By M. L. Gulrajani
Using dyes and finishes has an important influence at the aesthetic allure and performance of technical textiles. Drawing on key study, Advances within the dyeing and completing of technical textiles information vital advances during this box and their variety of functions. half one studies advances in dyes and colourants, together with various practical dyes, the results they are often used to create and laws concerning their use. half is going directly to examine completing strategies, comparable to using enzymes, nanotechnology and speciality polymers.
Read or Download Advances in the dyeing and finishing of technical textiles PDF
Similar polymers & textiles books
The volumes XI, XII and XIII learn the actual and technical origin for contemporary development in utilized scanning probe thoughts. the 1st quantity got here out in January 2004, the second one to fourth volumes in early 2006 and the 5th to 7th volumes in overdue 2006. the sector is progressing so quickly that there's a desire for a suite of volumes each 12 to 18 months to seize most recent advancements.
Many diversifications of injection moulding were built and one of many speedily increasing fields is multi-material injection moulding. This evaluation appears to be like on the many innovations getting used, from the terminology to case reports. the 3 basic different types of multi-material injection moulding tested are multi-component, multi-shot and over-moulding.
This quantity comprises the lawsuits of the "International Workshop on Optical tools and the Physics of Colloidal Dispersions", held in reminiscence of Prof. Dr. Klaus Schätzel on the finish of September, 1996, in Mainz, Germany. The assembly desirous about particular elements of colloidal technological know-how, particularly novel optical equipment and the physics of colloidal dispersions.
"This reference publication contains the newest advancements within the synthesis, creation, characterization, and alertness of varied kinds of polymeric nanocomposites. It outlines a few of the coaching concepts utilizing kinds of nanoparticles and polymer matrices with emphasis on clay nanoparticles.
- Cellulose Technology Research
- Adsorption by Carbons
- Multidisciplinary know-how for smart-textiles developers
- Finite Element Analysis for Engineers
Additional resources for Advances in the dyeing and finishing of technical textiles
Several structural diversities have been suggested in improving the photo-physical properties of coumarin dyes. These dyes are exemplified by the structures of Fig. 5n , and the aza coumarin Fig. 5o . The aza coumarin (Fig. 5 Coumarin dyes. © Woodhead Publishing Limited, 2013 Types of functional dye for technical textile applications 61 substitution pattern can be exploited to give highly red-shifted coumarins, including brilliant blue dyes. The fused ring heterocyclic coumarin analogue in Fig.
82. 83. 84. 85. 86. 87. 88. 89. 90. 91. 92. 93. Advances in the dyeing and finishing of technical textiles Kim Y, and Sun G, Text Res J 71(4), 318, 2001 Minghua Ma, Yuyu Sun, and Gang Sun, Dyes and Pigments 58, 27–35, 2003 Minghua Ma, and Gang Sun, Dyes and Pigments 63, 39–49, 2004 Gang Sun, and Minghua Ma, Multifunctional Antimicrobial Dyes, WO 2004/083336, 2004 Minghua Ma, and Gang Sun, Dyes and Pigments 66, 33–41, 2005 Junshu Liu, and Gang Sun, Dyes and Pigments 77, 380–386, 2008 Shen Liu, Jiang M, and Defeng Zhao, Dyes and Pigments 75, 255–262, 2007 Patel D R, and Patel K C, Dyes and Pigments 90, 1–10, 2011 Kang S S, Yoon H S, and Chang I M, Science of Natural Stuffs, Seoul National University, 1–59, 1996 Miyaoka A, and Miyaoka R, Japanese Patent 2001131866: Kokai Yokyo Koho 2001 Han M H, J Korean Soc Dyers Finishers 12, 301–307, 2000 Yong K J, Kim I H, and Nam S W, J Korean Soc Dyers Finishers 11, 9–15, 1999 Park Y H, and Nam Y J, J Korean Soc Cloth Text 27, 60–66, 2003 Yamamoto H, Hananda K, Kawasaki K, and Nishijima M, FEBS Lett 417, 196–198, 1997.
Yokoi, T. Mizuno, Key Eng. Mater. 150 (1998) 177.  G. Uzunian, B. Aucar, L. Song, Cosmet. Toiletries (5) (2004) 95.  R. Rüger, N. Oldenburg, E. Schulz, A. Thurn-Schneller, Cosmet. Toiletries (5) (2004) 133.  R. Schmid, N. Mronga, V. Radtke, O. Seeger, Farbe Lack 104(5) (1998) 44.  W. Ostertag, N. Mronga, P. Hauser, Farbe Lack 93 (1987) 973.  W. Ostertag, Nachr. Chem. Tech. Lab. 42 (1994) 849.  W. Ostertag, N. Mronga, Macromol. Chem. Macromol. Symp. 100 (1995) 163. © Woodhead Publishing Limited, 2013 3 UV-absorbent, antimicrobial, water-repellent and other types of functional dye for technical textile applications N.