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The combination of morphology and chemical properties of silica-lavender modified by chitosan-starch made this material as a candidate material for application in functional textile.
EXPERIMENTAL Materials Sodium silicate as precursor, chitosan as walls material for microencapsulation and surfactant by sol gel-emulsion, using starch as template.
E., P, Puggia, C., Tesoriero,M.V.D, Hermida,L., (2010): Aroma Finishing of Cotton Fabrics by means of Microencapsulation Technique, Journal of Industrial Textiles
,Zhou,Y., (2009): Preparation and Characterization of Natural Fragrant Microcapsule, Journal of Fiber Bioengineering and Informatics [4] Textor T, Bahners T, Schollmeyer E (1999) melliand Textilber 80:847
In : Kumar P Mittal KL (eds) Handbook of microemulsion science and technology, Marcel Dekker, New York, pp1-12

De Souza (2009), ”Caffeic acid as a green corrosion inhibitor for mild steel” Corrosion Science 51 : 642 – 649 [8].
Pakistan Journal Biol.Science vol.13 (148-151). 2010 [9].
Advance Material Research.
Disertasi Departement Metalurgi dan Material.
Corrosion Science 45 : 715 – 733 [13].

Materials and Methods Experimental Materials.
Acknowledgements This work was financially supported by the Science Foundation of Tanggu District (Project No.2010XN08-05).
Allelopathic growth in hibition of selected phytoplankton species by submerged macrophytes.Journal of Phycology,2002,38:862-871
Marine Environmental Science, 2010,29(4):496-499
European Journal of Phycology,2005,40(1):31-37

Introduction With the continuous development of science and technology, Micro-nano technology has become one of the forefront science of technological development.
In the fields of information technology, materials science, bio-medical science, aeronautics, astronautics and other technologies, the operation object is becoming smaller and smaller.
Liu, Research on Key Technologies of Micromanipulation for Life Sciences, Chinese Journal of Scientific Instrument. 27(1) (2006):106-110
Journal of Microscopy. 193(1) (1999)62-83
Journal of Materials Processing Technology. 167(2005)499-507

Such as cutting tools, welding electrodes, coating materials, lamp filament tube cathode [1,2].
Structures and chemistry of tungsten powder from doped and undoped tungsten blue oxide.submitted to Journal of Materials Science(1989) [[5] A.Pebler, G.G.Sweeney, P.M.Castle.
SIMS analysis of doped tungsten. submitted to Metallurgical and Materials Transactions A.(1975) [[6] J.Brett,S.Friedman.
Metallurgical and Materials Transactions A (1972) [7] Y.YuFeng.
Clem: submitted to Journal of Materials Research (2003) [5] P.G.

Materials and Methods 2.1.
Zheng, ‘Experimental investigation of clinching CFRP/aluminum alloy sheet with prepreg sandwich structure’, Journal of Materials Processing Technology, vol. 277, p. 116422, Mar. 2020, doi: 10.1016/j.jmatprotec.2019.116422
Di Ilio, ‘Damage analysis in mechanical clinching: Experimental and numerical study’, Journal of Materials Processing Technology, vol. 230, pp. 109–120, Apr. 2016, doi: 10.1016/j.jmatprotec.2015.11.013
Kato, ‘Joining of high strength steel and aluminium alloy sheets by mechanical clinching with dies for control of metal flow’, Journal of Materials Processing Technology, vol. 212, no. 4, pp. 884–889, Apr. 2012, doi: 10.1016/j.jmatprotec.2011.11.015
American Society for Testing and Materials, pp. 625–630

Materials science & Engineering.
Zhu : The role of stacking faults and twin boundaries in grain refinement of a Cu–Zn alloy processed by high-pressure torsion, Materials Science and Engineering A 527 (2010) 4959–4966
Cetlin: The Finite Element Analysis Of Equal Channel Angular Pressing (ECAP) Considering The Strain Path Dependence Of The Work Hardening Of Metals, Journal of Materials Processing Technology 180 (2006), 30–36
Zhu: Evolution of defect structures during cold rolling of ultrafine-grained Cu and Cu–Zn alloys: Influence of stacking fault energy, Materials Science and Engineering A 474 (2008) 342–347
Sivaraman, Uday Chakkingal: Investigations on workability of commercial purity aluminum processed by equal channel angular pressing, Journal of materials processing technology 202 (2008) 543–548

Materials and Methods Basic Situation of Experimental Field The experiments were carried out on the experimental farm of Anyang Institute of Technology in 2005 and 2006.
Journal of Maize Sciences, 2002,10 (3):90~92 [3] Peng Zebin, Tian Zhiguo.
Journal of Maize Sciences, 2000, 8(2),41~42 [5] Jin Jiyun, He Ping & Liu Hailong.
Journal of Maize Sciences, 2003.11(3):82~84 [9] Liu Kaichang, Hu Changhao & Dong Shuting.
Journal of Maize Sciences [J]. 2002, 10(1): 61~63 [10] Nanjing Agricultural University.

Introduction Additive manufacturing of composite materials is of great interest in current research and development.
Although Markforged printers are often used to manufacture functional prototypes and tools [7], these printers are closed systems, and hence any alteration in the materials and slicer parameters is not possible, limiting in this way their application for material research and development.
Perinpanayagam, The present and future of additive manufacturing in the aerospace sector, Proceedings of the Institution of Mechanical Engineers, Part G: Journal of Aerospace Engineering 2014, 229 (11): 2132–2147
Li, Interface and performance of 3D printed continuous carbon fiber reinforced PLA composites, Composites Part A: Applied Science and Manufacturing 2016, 88: 198–205
Liu, Rapid prototyping of continuous carbon fiber reinforced polylactic acid composites by 3D printing, Journal of Materials Processing Technology 2016, 238: 218–225

Different functional materials can be manufactured by compounding different materials of function and are including magnetic functional composite materials, electromagnetic absorption or permeation functional composite materials, conductive functional composite materials, acoustic damping functional materials, functional materials of friction wearoptical functional composite materials, medical composite materials, etc. in recent times,the conductive and magnetic composite materials are broadly used.
Conductive composite materials are generally used for anti-static, magnetic composite materials, electromagnetic shielding materials, and integrated circuit materials.
Chou, Review Nanocomposites in Context, Journal of Composites Science & Technology, 65 (2005), 491–516.
Saggar, Ceramic matrix nanocomposites, Reference module in material science and materials engineering, DOI: 10.1016/B978-0-12-803581-8.10029-3(2017)
Materials Science and Engineering: A-Structural Materials Properties Microstructure and Processing. (2003) 357(1-2), 392-396