of materials.
Abrasive particles are made ​​of various materials, sizes and shapes, depending on the application.
Wang, Optimizing the AWJ cutting process of ductile materials using nozzle oscillation technique, International Journal of Machine Tools and Manufacture. 42 (2002) 781–789
Journal of Materials Processing Technology. 147 (2004) 389-396

Abrasives are extremely hard materials used to abrade or wear down softer materials.
The media possess several important characteristics: § Hardness, which enables them to abrade softer materials
The assembly used is conventional; the sample is held in a chuck using fixing jaws made of insulating material.
Babichev, improving the fatigue strength of non-ferrous materials by tribofinishing process, 2010
Mathia, Interface mass transfer during the tribofinishing process, Journal of Materials Processing Technology, 209 (2009) 6057–6061 [21] Jacques Goupy, Lee Creighton, Introduction to design of experiments, SAS Publishing, 2007 [22] Jacques Goupy, Pratiquer les plans d’expériences, Dunod, 2005

According to the comparisons between TiO2 and various porous materials during acid-odors adsorption, Beta type zeolite shows the best efficiency due to the maximum silica-alumina ratio and excellent specific surface area.
Results and Discussion Comparison between photocatalyst and zeolite porous materials in deacidification adsorption.
Requiemec: Chemical Engineering Science Vol. 61, (2006), p.7240 [4].
Yamamoto: Japanese Journal of Applied Physics Part 1-Regular Papers Brief Communications & Review Papers, Vol.46(8A), (2007), p.5288 [8].
Paillard: Ozone-Science & Engineering, Vol.13, (1991), p.331 [9].

Journal of Mechanics, Vol.28(1), 1996, p.99～103(in Chinese) [5] M.
International Journal of Impact Engineering, Vol. 25(2), 2001, p.147-167
Journal of Impact Engineering, Vol. 31 (8), 2005, p.929-944
International Journal of Solids and Structure, Vol. 37(5), 2000, p.297- 313
International Journal of Impact Engineering, 34(7) , 2007, 1258-1271

[4] Liang, L., Sun, F.P., and Rogers, C.A. (1996) 'Electro-Mechanical Impedance Modeling of Active Material Systems,' Smart Materials and Structures, 5: 171-186
L. (2006) 'Towards autonomous sensing,' Proceedings of SPIE's 13th International Symposium on Smart Structures and Materials, San Diego, CA, 6174, February 26-March 2, 248-254
of SPIE 13th Annual International Symposium on Smart Structures and Materials, 6177
-B. (2007) 'Electro-mechanical Impedance-based wireless structural health monitoring using PCA and k-means clustering algorithm,' Journal of Intelligent Material Systems and Structures, Online published
-B. (2007) 'Impedance-based structural health monitoring considering temperature effects,' Proceedings of SPIE's Symposium on Smart Structures and Materials, San Diego, CA, Mar., 18-22, 6532-11.