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It is a process of reducing solid unit materials into small unit materials.
KIU Journal of Social Sciences, 8(1), 233-245
Fudma Journal of Sciences, 6(1), 60-67
Journal of Soil Sciences and Agricultural Engineering, 7(1), 77-87
A Textbook of Strength of Materials.

Journal of Applied Polymer Science, Vol.116, 2658-2667.(2010) [2] Weihua Kai, Yuuki Hirota, Lei Hua.
Journal of Applied Polymer Science, Vol.107, 1395-1400.(2008) [3] Howard.
Materials Science and Engineering C, Vol.32, 152-159.(2012) [17] Lanlan Pan, Xibo Pei, Rui He.
Polymer Materials Science and Engneering, Vol.20, 37-40.(2004) [21] Flynn L, Dalton PD.
Biomedical Engineering Foreign Medical Sciences, Vol. 28, 19-23. (2005) [24] Ai-jun He, New Chemical Materials, Vol. 30, 1-6.(2002)

Ismail: Materials Letters Vol.58(2004),p.1754 [3] Y.H.
Zhou:Journal of materials science Vol .35(2000),p.3383 [6] B.
Ilic′: Materials Letters 57 (2003),p.1683 [8] K.
Dinesh: Materials Science and Engineering A Vol.498 (2008),p.495 [11] S.
Yang: Journal of Materials Processing Technology Vol.87(1999),p.53 [15] Y.

Congo Red Dye Removal Using Ca-Al Layered Double Hydroxide: Kinetics and Equilibrium Hong Tham Nguyen Thi1, Duy Chinh Nguyen1, Thi Thuong Nguyen1, Van Thuan Tran1, Huu Vinh Nguyen1, Long Giang Bach1,2, Dai Viet N-Vo3, Dai Hai Nguyen4,5, Doan Van Thuan1, Sy Trung Do6, Trinh Duy Nguyen1,4,* 1NTT Hi-Tech Institute, Nguyen Tat Thanh University, Ho Chi Minh City, Vietnam. 2Faculty of Chemical Engineering and Food Technology, Nguyen Tat Thanh University, Ho Chi Minh City, Vietnam 3Faculty of Chemical and Natural Resources Engineering, Universiti Malaysia Pahang, Malaysia 4Institute of Applied Materials Science, Vietnam Academy of Science and Technology, Ho Chi Minh City, Vietnam 5Graduate University of Science and Technology, Vietnam Academy of Science and Technology, Ha Noi, Vienam 6Institute of Chemistry, Vietnam Academy of Science and Technology, Hanoi City, Vietnam *Email: ndtrinh@ntt.edu.vn, labams2013@gmail.com Keywords: Layered double hydroxides, Congo Red Dye, Adsorption
Materials and Methods 2.1 Experimental Al(NO3)3.9H2O (≥98.0%), Ca(NO3)2.4H2O (≥99.0%) and urea, purchased from Sigma Aldrich, were used as received.
Chahkandi, Mechanism of Congo red adsorption on new sol-gel-derived hydroxyapatite nano-particle, Materials Chemistry and Physics 202 (2017) 340-351 [6] E.
Bach, Efficient removal of Ni2+ ions from aqueous solution using activated carbons fabricated from rice straw and tea waste, Journal of materials and Environmental Sciences, 8 (2017) 426-437 [10] T.V.
Chen, Removal of bacteria and viruses from waters using layered double hydroxide nanocomposites, Science and Technology of Advanced Materials 8 (2007) 67-70

Red mud as environmental restoration materials has the characteristics of low cost, simple process and controlling waste by waste.
The goal is to controlling waste by waste, turning waste into wealth and the best use of the materials, at last to achieve the zero pollution release of red mud.
[2] Claudia Brunlri，Carlo Cremisini，Paolo Massanisso，etal: Joumal of Hazardous Materials B，Vol. 117(2005), pp. 55-63
[19] Laura Santona, Paola Castaldi, Pietro Melis: Journal of Hazardous Materials B.
[21] Friesl W, Lombi E: Journal of Plant Nutrition and Soil Science.

Journal of Material Processing Technology, 2000, 13: 36-39
Materials processing technology, 2000, 102(3):70-77
A comparative study on micro plastic deformation behavior in a SiCp/2024Al Composite and its unreining forced matrix alloy .Materials Letters, 2001, (49): 69-74
Journal of Materials Processing Technology,2000, 103: 267-275
Smart Materials and Structures, 2004, 13 (2): 350-354

Also, composite materials bended with polymers are gaining lingering applications.
In half breed composite materials there are two distinct materials are used in a grid.
Exploration exercises in the field of regular fiber materials brought about this material having discovered applications in the assembling of composite molecule sheets, warm covers and building materials.
Comparison of strengths of the materials for all 3 composite sheets 5.
International Journal of Innovative Research in Science, Engineering and Technology 5( 7), 66-70 (2016)

Gontarz, “Influence of deformation parameters on grain size of AlSi1Mg alloy in forging”,Journal of Materials Processing Technology, Vol. 138,p p.196-200, 2003
Lee, “Experimental verification of preform design for axisymmetric heavy forging on a model hammer”, Journal of Materials Processing Technology, Vol. 47, pp.103-110, 1994 [3].
Burkin, “Automated forging center as renaissance of hammer forging in heavy industry”, Journal of Materials Processing Technology, Vol. 56, pp.631-642, 1996 [4].
Pater, “The reasons for structural defects arising in forgings of aluminium alloys analysed using the finite element method”, Journal of Materials Processing Technology, Vol. 92-93, pp.50-53, 1999 [5].
Hallstrom, “Influence of friction on die filling in counterblow hammer forging”, Journal of Materials Processing Technology, Vol. 108, pp.21-25, 2000

Introduction With the rapid development of science and technology, various sophisticated systems on optical, mechanical, electronic interdisciplinary are continuously produced.
Material removal model.
International Journal of Machine Tools & Manufacture 40: 1651-1669.2000
Materials and Product Technology, Vol.31,No.1, 54-62 , 2008
International Journal of Manufacturing Technology. 39:512-520.2008

Extrusion Welding in Aluminium Extrusion, International Journal of Materials & Product Technology, vol. 17, pp.497-556
Sheppard, Application of finite element method in the hot extrusion of aluminium alloys, Materials Science and Engineering: A vol.369 (1-2) 2004, pp. 66–75
Maier, A new method for determining dynamic grain structure evolution during hot aluminum extrusion, Journal of Materials Processing Technology Vol. 212 (1) 2012, pp. 323–330
Investigation into the improvement of welding strength in three-dimensional extrusion of tubes using porthole dies, Journal of Materials Processing Technology, vol. 130-131, pp.426-431
Materials and Design 29(6):1190–1198