HIGH PERFORMANCE PBO (poly-p-phenylene benzobisoxazole) FIBERS
Yıl 2015,
Cilt: 22 Sayı: 98, 63 - 83, 06.07.2015
Ece Kalaycı
O. Ozan Avinç
Arzu Yavaş
Öz
PBO (poly-p-phenylenbenzobisoxazole) fibers which step forward among other high performance fibers due to its excellent strength and flame resistance properties have a widespread usage in almost all technical textile areas. PBO can be used in different forms such as fiber, yarn, fabric (knitted or woven), nonwoven or composite. The most striking unfavorable point of these fibers is their sensitivity to light and moisture. Therefore, these fibers should be applied and stored in a sensitive manner. In this review, production, properties and application areas of PBO (poly-p-phenylenbenzobisoxazole) fibers are given in detail
Kaynakça
- Erdoğan Ü.H., (2012), Yüksek Mukavemetli Lifler Ve
- İplikler, TSE Standard Ekonomik ve Teknik Dergi, 51, (602), 57-65.
- Hearle J.W., (2001), High-Performance Fibres, CRC Press, Cambridge.
- Horrocks A.R., (2005), Tekstilde Yeni Ufuklar “ Teknik
- Tekstiller”, İstanbul Ticaret Odası, İstanbul.
- Kitagawa T., Yabuki K., Young R., (2001), An
- Investigation into the Relationship between Processing,
- Structure and Properties for High-Modulus PBO Fibres.
- Part Raman Band Shifts and Broadening in Tension and
- Compression, Polymer, 42, (5), 2101-2112.
- Sikkema D.J., Northolt M.G., Pourdeyhimi B., (2003),
- Assessment of New High-Performance Fibers for Advanced
- Applications, MRS bulletin, 28, (08), 579-584.
- Cunniff P.M., The Performance of Poly (Para-Phenylene
- Benzobizoxazole) (PBO) Fabric for Fragmentation Protective
- Body Armor, Proceedings of the 18th International
- Symposium on Ballistics, 814-821, 1999.
- Bourbigot S., Flambard X., (2002), Heat Resistance and
- Flammability of High Performance Fibres: A Review, Fire
- and Materials, 26, (4-5), 155-168.
- Kuroki T., Tanaka Y., Hokudoh T., Yabuki K., (1997),
- Heat Resistance Properties of Poly (P-Phenylene-2,6
- Benzobisoxazole) Fiber, Journal of Applied Polymer
- Science, 65, (5), 1031-1036.
- Kitagawa T., Murase H., Yabuki K., (1998), Morphological
- Study on Poly-P-Phenylenebenzobisoxazole (PBO) Fiber,
- Journal of Polymer Science Part B: Polymer Physics, 36, (1), 39-48.
- Bunsell A.R., (2009), Handbook of Tensile Properties of Textile and Technical Fibres, Woodhead Publishing Limted, Cambridge.
- Houcks M.M., (2009), Identification of Textile Fibers, Woodhead Publishing Limited, Oxford.
- Scott R.A., (2005), Textiles for Protection, CRC Press, Cambridge.
- Meyers R.A., (1987), Encyclopedia of Physical Science and Technology, Academic Press, Orlando.
- Hongu T., Takigami M., Phillips G., (2005), New Millennium Fibers, Woodhead Publishing Limited, Cambridge.
- Orndoff E., (1995), Development and Evaluation of Polybenzoxazole Fibrous Structures, National Aeronautics and Space Administration.
- Chae H.G., Kumar S., (2006), Rigid-Rod Polymeric Fibers, Journal of Applied Polymer Science, 100, (1), 791-802.
- O'Neil J.M., (2006), Factors Contributing to the Degradation of Poly (P-Phenylene Benzobisoxazole)(PBO) Fibers under Elevated Temperature and Humidity Conditions, master, Texas A&M University,
- Afshari M., Sikkema D.J., Lee K., Bogle M., (2008), High Performance Fibers Based on Rigid and Flexible Polymers, Polymer Reviews, 48, (2), 230-274.
- Hu X., Lesser A.J., Post-Treatment of Poly-P- Phenylenebenzobisoxazole (PBO) Fibers Using Supercritical Carbon Dioxide, 227th American Chemical Society National Meeting, Anaheim, CA, 2004.
- Collier B.J., Tortora, Q.C., (2001), Understanding Textiles,
- PBO Fiber Zylon, (2005), Toyobo Co., LTD. http://www.toyobo-global.com/seihin/kc/pbo/Technical_ Information_2005.pdf, Ağustos 2014
- Elsasser V.H., (2005), Textiles: Concepts and Principles, Fairchild Publications, Inc., New York.
- Ward D.T., (2001), Techtextil: World's Biggest Technical Textiles Event, International Textile Bulletin: Nonwovens, Industrial Textiles, 47, (3), 37-42.
- Jacobs M., (1999), Creep of Gel-Spun Polyethylene Fibres, Ph. D. Thesis, Eindhoven University of Technology, Eindhoven,
- Hearle J.W., Morton W.E., (2008), Physical Properties of Textile Fibres, CRC Press, Cambridge.
- Wilusz E., (2008), Military Textiles, Woodhead Publishing Limited, Cambridge.
- Chapman R., (2010), Applications of Nonwovens in Technical Textiles, Elsevier Science, Burlington.
- Zylon (PBO), http://www.formula1-dictionary.net/zylon. html, Eylül 2014
- Mizuno T., Nakai T., Mihara M., Ito T., (2012), Facile Sulfur-Assisted Carbonylation of Diaminoresorcinol with Carbon Monoxide, Heteroatom Chemistry, 23, (1), 111- 116.
- Wu G., Shyng Y., (2006), Surface Modification of PBO Fiber by Electrostatic Discharge for Composites, Journal of Achievements in Materials and Manufacturing Engineering, 17, (1-2).
- Young R., Day R., Zakikhani M., (1990), The Structure and Deformation Behaviour of Poly (P-Phenylene Benzobisoxazole) Fibres, Journal of materials science, 25, (1), 127-136.
- Benga G., (2005), 10 Th Cluj-Napoca International Symposium of 2 Molecular Medicine, Society and Public Health Celebrating Professor Claude Matasa, Dce, Dsc, Dhc (USA).
- Ran S., Burger C., Fang D., Cookson D., Yabuki K., Teramoto Y., Cunniff P., Viccaro P., Hsiao B., Chu B., (2001), Structure Formation in High-Performance PBO Fibers, NSLS Activity Report, 2-147.
- Journee M.J.G., (2012), Foam of Polymers, US Patent US 20120165423A1.
- Lewin M., (2010), Handbook of Fiber Chemistry, CRC Press, New York. Prentice Hall, New Jersey.
- PBO Cable and Zylon Manufacturing, http://www.applied- fiber.com/pbo-cable-and-zylon-manufacturing, Ağustos 2014
- Krause S.J., Haddock T.B., Vezie D.L., Lenhert P.G., Hwang W.F., Price G.E., Helminiak T.E., O'Brien J.F., Adams W.W., (1988), Morphology and Properties of Rigid- Rod Poly(P-Phenylene Benzobisoxazole) (PBO) and Stiff- Chain Poly(2,5(6)-Benzoxazole) (Abpbo) Fibres, Polymer, 29, (8), 1354-1364.
- Mark J.E., (2007), Physical Properties of Polymers Handbook, Springer, New York.
- http://www.toyobo-global.com/seihin/kc/pbo/,Ağustos 2014
- Pan N., Sun, G., (2011), Functional Textiles for Improved Performance, Protection and Health, Woodhead Publishing Limited, Cambridge.
- Abe Y., Yabuki K., (2012), 5.19 - Lyotropic Polycondensation Including Fibers, In: Möller KM (ed) Polymer Science: A Comprehensive Reference. Elsevier, Amsterdam, 469-495.
- Choe E.W., Kim S.N., (1981), Synthesis, Spinning, and Fiber Mechanical Properties of Poly(P-Phenylenebenzobisoxazole), Macromolecules, 14, (4), 920-924.
- Sperling L.H., (2005), Introduction to Physical Polymer Science, John Wiley & Sons.
- Wolfe J.F., Arnold F., (1981), Rigid-Rod Polymers. 1. Synthesis and Thermal Properties of Para-Aromatic Polymers with 2, 6-Benzobisoxazole Units in the Main Chain, Macromolecules, 14, (4), 909-915.
- Chenevey E.C., Helminiak T.E., (1986), Process for Preparing Shaped Articles of Rigid Rod Heterocyclic Liquid Crystalline Polymers, Google Patents.
- Rosenberg S., Quarderer G.J., Sen A., Nakagawa M., Faley T.L., Serrano M., Teramoto Y., Chau C.C., (1994), Method for Rapid Spinning of a Polybenzazole Fiber, Google Patents.
- Kitagawa T., Yabuki K., (2000), An Investigation into the Relationship between Internal Stress Distribution and a Change of Poly-P-Phenylenebenzobisoxazole (PBO) Fiber Structure, Journal of Polymer Science Part B: Polymer Physics, 38, (22), 2901-2911.
- Kitagawa T., Yabuki K., (2000), A Relationship between the Stress Distribution and the Peak Profile Broadening of Meridional X-Ray Diffraction from Poly-P- Phenylenebenzobisoxazole (PBO) Fiber, Journal of Polymer Science Part B: Polymer Physics, 38, (22), 2937- 2942.
- Özdoğan E., Demir A., Seventekin N., (2006), Nanoteknolojİ Ve Tekstİl Uygulamalari, Tekstil ve Konfeksiyon, 16, (3), 160-168.
- Jeong Y.G., Baik D.H., Jang J.W., Min B.G., Yoon K.H., (2014), Preparation, Structure and Properties of Poly (P- Phenylene Benzobisoxazole) Composite Fibers Reinforced with Graphene, Macromolecular Research, 22, (3), 279-286.
- Barron A.R., Yan Z., Characterization of Graphene by Raman Spectroscopy, http://cnx.org/contents/f06226c5- c2a4-4798-9c75-b016acea73cd@2/characterization-of- graphene-by-raman-spectroscopy, Eylül 2014
- Shishoo R., (2002), Recent Developments in Materials for Use in Protective Clothing, International Journal of Clothing Science and Technology, 14, (3/4), 201-215.
- Jayaraman S., Kiekens P., Grancaric A.M., (2006), Intelligent Textiles for Personal Protection and Safety, IOS press, Zadar.
- Shishoo R., (2008), Textile Advances in the Automotive Industry, Woodhead Publishing Limited, Cambridge.
- Doyle B., (2000), Aramid, Carbon, and PBO Fibers/Yarns in Engineered Fabrics or Membranes, Journal of Industrial Textiles, 30, (1), 42-49.
- Shishoo R., (2005), Textiles in Sport, Woodhead Publishing Limited, Cambridge.
- Bower D.I., (2002), An Introduction to Polymer Physics, Cambridge University Press.
- Future Fibres-Tomorrow's Innovation, http://www. futurefibres. com/ Rigging/Technology/Core-Technology/ Core-Fibres/ PBO.html, Ağustos 2014 60. Products,
- http://www.toyobo-global.com/seihin/kc/pbo/
- meigara. htm, Eylül 2014
- Ruredil X Mesh Gold, (2006), Ruredil X Mesh Gold, Eylül 2014
- Huang Y.K., Frings P.H., Hennes E., (2002), Mechanical Properties of Zylon/Epoxy Composite, Composites Part B:Engineering, 33, (2), 109-115.
- Horrocks A.R., Anand S.C., (2000), Handbook of Technical Textiles, Woodhead Publishing Limited, Cambridge.
- Cunniff P.M., Auerbach M.A., Vetter E., Sikkema D.J., High Performance “M5” Fiber for Ballistics/Structural Composites, 23rd. Army Science Conference, 2002. Citeseer.
- Davies P., Bunsell A.R., Chailleux E., (2010), Tensile Fatigue Behaviour of PBO Fibres, Journal of materials science, 45, (23), 6395-6400.
- Sorensen K., (2003), Momentum Exchange Electrodynamic Reboost (Mxer) Tether Technology Assessment Group Final Report, NASA/MSFC In-Space Propulsion Technology Office, Huntsville, AL, 4.
- Çay A., Süpüren G., Kanat Z.E., Gülümser T., Tarakçıoğlu I., (2007), Balistik Lifler (Bölüm 1), Tekstil & Konfeksiyon, 17, (4), 232-237.
- Zhai H., Euler A., Material Challenges for Lighter-Than- Air Systems in High Altitude Applications, AIAA 5th Aviation, Technology, Integration, and Operations Conference, 2005, Virginia.
- Rice B., Quinzi J., Lund L., Ulreich J., Shoup M., (2014), Measurement of Young’s Modulus and Damping of Fibers at Cryogenic Temperatures, Cryogenics, 63, (0), 43-48.
- Yamashita Y., Kawabata S., Okada S., Tanaka A., (2003), Mechanical Characteristics of PBO Single Fiber, Carbon (T-300, PAN), 234, (6.03), 18.12.
- Lobodzinski S., Laks M., (2009), New Material for Implantable Cardiac Leads, Journal of electrocardiology, 42, (6), 566-573.
- Purkayastha S., Timble N.B., Shah N.A., (2009), Insight to Probable Mechanism of Hydrolytic Degradation of PBO Fiber, Chemical Fibers International, 59, (1), 30-32.
- PBI Vs. PBO Thermal Conductivity Explained, (2013), http://www.youtube.com/watch?v=eO-4NuAfGRg, Eylül 2014
- Albrecht W., Fuchs H., Kittelmann W., (2006), Nonwoven Fabrics: Raw Materials, Manufacture, Applications, Characteristics, Testing Processes, John Wiley & Sons, Weinheim.
- Buckley R.W., (2003), Polymer Enhancement of Technical Textiles, Rapra Technology Limited.
- Hu J., (2008), Fabric Testing, Woodhead Publishing Limited, Cambridge.
- Kalaycı E., Avinç O., Yavaş A., (2014), Polibenzimidazol (PBI) Lifleri, 2014 (Cilt: 21), 96.
- Bourbigot S., Flambard X., Ferreira M., Devaux E., Poutch F., Characterisation and Reaction to Fire of "M5" Rigid Rod Polymer Fibres, 2187-2194, 2003. Journal of Materials Science, Kluwer Academic Publishers.
- Chin J., Forster A., Clerici C., Sung L., Oudina M., Rice K., (2007), Temperature and Humidity Aging of Poly(P- Phenylene-2,6-Benzobisoxazole) Fibers: Chemical and Physical Characterization, Polymer Degradation and Stability, 92, (7), 1234-1246.
- Mittal V., (2011), High Performance Polymers and Engineering Plastics, John Wiley & Sons, New Jersey.
- Yumak N., Pekbey Y., Aslantaş K., (2013), Zırh Tasarımında Kullanılan Kompozit Malzemelerin Deformasyon Karakteristiğinin Araştırılması, Makine Teknolojileri Elektronik Dergisi, 10, (4), 1-21.
- Liu X., Yu W., The Degradation of PBO Fiber by Heat and Light, 2005 International Conference on Advanced Fibers and Polymer Materials, ICAFPM 2005, October 19, 2005 - October 21, 2005, 343-348, 2005, Shanghai, China. "New Century, New Materials and New Life" - Proceedings of 2005 International Conference on Advanced Fibers and Polymer Materials, ICAFPM 2005, China Press.
- Said M., Dingwall B., Gupta A., Seyam A., Mock G., Theyson T., (2006), Investigation of Ultra Violet (Uv) Resistance for High Strength Fibers, Advances in space research, 37, (11), 2052-2058.
- Mäder E., Melcher S., Liu J.-W., Gao S.-L., Bianchi A., Zherlitsyn S., Wosnitza J., (2007), Adhesion of PBO Fiber in Epoxy Composites, Journal of materials science, 42, (19), 8047-8052.
- Hua Y., Ni Q.-Q., Yamanaka A., Natsuki T., Development of High Performance Fiber Reinforced Composite with Negative Thermal Expansion Property, Multi-functional Materials and Structures - International Conference on Multifunctional Materials and Structures, July 28, 2008 - July 31, 2008, 89-92, 2008, Hong Kong, P.R., China. Advanced Materials Research, Trans Tech Publications.
- Larsson F., Svensson L., (2002), Carbon, Polyethylene and PBO Hybrid Fibre Composites for Structural Lightweight Armour, Composites Part A: Applied Science and Manufacturing, 33, (2), 221-231.
- Butler N., (2002), Techtextil North America - Fibres, Transport and Protection, Technical Textiles International, 11, (7), 19-26.
- Wang B., Jin Z., Qiu Z., Liu M., (2001), Experimental Study of Basic Properties of PBO Organic Fiber, Hsi-An Chiao Tung Ta Hsueh/Journal of Xi'an Jiaotong University, 35, (11), 1189-1192.
- Syscom Introduces Amberstrand Fiber, http://www. textileworld.com/Issues/2005/January/Fiber_World/Syscom _Introduces_AmberStrand_Fiber, Ağustos 2014
- Çerkez İ., Ulcay Y., Kolloidal Silika Dispersiyonunun Polietilen Dokusuz Yüzeyin Enerji Absorbsiyonuna Olan Etkisi.
- Chae H.G., Kumar S., Next Generation Ballistic Materials, 50th International SAMPE Symposium and Exhibition, May 1, 2005 - May 5, 2005, 2623-2633, 2005, Long Beach, CA, United states. International SAMPE Symposium and Exhibition (Proceedings), Soc. for the Advancement of Material and Process Engineering.
- Işık H., Değirmenci E., Evci C., (2013), Örgülü Kumaşların Balistik Darbe Enerji Sönümleme Mekanizmalarının İncelenmesi, Savunma Bilimleri Dergisi, 12, (2), 145-162.
- Frame B.J., Hansen J.G.R., Fire Resistant Composite Materials for Energy Absorption Applications, 47th International SAMPE Symposium and Exhibition, May 12, 2002 - May 16, 2002, 542-555, 2002, Long Beach, CA, United states. International SAMPE Symposium and Exhibition (Proceedings), Soc. for the Advancement of Material and Process Engineering.
- Cheeseman B.A., Bogetti T.A., (2003), Ballistic Impact into Fabric and Compliant Composite Laminates, Composite Structures, 61, (1–2), 161-173.
- Behera B., Dash B., (2013), An Experimental Investigation into Structure and Properties of 3d-Woven Aramid and PBO Fabrics, The Journal of The Textile Institute, 104, (12), 1337-1344.
- Shin H.-S., Erlich D.C., Shockey D.A., (2003), Test for Measuring Cut Resistance of Yarns, Journal of Materials Science, 38, (17), 3603-3610.
- The Next Generation Super Fiber for Firefighter Ppe, http://www.toyobo-global.com/seihin/kc/pbo2/, Ağustos 2014
- Oğlakçıoğlu N., Ertekin G., Marmaralı A., (2014), Yüksek Performanslı İpliklerden Üretilen Örme Kumaşların Mekanik Etkilere Karşı Dayanımlarının İncelenmesi, 2014 (Cilt: 21), 95.
- Zylon, http://en.wikipedia.org/wiki/Zylon, Ağustos 2014
- Second Chance Body Armor to Replace Bulletproof Vests Containing Zylon, http://news.softpedia.com/news/Second- Chance-Body-Armor-to-Replace-Bulletproof-Vests- Containing-Zylon-3592.shtml, Ağustos 2014
- Cunniff P.M., Auerbach M.A., (2003), High Performance" M5, Fiber For Ballisic/Structural Composites, Entire Article, Published Prior to Sep, 17.
- Shockey D.A., Erlich D.C., Simons J.W., Lightweight Fragment Barriers for Commercial Aircraft, Proceedings of the 18th International Symposium on Ballistics, San Antonio, Texas, 1999.
- Simons J., Erlich D., Shockey D., (2001), Finite Element Design Model for Ballistic Response of Woven Fabrics, SRI International, 9.
- Helmer G., (2002), Military News, http://www. combatsim. com/cnews/arch1/cnews-arc361.htm, Eylül 2014
- (Auto123.com) A.c., (2013), F1: Max Chilton Saved by the Zylon Visor in Germany, http://www.auto123.com/en/racing-news/f1-max-chilton- saved-by-the-zylon-visor-in-germany?artid=157666, Ağustos 2014
- For Those of You with a Taste for the Finer Things in Life, There Is Kushitani, (2000), http://www.motorcycle.com/ products/kushitani-gpr-ii-2968.html, Ağustos 2014
- Kushitani Zylon Jeans, (2006), http://www.advrider.com/ forums/showthread.php?t=75066&page=7, Eylül 2014
- The World’s Strongest and Lightest Outer Shell, (2014), http://www.tencate.com/emea/Images/EN_MI918028- 24336.pdf, Eylül 2014
- Polybenzimidazole Fibers, http://en.wikipedia.org/wiki/ Polybenzimidazole_fiber, Ağustos 2014
- La Corda-High Performance Fiber Strings, http://www. powercordz.com/lacorda-1/lacorda-Zylon-18-half-set, Ağustos 2014
- Babolat: Pure Power Zylon 360, http://www.wabango. com/OnlineCatalog/displayitem?currentComponentID=46 &offset=0&type=Tennis&mfg=Babolat, Ağustos 2014
- Babolat Pure Control Zylon 360 Tennis Racquet Review, http://www.tennis-warehouse.com/REVIEWS/BPCZ/ BPCZReview.html, Ağustos 2014
- Adidas Adizero Pro Badminton Racket, http://www. sweatband.com/adidas-adizero-pro-badminton-racket.html, Ağustos 2014
- Zl/PBO Fiber Sanwei Yew Wood Gold Dragon L1 Table Tennis Blade / Ping Pong Blade , 5 Plywood + 2 Zl Fiber Off, SANWEI-Yew-Wood-Gold-Dragon-L1-Table-Tennis- Blade-ping-pong-blade/958537029.html, Ağustos 2014
- Kinetic Supreme, http://www.gotabletennis.com/Andro_Kinetic_Supreme_Zy lon_Kiso_Hinoki_OFF_p/10225100.htm, Ağustos 2014
- , http://www.extremecarving.com/forum, Eylül 2014
- Weiss D., (2002), Golf Equipment, http://www.worldgolf. com/products/zevo-driver.htm, Eylül 2014
- Sportex Zylon 3.0lb 12' 0" 2 Piece Carp Rod, http://www.ebay.com/itm/SPORTEX-ZYLON-3-0lb-12-0- 2-piece-Carp-Rod-/300555225650, Eylül 2014
- Kyudo, http://sagajet.com/leisure/cultural-pursuits/, Eylül 2014
- Mecit D., Ilgaz S., Duran D., Başal D., Gülümser T., Tarakçıoğlu I., (2007), Teknik Tekstiller Ve Kullanım Alanları (Bölüm 2), Tekstil ve Konfeksiyon, 17, (3), 154- 161.
- Canbolat M.F., (2011), Parachute Industry & Its Dynamics, Tekstil Teknolojileri Elektronik Dergisi, 5, (1), 72-83.
- , (2008), http://clearstreamwood.com/WordPress/projects/ 200801-azure-njord-nh/azure-njord-laminating-the-inside- with-zylon-and-s-glass, Ağustos 2014
- Hall J.L., Pauken M.T., Kerzhanovich V.V., Walsh G.J., Fairbrother D., Shreves C., Lachenmeier T., Flight Test Results for Aerially Deployed Mars Balloons, AIAA Balloon Systems Conference, 2007, May 21, 2007 - May 24, 2007, 262-274, 2007, Williamsburg, VA, United states. AIAA Balloon Systems Conference, 2007, American Institute of Aeronautics and Astronautics Inc.
- Seely L., Zimmerman M., McLaughlin J., (2004), The Use of Zylon Fibers in Uldb Tendons, Advances in Space Research, 33, (10), 1736-1740.
- Kerzhanovich V.V., Cutts J.A., Cooper H.W., Hall J.L., McDonald B.A., Pauken M.T., White C.V., Yavrouian A.H., Castano A., Cathey Jr H.M., Fairbrother D.A., Smith I.S., Shreves C.M., Lachenmeier T., Rainwater E., Smith M., (2004), Breakthrough in Mars Balloon Technology, Advances in Space Research, 33, (10), 1836-1841.
- Bonkers & Knockoffs, (2004), http://www.ybw.com/ forums/showthread.php?38026-Motor-Sailer-Macgregor- 26X/page7, Eylül 2014
- Yacth Fitters, http://yachtfitters.com/products/hampidjan/, Eylül 2014
- http://www.ara.com/Projects/SVO/model.htm,
- Ruredil X Mesh Gold: PBO ( Poliparafenilenbenzobisoxazolo) Mesh in a Stabilised Inorganic Matrix for Flexural and Shear Strength Reinforcement of Concrete, (2012), http://english. ruredil.it/SchedeProdottoENG/RuredilXMeshGOLD_ing_1 .pdf, Ağustos 2014
- Fallis G.J., (2009), International Concrete Abstracts Portal the International Concrete Abstracts Portal Is an Aci Led Collaboration with Leading Technical Organizations from within the International Concrete Industry and Offers the Most Comprehensive Collection of Published Concrete Abstracts. Title: Innovation for Renovation, Concrete international, 31, (04), 62-64.
- Ombres L., (2012), Debonding Analysis of Reinforced Concrete Beams Strengthened with Fibre Reinforced Cementitious Mortar, Engineering Fracture Mechanics, 81, (0), 94-109.
- Paliga C., Real M., Campos Filho A., (2013), Numerical Analysis of Reinforced Concrete Beams Strengthened with High Strength Cement-Based Composite Material, Revista IBRACON de Estruturas e Materiais, 6, (2), 211-226.
- Textile Reinforced Mortar Structural Strengthening Systems at Elevated Temperature, http://trmstrengtheningsystems. weebly.com/frcm.html, Ağustos 2014
- Ultra High Mechanical Performance Polyparaphenylene Benzobisoxazole (PBO) Fibre Mesh, with a Stabilised Inorganic Matrix, for Structural Reinforcement of Concrete, (2006), http://www.bob-fr.com/Doko/8cf032a0- ce97-4e8a-87f4-885dae215984.pdf, Ağustos 2014
- PBO Reinforcing Mesh, http://www.archiproducts.com/en/ products/71449/pbo-reinforcing-mesh-ruregold-ruredil. html, Ağustos 2014
- Swenson C.A., Marshall W.S., Gavrilin A.V., Han K., Schillig J., Sims Jr J.R., Schneider-Muntau H.J., (2004), Progress of the Insert Coil for the Us-Nhmfl 100 T Multi-Shot Pulse Magnet, Physica B: Condensed Matter, 346–347, (0), 561-565.
- Rosseel K., Herlach F., Boon W., Bruynseraede Y., (2001), Zylon-Reinforced High Magnetic Field Coils for the K.U. Leuven Pulsed Field Laboratory, Physica B: Condensed Matter, 294-295, 657-660.
- Zherlitsyn S., Bianchi A.D., Herrmannsdoerfer T., Pobell F., Skourski Y., Sytcheva A., Zvyagin S., Wosnitza J., (2006), Coil Design for Non-Destructive Pulsed-Field Magnets Targeting 100 T, Applied Superconductivity, IEEE Transactions on, 16, (2), 1660-1663.
- Herlach F., Peng T., Vanacken J., Elements of Pulsed Magnet Design, Journal of Physics: Conference Series, 599, 2006. vol 1, IOP Publishing. 141. Biwako-Roll®,
- http://www.toho-yogyo.co.jp/biwako_ e.html, Eylül 2014
- PBO Rollers, http://www.northerninnovations.net/about. html, Eylül 2014
- Matsuo T., (2001), Overview and Trend of Technical Textile Technologies in Japan, International Textile Bulletin: Nonwovens, Industrial Textiles, 47, (1), 46-48.
- Tamargo-Martínez K., Villar-Rodil S., Paredes J.I., Martínez-Alonso A., Tascón J.M., Montes-Morán M.A., (2003), Surface Characterization of PBO Fibers, Macromolecules, 36, (23), 8662-8672.
- Chen L., Hu Z., Liu L., Huang Y., (2013), A Facile Method to Prepare Multifunctional PBO Fibers: Simultaneously Enhanced Interfacial Properties and Uv Resistance, RSC Advances, 3, (46), 24664-24670.
- Liu D., Hu J., Zhao Y., Zhou X., Ning P., Wang Y., (2006), Surface Modification of PBO Fibers by Argon Plasma and Argon Plasma Combined with Coupling Agents, Journal of Applied Polymer Science, 102, (2), 1428-1435.
- Zhang C.H., Huang Y.D., Zhao Y.D., (2005), Surface Analysis of ī-Ray Irradiation Modified PBO Fiber, Materials Chemistry and Physics, 92, (1), 245-250.
- Wu Z., Iwashita K., Hayashi K., Higuchi T., Murakami S., Koseki Y., (2003), Strengthening Prestressed-Concrete Girders with Externally Prestressed PBO Fiber Reinforced Polymer Sheets, Journal of reinforced plastics and composites, 22, (14), 1269-1286.
- Zhang C.H., Huang Y.D., Yuan W.J., Zhang J.N., (2011), Uv Aging Resistance Properties of PBO Fiber Coated with Nano̺Zno Hybrid Sizing, Journal of applied polymer science, 120, (4), 2468-2476.
- Song B., Fu Q., Liu X.-Y., Zhuang Q.-X., Han Z.-W., (2011), Study on the Photolysis and Stabilization of PBO Fiber, Guti Huojian Jishu/Journal of Solid Rocket Technology, 34, (3), 378-383+392.
- 1 Park J.-M., Kim D.-S., Kim S.-R., (2003), Improvement of Interfacial Adhesion and Nondestructive Damage Evaluation for Plasma-Treated PBO and Kevlar Fibers/Epoxy Composites Using Micromechanical Techniques and Surface Wettability, Journal of Colloid and Interface Science, 264, (2), 431-445.
- 1 Tamargo-Martínez K., Martínez-Alonso A., Montes-Morán M.A., Tascón J.M.D., (2011), Effect of Oxygen Plasma Treatment of Ppta and PBO Fibers on the Interfacial Properties of Single Fiber/Epoxy Composites Studied by Raman Spectroscopy, Composites Science and Technology, 71, (6), 784-790.
- 1 Wu G.M., Shyng Y.T., Kung S.F., Wu C.F., (2009), Oxygen Plasma Processing and Improved Interfacial Adhesion in PBO Fiber Reinforced Epoxy Composites, Vacuum, 83, Supplement 1, (0), S271-S274.
- 1 Wu G.M., (2004), Oxygen Plasma Treatment of High Performance Fibers for Composites, Materials Chemistry and Physics, 85, (1), 81-87.
Yüksek Performanslı PBO (poli-p-fenilenbenzobisoksazol) Lifleri
Yıl 2015,
Cilt: 22 Sayı: 98, 63 - 83, 06.07.2015
Ece Kalaycı
O. Ozan Avinç
Arzu Yavaş
Öz
Yüksek performanslı lifler arasında üstün mukavemeti ve yanma dayanımı ile öne çıkan PBO (poli-pfenilenbenzobisoksazol) lifleri teknik tekstillerin neredeyse tüm alanlarında geniş bir kullanıma sahiptir. Lif,
iplik, kumaş (örme ya da dokuma), dokusuz yüzey ya da kompozit olarak farklı yapı formlarında kullanılabilen
bu liflerin uygulamalarında dikkat edilmesi gereken en önemli nokta ışık ve neme karşı hassasiyetleridir. Bu
sebeple hem saklama hem de uygulama koşullarına büyük özen gösterilmesi gerekmektedir. Bu çalışmada,
PBO (poli-p-fenilenbenzobisoksazol) liflerinin üretimine, özelliklerine ve kullanım alanlarına yer verilmiştir.
Kaynakça
- Erdoğan Ü.H., (2012), Yüksek Mukavemetli Lifler Ve
- İplikler, TSE Standard Ekonomik ve Teknik Dergi, 51, (602), 57-65.
- Hearle J.W., (2001), High-Performance Fibres, CRC Press, Cambridge.
- Horrocks A.R., (2005), Tekstilde Yeni Ufuklar “ Teknik
- Tekstiller”, İstanbul Ticaret Odası, İstanbul.
- Kitagawa T., Yabuki K., Young R., (2001), An
- Investigation into the Relationship between Processing,
- Structure and Properties for High-Modulus PBO Fibres.
- Part Raman Band Shifts and Broadening in Tension and
- Compression, Polymer, 42, (5), 2101-2112.
- Sikkema D.J., Northolt M.G., Pourdeyhimi B., (2003),
- Assessment of New High-Performance Fibers for Advanced
- Applications, MRS bulletin, 28, (08), 579-584.
- Cunniff P.M., The Performance of Poly (Para-Phenylene
- Benzobizoxazole) (PBO) Fabric for Fragmentation Protective
- Body Armor, Proceedings of the 18th International
- Symposium on Ballistics, 814-821, 1999.
- Bourbigot S., Flambard X., (2002), Heat Resistance and
- Flammability of High Performance Fibres: A Review, Fire
- and Materials, 26, (4-5), 155-168.
- Kuroki T., Tanaka Y., Hokudoh T., Yabuki K., (1997),
- Heat Resistance Properties of Poly (P-Phenylene-2,6
- Benzobisoxazole) Fiber, Journal of Applied Polymer
- Science, 65, (5), 1031-1036.
- Kitagawa T., Murase H., Yabuki K., (1998), Morphological
- Study on Poly-P-Phenylenebenzobisoxazole (PBO) Fiber,
- Journal of Polymer Science Part B: Polymer Physics, 36, (1), 39-48.
- Bunsell A.R., (2009), Handbook of Tensile Properties of Textile and Technical Fibres, Woodhead Publishing Limted, Cambridge.
- Houcks M.M., (2009), Identification of Textile Fibers, Woodhead Publishing Limited, Oxford.
- Scott R.A., (2005), Textiles for Protection, CRC Press, Cambridge.
- Meyers R.A., (1987), Encyclopedia of Physical Science and Technology, Academic Press, Orlando.
- Hongu T., Takigami M., Phillips G., (2005), New Millennium Fibers, Woodhead Publishing Limited, Cambridge.
- Orndoff E., (1995), Development and Evaluation of Polybenzoxazole Fibrous Structures, National Aeronautics and Space Administration.
- Chae H.G., Kumar S., (2006), Rigid-Rod Polymeric Fibers, Journal of Applied Polymer Science, 100, (1), 791-802.
- O'Neil J.M., (2006), Factors Contributing to the Degradation of Poly (P-Phenylene Benzobisoxazole)(PBO) Fibers under Elevated Temperature and Humidity Conditions, master, Texas A&M University,
- Afshari M., Sikkema D.J., Lee K., Bogle M., (2008), High Performance Fibers Based on Rigid and Flexible Polymers, Polymer Reviews, 48, (2), 230-274.
- Hu X., Lesser A.J., Post-Treatment of Poly-P- Phenylenebenzobisoxazole (PBO) Fibers Using Supercritical Carbon Dioxide, 227th American Chemical Society National Meeting, Anaheim, CA, 2004.
- Collier B.J., Tortora, Q.C., (2001), Understanding Textiles,
- PBO Fiber Zylon, (2005), Toyobo Co., LTD. http://www.toyobo-global.com/seihin/kc/pbo/Technical_ Information_2005.pdf, Ağustos 2014
- Elsasser V.H., (2005), Textiles: Concepts and Principles, Fairchild Publications, Inc., New York.
- Ward D.T., (2001), Techtextil: World's Biggest Technical Textiles Event, International Textile Bulletin: Nonwovens, Industrial Textiles, 47, (3), 37-42.
- Jacobs M., (1999), Creep of Gel-Spun Polyethylene Fibres, Ph. D. Thesis, Eindhoven University of Technology, Eindhoven,
- Hearle J.W., Morton W.E., (2008), Physical Properties of Textile Fibres, CRC Press, Cambridge.
- Wilusz E., (2008), Military Textiles, Woodhead Publishing Limited, Cambridge.
- Chapman R., (2010), Applications of Nonwovens in Technical Textiles, Elsevier Science, Burlington.
- Zylon (PBO), http://www.formula1-dictionary.net/zylon. html, Eylül 2014
- Mizuno T., Nakai T., Mihara M., Ito T., (2012), Facile Sulfur-Assisted Carbonylation of Diaminoresorcinol with Carbon Monoxide, Heteroatom Chemistry, 23, (1), 111- 116.
- Wu G., Shyng Y., (2006), Surface Modification of PBO Fiber by Electrostatic Discharge for Composites, Journal of Achievements in Materials and Manufacturing Engineering, 17, (1-2).
- Young R., Day R., Zakikhani M., (1990), The Structure and Deformation Behaviour of Poly (P-Phenylene Benzobisoxazole) Fibres, Journal of materials science, 25, (1), 127-136.
- Benga G., (2005), 10 Th Cluj-Napoca International Symposium of 2 Molecular Medicine, Society and Public Health Celebrating Professor Claude Matasa, Dce, Dsc, Dhc (USA).
- Ran S., Burger C., Fang D., Cookson D., Yabuki K., Teramoto Y., Cunniff P., Viccaro P., Hsiao B., Chu B., (2001), Structure Formation in High-Performance PBO Fibers, NSLS Activity Report, 2-147.
- Journee M.J.G., (2012), Foam of Polymers, US Patent US 20120165423A1.
- Lewin M., (2010), Handbook of Fiber Chemistry, CRC Press, New York. Prentice Hall, New Jersey.
- PBO Cable and Zylon Manufacturing, http://www.applied- fiber.com/pbo-cable-and-zylon-manufacturing, Ağustos 2014
- Krause S.J., Haddock T.B., Vezie D.L., Lenhert P.G., Hwang W.F., Price G.E., Helminiak T.E., O'Brien J.F., Adams W.W., (1988), Morphology and Properties of Rigid- Rod Poly(P-Phenylene Benzobisoxazole) (PBO) and Stiff- Chain Poly(2,5(6)-Benzoxazole) (Abpbo) Fibres, Polymer, 29, (8), 1354-1364.
- Mark J.E., (2007), Physical Properties of Polymers Handbook, Springer, New York.
- http://www.toyobo-global.com/seihin/kc/pbo/,Ağustos 2014
- Pan N., Sun, G., (2011), Functional Textiles for Improved Performance, Protection and Health, Woodhead Publishing Limited, Cambridge.
- Abe Y., Yabuki K., (2012), 5.19 - Lyotropic Polycondensation Including Fibers, In: Möller KM (ed) Polymer Science: A Comprehensive Reference. Elsevier, Amsterdam, 469-495.
- Choe E.W., Kim S.N., (1981), Synthesis, Spinning, and Fiber Mechanical Properties of Poly(P-Phenylenebenzobisoxazole), Macromolecules, 14, (4), 920-924.
- Sperling L.H., (2005), Introduction to Physical Polymer Science, John Wiley & Sons.
- Wolfe J.F., Arnold F., (1981), Rigid-Rod Polymers. 1. Synthesis and Thermal Properties of Para-Aromatic Polymers with 2, 6-Benzobisoxazole Units in the Main Chain, Macromolecules, 14, (4), 909-915.
- Chenevey E.C., Helminiak T.E., (1986), Process for Preparing Shaped Articles of Rigid Rod Heterocyclic Liquid Crystalline Polymers, Google Patents.
- Rosenberg S., Quarderer G.J., Sen A., Nakagawa M., Faley T.L., Serrano M., Teramoto Y., Chau C.C., (1994), Method for Rapid Spinning of a Polybenzazole Fiber, Google Patents.
- Kitagawa T., Yabuki K., (2000), An Investigation into the Relationship between Internal Stress Distribution and a Change of Poly-P-Phenylenebenzobisoxazole (PBO) Fiber Structure, Journal of Polymer Science Part B: Polymer Physics, 38, (22), 2901-2911.
- Kitagawa T., Yabuki K., (2000), A Relationship between the Stress Distribution and the Peak Profile Broadening of Meridional X-Ray Diffraction from Poly-P- Phenylenebenzobisoxazole (PBO) Fiber, Journal of Polymer Science Part B: Polymer Physics, 38, (22), 2937- 2942.
- Özdoğan E., Demir A., Seventekin N., (2006), Nanoteknolojİ Ve Tekstİl Uygulamalari, Tekstil ve Konfeksiyon, 16, (3), 160-168.
- Jeong Y.G., Baik D.H., Jang J.W., Min B.G., Yoon K.H., (2014), Preparation, Structure and Properties of Poly (P- Phenylene Benzobisoxazole) Composite Fibers Reinforced with Graphene, Macromolecular Research, 22, (3), 279-286.
- Barron A.R., Yan Z., Characterization of Graphene by Raman Spectroscopy, http://cnx.org/contents/f06226c5- c2a4-4798-9c75-b016acea73cd@2/characterization-of- graphene-by-raman-spectroscopy, Eylül 2014
- Shishoo R., (2002), Recent Developments in Materials for Use in Protective Clothing, International Journal of Clothing Science and Technology, 14, (3/4), 201-215.
- Jayaraman S., Kiekens P., Grancaric A.M., (2006), Intelligent Textiles for Personal Protection and Safety, IOS press, Zadar.
- Shishoo R., (2008), Textile Advances in the Automotive Industry, Woodhead Publishing Limited, Cambridge.
- Doyle B., (2000), Aramid, Carbon, and PBO Fibers/Yarns in Engineered Fabrics or Membranes, Journal of Industrial Textiles, 30, (1), 42-49.
- Shishoo R., (2005), Textiles in Sport, Woodhead Publishing Limited, Cambridge.
- Bower D.I., (2002), An Introduction to Polymer Physics, Cambridge University Press.
- Future Fibres-Tomorrow's Innovation, http://www. futurefibres. com/ Rigging/Technology/Core-Technology/ Core-Fibres/ PBO.html, Ağustos 2014 60. Products,
- http://www.toyobo-global.com/seihin/kc/pbo/
- meigara. htm, Eylül 2014
- Ruredil X Mesh Gold, (2006), Ruredil X Mesh Gold, Eylül 2014
- Huang Y.K., Frings P.H., Hennes E., (2002), Mechanical Properties of Zylon/Epoxy Composite, Composites Part B:Engineering, 33, (2), 109-115.
- Horrocks A.R., Anand S.C., (2000), Handbook of Technical Textiles, Woodhead Publishing Limited, Cambridge.
- Cunniff P.M., Auerbach M.A., Vetter E., Sikkema D.J., High Performance “M5” Fiber for Ballistics/Structural Composites, 23rd. Army Science Conference, 2002. Citeseer.
- Davies P., Bunsell A.R., Chailleux E., (2010), Tensile Fatigue Behaviour of PBO Fibres, Journal of materials science, 45, (23), 6395-6400.
- Sorensen K., (2003), Momentum Exchange Electrodynamic Reboost (Mxer) Tether Technology Assessment Group Final Report, NASA/MSFC In-Space Propulsion Technology Office, Huntsville, AL, 4.
- Çay A., Süpüren G., Kanat Z.E., Gülümser T., Tarakçıoğlu I., (2007), Balistik Lifler (Bölüm 1), Tekstil & Konfeksiyon, 17, (4), 232-237.
- Zhai H., Euler A., Material Challenges for Lighter-Than- Air Systems in High Altitude Applications, AIAA 5th Aviation, Technology, Integration, and Operations Conference, 2005, Virginia.
- Rice B., Quinzi J., Lund L., Ulreich J., Shoup M., (2014), Measurement of Young’s Modulus and Damping of Fibers at Cryogenic Temperatures, Cryogenics, 63, (0), 43-48.
- Yamashita Y., Kawabata S., Okada S., Tanaka A., (2003), Mechanical Characteristics of PBO Single Fiber, Carbon (T-300, PAN), 234, (6.03), 18.12.
- Lobodzinski S., Laks M., (2009), New Material for Implantable Cardiac Leads, Journal of electrocardiology, 42, (6), 566-573.
- Purkayastha S., Timble N.B., Shah N.A., (2009), Insight to Probable Mechanism of Hydrolytic Degradation of PBO Fiber, Chemical Fibers International, 59, (1), 30-32.
- PBI Vs. PBO Thermal Conductivity Explained, (2013), http://www.youtube.com/watch?v=eO-4NuAfGRg, Eylül 2014
- Albrecht W., Fuchs H., Kittelmann W., (2006), Nonwoven Fabrics: Raw Materials, Manufacture, Applications, Characteristics, Testing Processes, John Wiley & Sons, Weinheim.
- Buckley R.W., (2003), Polymer Enhancement of Technical Textiles, Rapra Technology Limited.
- Hu J., (2008), Fabric Testing, Woodhead Publishing Limited, Cambridge.
- Kalaycı E., Avinç O., Yavaş A., (2014), Polibenzimidazol (PBI) Lifleri, 2014 (Cilt: 21), 96.
- Bourbigot S., Flambard X., Ferreira M., Devaux E., Poutch F., Characterisation and Reaction to Fire of "M5" Rigid Rod Polymer Fibres, 2187-2194, 2003. Journal of Materials Science, Kluwer Academic Publishers.
- Chin J., Forster A., Clerici C., Sung L., Oudina M., Rice K., (2007), Temperature and Humidity Aging of Poly(P- Phenylene-2,6-Benzobisoxazole) Fibers: Chemical and Physical Characterization, Polymer Degradation and Stability, 92, (7), 1234-1246.
- Mittal V., (2011), High Performance Polymers and Engineering Plastics, John Wiley & Sons, New Jersey.
- Yumak N., Pekbey Y., Aslantaş K., (2013), Zırh Tasarımında Kullanılan Kompozit Malzemelerin Deformasyon Karakteristiğinin Araştırılması, Makine Teknolojileri Elektronik Dergisi, 10, (4), 1-21.
- Liu X., Yu W., The Degradation of PBO Fiber by Heat and Light, 2005 International Conference on Advanced Fibers and Polymer Materials, ICAFPM 2005, October 19, 2005 - October 21, 2005, 343-348, 2005, Shanghai, China. "New Century, New Materials and New Life" - Proceedings of 2005 International Conference on Advanced Fibers and Polymer Materials, ICAFPM 2005, China Press.
- Said M., Dingwall B., Gupta A., Seyam A., Mock G., Theyson T., (2006), Investigation of Ultra Violet (Uv) Resistance for High Strength Fibers, Advances in space research, 37, (11), 2052-2058.
- Mäder E., Melcher S., Liu J.-W., Gao S.-L., Bianchi A., Zherlitsyn S., Wosnitza J., (2007), Adhesion of PBO Fiber in Epoxy Composites, Journal of materials science, 42, (19), 8047-8052.
- Hua Y., Ni Q.-Q., Yamanaka A., Natsuki T., Development of High Performance Fiber Reinforced Composite with Negative Thermal Expansion Property, Multi-functional Materials and Structures - International Conference on Multifunctional Materials and Structures, July 28, 2008 - July 31, 2008, 89-92, 2008, Hong Kong, P.R., China. Advanced Materials Research, Trans Tech Publications.
- Larsson F., Svensson L., (2002), Carbon, Polyethylene and PBO Hybrid Fibre Composites for Structural Lightweight Armour, Composites Part A: Applied Science and Manufacturing, 33, (2), 221-231.
- Butler N., (2002), Techtextil North America - Fibres, Transport and Protection, Technical Textiles International, 11, (7), 19-26.
- Wang B., Jin Z., Qiu Z., Liu M., (2001), Experimental Study of Basic Properties of PBO Organic Fiber, Hsi-An Chiao Tung Ta Hsueh/Journal of Xi'an Jiaotong University, 35, (11), 1189-1192.
- Syscom Introduces Amberstrand Fiber, http://www. textileworld.com/Issues/2005/January/Fiber_World/Syscom _Introduces_AmberStrand_Fiber, Ağustos 2014
- Çerkez İ., Ulcay Y., Kolloidal Silika Dispersiyonunun Polietilen Dokusuz Yüzeyin Enerji Absorbsiyonuna Olan Etkisi.
- Chae H.G., Kumar S., Next Generation Ballistic Materials, 50th International SAMPE Symposium and Exhibition, May 1, 2005 - May 5, 2005, 2623-2633, 2005, Long Beach, CA, United states. International SAMPE Symposium and Exhibition (Proceedings), Soc. for the Advancement of Material and Process Engineering.
- Işık H., Değirmenci E., Evci C., (2013), Örgülü Kumaşların Balistik Darbe Enerji Sönümleme Mekanizmalarının İncelenmesi, Savunma Bilimleri Dergisi, 12, (2), 145-162.
- Frame B.J., Hansen J.G.R., Fire Resistant Composite Materials for Energy Absorption Applications, 47th International SAMPE Symposium and Exhibition, May 12, 2002 - May 16, 2002, 542-555, 2002, Long Beach, CA, United states. International SAMPE Symposium and Exhibition (Proceedings), Soc. for the Advancement of Material and Process Engineering.
- Cheeseman B.A., Bogetti T.A., (2003), Ballistic Impact into Fabric and Compliant Composite Laminates, Composite Structures, 61, (1–2), 161-173.
- Behera B., Dash B., (2013), An Experimental Investigation into Structure and Properties of 3d-Woven Aramid and PBO Fabrics, The Journal of The Textile Institute, 104, (12), 1337-1344.
- Shin H.-S., Erlich D.C., Shockey D.A., (2003), Test for Measuring Cut Resistance of Yarns, Journal of Materials Science, 38, (17), 3603-3610.
- The Next Generation Super Fiber for Firefighter Ppe, http://www.toyobo-global.com/seihin/kc/pbo2/, Ağustos 2014
- Oğlakçıoğlu N., Ertekin G., Marmaralı A., (2014), Yüksek Performanslı İpliklerden Üretilen Örme Kumaşların Mekanik Etkilere Karşı Dayanımlarının İncelenmesi, 2014 (Cilt: 21), 95.
- Zylon, http://en.wikipedia.org/wiki/Zylon, Ağustos 2014
- Second Chance Body Armor to Replace Bulletproof Vests Containing Zylon, http://news.softpedia.com/news/Second- Chance-Body-Armor-to-Replace-Bulletproof-Vests- Containing-Zylon-3592.shtml, Ağustos 2014
- Cunniff P.M., Auerbach M.A., (2003), High Performance" M5, Fiber For Ballisic/Structural Composites, Entire Article, Published Prior to Sep, 17.
- Shockey D.A., Erlich D.C., Simons J.W., Lightweight Fragment Barriers for Commercial Aircraft, Proceedings of the 18th International Symposium on Ballistics, San Antonio, Texas, 1999.
- Simons J., Erlich D., Shockey D., (2001), Finite Element Design Model for Ballistic Response of Woven Fabrics, SRI International, 9.
- Helmer G., (2002), Military News, http://www. combatsim. com/cnews/arch1/cnews-arc361.htm, Eylül 2014
- (Auto123.com) A.c., (2013), F1: Max Chilton Saved by the Zylon Visor in Germany, http://www.auto123.com/en/racing-news/f1-max-chilton- saved-by-the-zylon-visor-in-germany?artid=157666, Ağustos 2014
- For Those of You with a Taste for the Finer Things in Life, There Is Kushitani, (2000), http://www.motorcycle.com/ products/kushitani-gpr-ii-2968.html, Ağustos 2014
- Kushitani Zylon Jeans, (2006), http://www.advrider.com/ forums/showthread.php?t=75066&page=7, Eylül 2014
- The World’s Strongest and Lightest Outer Shell, (2014), http://www.tencate.com/emea/Images/EN_MI918028- 24336.pdf, Eylül 2014
- Polybenzimidazole Fibers, http://en.wikipedia.org/wiki/ Polybenzimidazole_fiber, Ağustos 2014
- La Corda-High Performance Fiber Strings, http://www. powercordz.com/lacorda-1/lacorda-Zylon-18-half-set, Ağustos 2014
- Babolat: Pure Power Zylon 360, http://www.wabango. com/OnlineCatalog/displayitem?currentComponentID=46 &offset=0&type=Tennis&mfg=Babolat, Ağustos 2014
- Babolat Pure Control Zylon 360 Tennis Racquet Review, http://www.tennis-warehouse.com/REVIEWS/BPCZ/ BPCZReview.html, Ağustos 2014
- Adidas Adizero Pro Badminton Racket, http://www. sweatband.com/adidas-adizero-pro-badminton-racket.html, Ağustos 2014
- Zl/PBO Fiber Sanwei Yew Wood Gold Dragon L1 Table Tennis Blade / Ping Pong Blade , 5 Plywood + 2 Zl Fiber Off, SANWEI-Yew-Wood-Gold-Dragon-L1-Table-Tennis- Blade-ping-pong-blade/958537029.html, Ağustos 2014
- Kinetic Supreme, http://www.gotabletennis.com/Andro_Kinetic_Supreme_Zy lon_Kiso_Hinoki_OFF_p/10225100.htm, Ağustos 2014
- , http://www.extremecarving.com/forum, Eylül 2014
- Weiss D., (2002), Golf Equipment, http://www.worldgolf. com/products/zevo-driver.htm, Eylül 2014
- Sportex Zylon 3.0lb 12' 0" 2 Piece Carp Rod, http://www.ebay.com/itm/SPORTEX-ZYLON-3-0lb-12-0- 2-piece-Carp-Rod-/300555225650, Eylül 2014
- Kyudo, http://sagajet.com/leisure/cultural-pursuits/, Eylül 2014
- Mecit D., Ilgaz S., Duran D., Başal D., Gülümser T., Tarakçıoğlu I., (2007), Teknik Tekstiller Ve Kullanım Alanları (Bölüm 2), Tekstil ve Konfeksiyon, 17, (3), 154- 161.
- Canbolat M.F., (2011), Parachute Industry & Its Dynamics, Tekstil Teknolojileri Elektronik Dergisi, 5, (1), 72-83.
- , (2008), http://clearstreamwood.com/WordPress/projects/ 200801-azure-njord-nh/azure-njord-laminating-the-inside- with-zylon-and-s-glass, Ağustos 2014
- Hall J.L., Pauken M.T., Kerzhanovich V.V., Walsh G.J., Fairbrother D., Shreves C., Lachenmeier T., Flight Test Results for Aerially Deployed Mars Balloons, AIAA Balloon Systems Conference, 2007, May 21, 2007 - May 24, 2007, 262-274, 2007, Williamsburg, VA, United states. AIAA Balloon Systems Conference, 2007, American Institute of Aeronautics and Astronautics Inc.
- Seely L., Zimmerman M., McLaughlin J., (2004), The Use of Zylon Fibers in Uldb Tendons, Advances in Space Research, 33, (10), 1736-1740.
- Kerzhanovich V.V., Cutts J.A., Cooper H.W., Hall J.L., McDonald B.A., Pauken M.T., White C.V., Yavrouian A.H., Castano A., Cathey Jr H.M., Fairbrother D.A., Smith I.S., Shreves C.M., Lachenmeier T., Rainwater E., Smith M., (2004), Breakthrough in Mars Balloon Technology, Advances in Space Research, 33, (10), 1836-1841.
- Bonkers & Knockoffs, (2004), http://www.ybw.com/ forums/showthread.php?38026-Motor-Sailer-Macgregor- 26X/page7, Eylül 2014
- Yacth Fitters, http://yachtfitters.com/products/hampidjan/, Eylül 2014
- http://www.ara.com/Projects/SVO/model.htm,
- Ruredil X Mesh Gold: PBO ( Poliparafenilenbenzobisoxazolo) Mesh in a Stabilised Inorganic Matrix for Flexural and Shear Strength Reinforcement of Concrete, (2012), http://english. ruredil.it/SchedeProdottoENG/RuredilXMeshGOLD_ing_1 .pdf, Ağustos 2014
- Fallis G.J., (2009), International Concrete Abstracts Portal the International Concrete Abstracts Portal Is an Aci Led Collaboration with Leading Technical Organizations from within the International Concrete Industry and Offers the Most Comprehensive Collection of Published Concrete Abstracts. Title: Innovation for Renovation, Concrete international, 31, (04), 62-64.
- Ombres L., (2012), Debonding Analysis of Reinforced Concrete Beams Strengthened with Fibre Reinforced Cementitious Mortar, Engineering Fracture Mechanics, 81, (0), 94-109.
- Paliga C., Real M., Campos Filho A., (2013), Numerical Analysis of Reinforced Concrete Beams Strengthened with High Strength Cement-Based Composite Material, Revista IBRACON de Estruturas e Materiais, 6, (2), 211-226.
- Textile Reinforced Mortar Structural Strengthening Systems at Elevated Temperature, http://trmstrengtheningsystems. weebly.com/frcm.html, Ağustos 2014
- Ultra High Mechanical Performance Polyparaphenylene Benzobisoxazole (PBO) Fibre Mesh, with a Stabilised Inorganic Matrix, for Structural Reinforcement of Concrete, (2006), http://www.bob-fr.com/Doko/8cf032a0- ce97-4e8a-87f4-885dae215984.pdf, Ağustos 2014
- PBO Reinforcing Mesh, http://www.archiproducts.com/en/ products/71449/pbo-reinforcing-mesh-ruregold-ruredil. html, Ağustos 2014
- Swenson C.A., Marshall W.S., Gavrilin A.V., Han K., Schillig J., Sims Jr J.R., Schneider-Muntau H.J., (2004), Progress of the Insert Coil for the Us-Nhmfl 100 T Multi-Shot Pulse Magnet, Physica B: Condensed Matter, 346–347, (0), 561-565.
- Rosseel K., Herlach F., Boon W., Bruynseraede Y., (2001), Zylon-Reinforced High Magnetic Field Coils for the K.U. Leuven Pulsed Field Laboratory, Physica B: Condensed Matter, 294-295, 657-660.
- Zherlitsyn S., Bianchi A.D., Herrmannsdoerfer T., Pobell F., Skourski Y., Sytcheva A., Zvyagin S., Wosnitza J., (2006), Coil Design for Non-Destructive Pulsed-Field Magnets Targeting 100 T, Applied Superconductivity, IEEE Transactions on, 16, (2), 1660-1663.
- Herlach F., Peng T., Vanacken J., Elements of Pulsed Magnet Design, Journal of Physics: Conference Series, 599, 2006. vol 1, IOP Publishing. 141. Biwako-Roll®,
- http://www.toho-yogyo.co.jp/biwako_ e.html, Eylül 2014
- PBO Rollers, http://www.northerninnovations.net/about. html, Eylül 2014
- Matsuo T., (2001), Overview and Trend of Technical Textile Technologies in Japan, International Textile Bulletin: Nonwovens, Industrial Textiles, 47, (1), 46-48.
- Tamargo-Martínez K., Villar-Rodil S., Paredes J.I., Martínez-Alonso A., Tascón J.M., Montes-Morán M.A., (2003), Surface Characterization of PBO Fibers, Macromolecules, 36, (23), 8662-8672.
- Chen L., Hu Z., Liu L., Huang Y., (2013), A Facile Method to Prepare Multifunctional PBO Fibers: Simultaneously Enhanced Interfacial Properties and Uv Resistance, RSC Advances, 3, (46), 24664-24670.
- Liu D., Hu J., Zhao Y., Zhou X., Ning P., Wang Y., (2006), Surface Modification of PBO Fibers by Argon Plasma and Argon Plasma Combined with Coupling Agents, Journal of Applied Polymer Science, 102, (2), 1428-1435.
- Zhang C.H., Huang Y.D., Zhao Y.D., (2005), Surface Analysis of ī-Ray Irradiation Modified PBO Fiber, Materials Chemistry and Physics, 92, (1), 245-250.
- Wu Z., Iwashita K., Hayashi K., Higuchi T., Murakami S., Koseki Y., (2003), Strengthening Prestressed-Concrete Girders with Externally Prestressed PBO Fiber Reinforced Polymer Sheets, Journal of reinforced plastics and composites, 22, (14), 1269-1286.
- Zhang C.H., Huang Y.D., Yuan W.J., Zhang J.N., (2011), Uv Aging Resistance Properties of PBO Fiber Coated with Nano̺Zno Hybrid Sizing, Journal of applied polymer science, 120, (4), 2468-2476.
- Song B., Fu Q., Liu X.-Y., Zhuang Q.-X., Han Z.-W., (2011), Study on the Photolysis and Stabilization of PBO Fiber, Guti Huojian Jishu/Journal of Solid Rocket Technology, 34, (3), 378-383+392.
- 1 Park J.-M., Kim D.-S., Kim S.-R., (2003), Improvement of Interfacial Adhesion and Nondestructive Damage Evaluation for Plasma-Treated PBO and Kevlar Fibers/Epoxy Composites Using Micromechanical Techniques and Surface Wettability, Journal of Colloid and Interface Science, 264, (2), 431-445.
- 1 Tamargo-Martínez K., Martínez-Alonso A., Montes-Morán M.A., Tascón J.M.D., (2011), Effect of Oxygen Plasma Treatment of Ppta and PBO Fibers on the Interfacial Properties of Single Fiber/Epoxy Composites Studied by Raman Spectroscopy, Composites Science and Technology, 71, (6), 784-790.
- 1 Wu G.M., Shyng Y.T., Kung S.F., Wu C.F., (2009), Oxygen Plasma Processing and Improved Interfacial Adhesion in PBO Fiber Reinforced Epoxy Composites, Vacuum, 83, Supplement 1, (0), S271-S274.
- 1 Wu G.M., (2004), Oxygen Plasma Treatment of High Performance Fibers for Composites, Materials Chemistry and Physics, 85, (1), 81-87.