Arşiv
Yıl | 2017 (Cilt:24) |
Sayı | 107 |
Sayfalar | 138-219 |
Kapak / Künye | Kapak / Künye |
Makaleler
1 | Hava Jetli İpliklerin Dokuma Kumaş Performanslarının Değerlendirilmesi https://doi.org/10.7216/1300759920172410701 Yazarlar : Hüseyin Gazi TÜRKSOY, Tuğba AKAYA, Sümeyye ÜSTÜNTAĞ Makale Detay | Makale Özeti | Makale | Kaynaklar |
2 | Yün ve Yün Karışımlı Elyafta Makine Hızına ve Harmana Bağlı Statik Elektriklenme Miktarının İncelenmesi https://doi.org/10.7216/1300759920172410702 Yazarlar : Ayşe Selcen ALTINOK, Hafız Z. ALİSOY, Buket ÇINAR GELİR Makale Detay | Makale Özeti | Makale | Kaynaklar |
3 | Farklı Eğirme Sistemleriyle Üretilmiş Bobinlerin Renk Değerlerinin Karşılaştırılması https://doi.org/10.7216/1300759920172410703 Yazarlar : Halil ÖZDEMİR, R.Tuğrul OĞULATA Makale Detay | Makale Özeti | Makale | Kaynaklar |
4 | Taş Yıkamanın Denim Kumaş Performansı Üzerindeki Etkilerinin Araştırılması https://doi.org/10.7216/1300759920172410704 Yazarlar : Ahmet NERGİS, R. Tuğrul OĞULATA Makale Detay | Makale Özeti | Makale | Kaynaklar |
5 | Kaplamanın Koruyucu Eldivenlerin Performans Özelliklerine Etkisi https://doi.org/10.7216/1300759920172410705 Yazarlar : Mustafa ERTEKİN Makale Detay | Makale Özeti | Makale | Kaynaklar |
6 | Düşük Maliyetli Biyolojik Atık Adsorbentlerin Tekstil Boyası Adsorpsiyonu Özelliklerinin Karşılaştırılması https://doi.org/10.7216/1300759920172410706 Yazarlar : Fatma Oğuz ERDOĞAN Makale Detay | Makale Özeti | Makale | Kaynaklar |
7 | Kitosan Biyopolimerleriyle Çapraz Bağlanmış Yüksek Elastanlı Poliamid 66 Basınçlı Giysilerin Termofizyolojik Konfor Özelliklerinin Analizleri https://doi.org/10.7216/1300759920172410707 Yazarlar : Nilüfer Yıldız VARAN Makale Detay | Makale Özeti | Makale | Kaynaklar |
8 | Sıcaklığa Duyarlı Derilerin Yaşlanma Davranışları https://doi.org/10.7216/1300759920172410708 Yazarlar : Arife Candaş ADIGÜZEL ZENGİN, Eylül KÜÇÜKAKIN, Behzat Oral BİTLİSLİ Makale Detay | Makale Özeti | Makale | Kaynaklar |
9 | Türkiye’deki Büyük Beden Kadın Giyimindeki Problemleri Belirlemeye Yönelik Anket Çalışması https://doi.org/10.7216/1300759920172410709 Yazarlar : Basak SULLER ZOR, Arzu VURUŞKAN Makale Detay | Makale Özeti | Makale | Kaynaklar |
10 | Sanal Giysi Simülasyonunda Kumaş Mekanik Özelliklerini Ölçen Cihazların Ölçüm Değerlerinin İstatistiksel Kıyaslaması https://doi.org/10.7216/1300759920172410710 Yazarlar : Sertaç GÜNEY, İbrahim ÜÇGÜL Makale Detay | Makale Özeti | Makale | Kaynaklar |
Kaynaklar
1. Basal, G., (2003), The Structure and Properties of Vortex and Compact Spun Yarns, Ph.D. Thesis (unpublished), Fiber and Polymer Science, NCSU, Raleigh, 1-139. |
|
|
|
2. Ülkü, Ş., (2002), Yeni İplikçilik Sistemleri, Uludağ Üniversitesi Yayını, Bursa. |
|
|
|
3. Nakahara,T., Keller, A.H., (1981), The New Air jet Spinning System from Japan, International Textile Bulletin, 4:407-408. |
|
|
|
4. Muratec, (2015), Vortex Spinning System 870, Cat No.171P4C2-05-9-3 (NS). |
|
|
|
5. Eldessouki,
M., Ibrahim, S., Farag, R., (2015) Dynamic properties of air-jet yarns
compared to rotor spinning, Textile Research Journal, vol. 85, No. 17,
1827-1837. |
|
|
|
6. Ortlek,
H. G., Onal, L., (2008), Comparative Study on the Characteristics of Knitted
Fabrics Made of Vortex-Spun Viscose Yarns, Fibers and Polymers, vol. 9, No.
2, 194-199. |
|
|
|
7. Ortlek, H.G., Ülkü, Ş., (2005), Pilling and Abrasion Performances of Murata Vortex Spun Cotton Yarns, Melliand International, Vol.11, 287-289. |
|
|
|
8.
Beceren, Y., Nergis, B. U., (2015), Comparison of the Effects of Cotton Yarns
Produced by New, Modified and Conventional Spinning Systems on Yarn and
Knitted Fabric Performance, Textile Research Journal, Vol. 78(4), 297-303. |
|
|
|
9.
Erdumlu, N., Ozipek, B., Oztuna, A. S., Cetinkaya, S., (2009), Investigation
of Vortex Spun Yarn Properties in Comparison with Conventional Ring and
Open-end Rotor Spun Yarns, Textile Research Journal, Vol. 79(7), 585-595. |
|
|
|
10.
Suziki, Y., Sukigara, S., (2013), Mechanical and tactile properties of plain
knitted fabrics produced from rayon Vortex yarns, Textile Research Journal,
Vol. 83(7), 740-751. |
|
|
|
11. Ortlek, H. G., Yolaçan, G., Bilget, Ö., Bilgin, S., (2010), Effects Of Enzymatıc Treatment On The Performance Of Knıtted Fabrıcs Made From Different Yarn Types, Tekstil ve Konfeksiyon, Vol. 20, 115-119. |
|
|
|
12. Kireçci, A., Erdal, P. P., İçoğlu, H. İ., (2009), Comparison of the Fastness Properties and Color Values of Cotton Fabrics Knitted From Air-Vortex And Ring Spun Yarns, Tekstil ve Konfeksiyon, Vol. 4, 304-311. |
|
|
|
13. Unal, G. P., (2007), Investigation of Some Handle Properties of Fabrics Woven with Two Folded Yarns of Different Spinning Systems, Textile Research Journal. Vol 80(19). |
|
|
|
14. D1777-96, (2002), Standard Test Method for Thickness of Textile Materials. |
|
|
|
15. TS EN ISO 12945-2, (2002), Tekstil- Kumaşlarda yüzey tüylenmesi ve boncuklanma yatkınlığının tayini- Bölüm 2: Geliştirilmiş martindale metodu. |
|
|
|
16. TS EN ISO 12947-3, (2001), Tekstil - Martindale metoduyla kumaşların aşınmaya karşı dayanımının tayini- Bölüm 3: Kütle kaybının tayini. |
|
|
|
17. Sayed, A., Description of Shirley stiffness tester, https://textileapex.blogspot.com.tr/2014/08/shirley-stiffness-tester.html, 3 Ekim 2016. |
|
|
|
18. TS 1409, (1973), Dokunmuş Tekstil Mamullerinin Eğilme Dayanımı Tayini. |
|
|
|
19. Ak, F.N., (2006), Belirli Doku Konstrüksiyonlarının Kumaş Performans Özelliklerine Etkisi, Çukurova Üniversitesi, Fen Bilimleri Enstitüsü, Yüksek Lisans Tezi, Adana, 105 s. |
|
|
|
20. TS 390 EN 22313, (1996), Tekstil kumaşlar-Yatay olarak katlanmış kumaşta katın açılmasının kat düzelme açısının ölçülmesi yolu ile tayini. |
|
|
|
21. Basu,
A., (1999), Progress in Air-jet Spinning, Textile Progress. Textile Progress,
Volume 29, Number 3, The Textile Institute, Manchester. |
|
|
|
22. Lei
Wang, Jianli Liu, Ruru Pan, Weidong Gao., (2014), Exploring the Relationship
Between Bending Property and Crease Recovery of Woven Fabrics, The Journal of
the Textile Institute, Vol. 106, No. 11, 1173-1179. |
|
|
|
23. Özçelik G., (2009), Kumaş Boncuklanma Özelliğinin Objektif Olarak Değerlendirilmesi Ve Tahminlenmesi Üzerine Bir Araştırma, Ege Üniversitesi, Fen Bilimleri Enstitüsü, Doktora Tezi, İzmir, 291 s. |
Kaynaklar
|
||||||||||||||||||||||||||||||||||||||
Kaynaklar
1. Özdemir, H., (2009), Farklı İplik Üretim Sistemleri ile Eğrilmiş İpliklerin Fiziksel Özellikleri ve Bobin Boyama Performansının İncelenmesi (An Investigation of The Physical Properties and Dyeing Performance of Yarn Produced by Using Different Spinning Systems), University of Çukurova, Institute of Natural and Applied Sciences, Department of Textile Engineering, PhD Thesis, TURKEY, (in Turkish). |
|
|
|
2. Üreyen
M. E. and Kadoğlu H., (2006), Regressional Estimation of Ring Cotton Yarn
Properties from HVI Fiber Properties, Textile Research Journal, Vol. 76,
Issue 5, pp. 360-366. |
|
|
|
3. Becerir B., Ömeroglu S., (2007), Comparison of Color Values of Plain Cotton Fabrics Knitted From Ring and Compact Spun Yarns, AATCC Review, Vol. 7, Issue 7, pp. 41-46. |
|
|
|
4. Micheal M. N., Dyab W. A., (2001), Effect of Spinning Method and Knitting Type on Dyeability and Fading Kinetics, AATCC Review, March, Vol. 1, Issue 3, pp. 53-56. |
|
|
|
5. Basal
G., Oxenham W., (2006), Effect of Some Process Parameters on the Structure
and Properties of Vortex Spun Yarn, Textile Research Journal, Vol. 76, Issue
6, pp. 492-499. |
|
|
|
6. Örtlek H. G., Şener M., and Ülkü S., (2004), Production Cost Analysis of MVS Yarns and Comparison with the Conventional Spinning Systems, Tekstil Teknoloji (International Textile Technology Magazine), Vol. 9, Issue 98, pp. 82-93. |
|
|
|
7. Göktepe
F., Yılmaz D., Göktepe O., (2006), A Comparison of Compact Yarn Properties
Produced on Different Systems, Textile Research Journal, Vol. 76, Issue 3,
pp. 226-234. |
|
|
|
8. Çeken F., Göktepe F., (2005), Comparison of The Properties of Knitted Fibres Produced Bye Conventional and Compact Ring-Spun Yarns, Fibres & Textiles in Eastern Europe, Vol. 13, Issue 1 (49), pp. 47-50. |
|
|
|
9.
Kretzschmar S. at al., (2007), The Comparison of Cotton Knitted Fabric
Properties Made of Compact and Conventional Ring Yarns Before and after the
Dyeing Process, Textile Research Journal, Vol. 77, Issue 4, pp. 233-241. |
|
|
|
10. Becerir B., Ömeroglu S., (2007), Comparison of Color Values of Plain Cotton Fabrics Knitted From Ring and Compact Spun Yarns, AATCC Review, Vol. 7, Issue 7, pp. 41-46. |
|
|
|
11.
İskender M. A., Becerir B., and Koruyucu A., (2005), Carrier Dyeing of
Different Energy Level Disperse Dyes on Polyester Fabric, Textile Research
Journal, Vol. 75, Issue 6, pp. 462-465. |
|
|
|
12.
Rouette H. K., Encyclopedia of Textile Finishing, Woodhead Publishing, 2001 |
Kaynaklar
1. Karagöz, G., (2009), Denim Yıkama İşlemlerinde Ortaya Çıkan Zararlar Nedenleri ve Çözüm Olanakları, Ege Üniversitesi, Fen Bilimleri Enstitüsü, Tekstil Mühendisliği Anabilimdalı, Yüksek Lisans Tezi, İzmir. |
|
|
|
2. Türkant, B., Türkiye'nin Denim Kumaş ve Konfeksiyon Dış Ticareti ile Dünya Denim Pazarı için 2014 Tahminleri, www.itkib.org.tr, Erişim Tarihi : 20.09.2016 |
|
|
|
3. Bağıran, İ.C., (2011), Denim Yıkamada Karşılaşılan Sorunlar Ve Bunlara Yönelik Çözüm Önerileri, Ege Üniversitesi, Fen Bilimleri Enstitüsü, Tekstil Mühendisliği Anabilimdalı, Yüksek Lisans Tezi, İzmir. |
|
|
|
4. Card,
A., Moore, M.A., Ankeny, M., (2006), Garment Washed Jeans: Impact of
Launderings on Physical Properties, International Journal of Clothing Science
and Technology, 18(2), 43-52. |
|
|
|
5. Aslan, M., Körlü, A., (2009), Selülaz Enziminin Denim Yıkamada Kullanımı, Tekstil Teknolojileri Elektronik Dergisi, 3(1), 11-23. |
|
|
|
6. Khedher, F., Dhouıb, S., Msahlı, S., Saklı, F., (2009), The Influence of Industrial Finishing Treatments And Their Succession on The Mechanical Properties of Denim Garment, Autex Research Journal, 9(3), 93-100. |
|
|
|
7. Yi, C.M., (2011), Effect of Washıng on Tensıle Strength of Denım Fabrics, A Thesis Degree of Bachelor of Arts (Honours) Scheme in Institute of Textiles & Clothing, The Hong Kong Polytechnic University. Hong Kong. |
|
|
|
8. Khan, M.M.R., Mondal, M.I.H., Uddin, M.Z., (2011), Effect of Bleach Wash on The Physıcal and Mechanıcal Propertıes of Denim Garments, International Conference on Mechanical Engineering, 87- 93, Dhaka, Bangladesh. |
|
|
|
9. Nergis, A., Oğulata, R.T., (2016), Denim Kumaşlarda Farklı Yıkama Proseslerinin Kumaş Performans Özelliklerine Etkisi, Çukurova Üniversitesi, Fen Bilimleri Enstitüsü, Tekstil Mühendisliği Anabilimdalı, Yüksek Lisans Tezi, Adana. |
|
|
|
10.ASTM D3776 - 09a, (2013), Standard Test Methods for Mass Per Unit Area (Weight) of Fabric, ASTM International. |
|
|
|
11.ASTM D3774 – 96, (2016). Standard Test Method for Width of Textile Fabric, ASTM International. |
|
|
|
12.LS&CO. METHOD-2, (2004), Skew Movement Method In Launderıng, Levi's Strauss&Co. Test Standards. |
|
|
|
13.ASTM D5034 – 09, (2013), Standard Test Method for Breaking Strength and Elongation of Textile Fabrics (Grab Test), ASTM International. |
|
|
|
14.TS EN ISO 5077, (2012), Tekstil-Yıkama ve Kurutmada Boyut Değişmesinin Tayini, Türk Standartları Enstitüsü, Ankara. |
|
|
|
15.ASTM D1424 – 09, (2013), Standard Test Method For Tearing Strength of Fabrics By Falling –Pendulum (Elmandorf – Type) Apparatus, ASTM International. |
|
|
|
16.ASTM D3107 – 07, (2015). Standard Test Methods for Stretch Properties of Fabrics Woven from Stretch Yarns, ASTM International. |
|
|
Kaynaklar
1. TMMOB Makine Mühendisleri Odası. İş Sağlığı ve Güvenliği, http://www.mmo.org.tr/resimler/dosya_ekler/a2a095df28f81a0_ek.pdf?tipi=4&turu=H&sube=0, Erişim Tarihi: 06.04.2017. |
|
|
|
2. T.C. Sosyal Güvenlik Kurumu. İş Kazalarında Avrupa Birincisiyiz, http://www.sgk.gov.tr/wps/wcm/connect/adad60b4-ae07-415a-80bdeaf98b2df841/%C4%B0%C5%9F+kazalar%C4%B1nda+Avrupa+birincisiyiz.pdf?MOD=AJPERES&CACHEID=adad60b4-ae07-415a-80bd-eaf98b2df841, Erişim Tarihi: 06.04.2017. |
|
|
|
3. T.C. Sosyal Güvenlik Kurumu. İş Kazaları İstatistikleri, www.ssk.gov.tr, Erişim Tarihi: 06.04.2017. |
|
|
|
4. Davas Aksan, A., Durusoy, R., Bal, E., Kayalar, M., Ada, S., Tanık, F. A., (2012), Risk Factors for Occupational Hand Injuries: Relationship Between Agency and Finger, American Journal ofIndustrial Medicine, 55, 5, 465-473. |
|
|
|
5. Dolez, P., Soulati, K., Gauvin, C., Lara, J., Vu-Khanh, T., (2012), Information Document for Selecting Gloves for Protection Against Mechanical Hazards, https://www.irsst.qc.ca/gants/en/ InfoDocu.pdf, Erişim Tarihi: 06.04.2017. |
|
|
|
6. Hearle, J.W.S., (2001), High Performance Fibers, Woodhead Publishing Ltd, Abington, England. |
|
|
|
7. Ciobanu, R., Ionesi, D., Budulan, C., (2010), Protective Gloves against Mechanical Hazard, 7th International Conference-TEXSCI 2010, September 6-8, Liberec, Czech Republic. |
|
|
|
8. Mapa Professionnel. Koruyucu Eldivenler Kataloğu, http://www.tr.mapa-pro.com/fileadmin/user_upload/Documentation/MAPAProfessionnel_Product-catalogue_TR.pdf, Erişim Tarihi:06.04.2017. |
|
|
|
9. Satra Technology. Assessing Protective Gloves, http://www.satra.co.uk/spotlight/article_view.php?id=319, Erişim Tarihi:06.04.2017. |
|
|
|
10.
Irzmanska, E., Stefko, A., (2015), Simulation Method for Assessingthe End of
Service Life of Gloves Used by Workers Exposed to Mineral Oils and Mechanical
Factors, International Journal of Industrial Ergonomics, 47, 61-71. |
|
|
|
11. Dolez,
P.I., Gauvin, C., Lara, J., Vu-Khanh, T., (2010), The Effect of Protective
Glove Exposure to Industrial Contaminants on Their Resistance to Mechanical
Risks, International Journal of Occupational Safety and Ergonomics, 16, 2,
169–183. |
|
|
|
12. Özdemir, F., (2011), Mekanik Risklere Karşı Koruyucu Eldivenlerin Performanslarının İyileştirilmesi Üzerine Çalışmalar, Yüksek Lisans Tezi, Ege Üniversitesi, İzmir. |
|
|
|
13. Harrabi L., Dolez P. I., Vu-Khanh T., Lara J., (2006), Optimization in the Selection of Protective Gloves for Resistance to Mechanical Risks, Second International Conference of Applied Research on Textile, November 30- December 2, Monastir, Tunusia. |
|
|
|
14.
Harrabi, L., Dolez, P.I., Vu-Khanh, T., Lara, J., Tremblay, G., Nadeau, S.,
Lariviere, C., (2008), Characterization of Protective Gloves Stiffness:
Development of a Multidirectional Deformation Test Method, Safety Science,
46, 7, 1025-1036. |
|
|
|
15. Klapötke, T.M., Krumm, B., Mayr, N., Steemann, F.X., Steinhauser, G. Safety Testing of Protective Gloves, http://publik.tuwien.ac.at/files/PubDat_169519.pdf, Erişim Tarihi: 06.04.2017. |
|
|
|
16. Flambard, X., Ferreira, M., Vermeulen, B., Bourbigot, S., & Poutch, F., (2003), Mechanical and Thermal Behaviors of First Choice, Second Choice and Recycled P-Aramid Fibres, Journal of Textile and Apparel, Technology and Management, 3, 2, 1-13. |
|
|
|
17.
Alpyıldız, T., Rochery, M., Kurbak, A., Flambard, X., (2011), Stab and Cut
Resistance of Knitted Structures: A Comparative Study, Textile Research
Journal, 81, 2, 205–214. |
|
|
|
18. Dolez,
P.I., Vu-Khanh, T., (2009), Recent Developments and Needs in Materials Used
for Personal Protective Equipment and Their Testing, International Journal of
Occupational Safety and Ergonomics, 15, 4, 347–362. |
|
|
|
19. Elbex. General Properties of Elastomers, http://www.elbexus.com/sites/default/files/General%20Properties%20of%20Elastomers.pdf, Erişim Tarihi: 06.04.2017. |
|
|
|
20. DKI Rubber&Plastic Ltd. Materials, http://www.dkirubber.com/materials.asp, Erişim Tarihi: 06.04.2017. |
|
|
|
21. Standartları Enstitüsü, (2003), TS EN 388 "Koruyucu Eldivenler-Mekanik Risklere Karşı". |
|
|
|
22. Türk Standartları Enstitüsü, (2006), TS EN ISO 15025 "Koruyucu Giyecekler–Isı ve Aleve Karşı Koruma". |
|
|
|
23. Payot, F. Measurement and Control Method for Cutting Resistance of Protective Gloves, Performance of Protective Clothing:Fourth Volume, https://www.astm.org/DIGITAL_LIBRARY/STP/ SOURCE_PAGES/STP1133.htm, Erişim Tarihi: 06.04.2017. |
|
|
|
24.
Rebouillat, S. and Steffenino, B., (2005), Cut Performance Fundamentals and
Norms Harmonization, Journal of ASTM International, 2, 8, 1-21. |
|
|
|
25. Difference Between. Difference Between Rubber and Silicone, http://www.differencebetween.com/difference-between-rubber-andvs-silicone/, Erişim Tarihi: 06.04.2017. |
|
|
|
26. DuPontTM Company, The Sicence of Cut Protection, http://www2.dupont.com/Kevlar_Gloves/en_US/assets/downloads/kevlar_cut_protection_testing.pdf, Erişim Tarihi: 06.04.2017. |
|
|
Kaynaklar
1. Pandiselvi,
K., Thambidurai, S., (2013), Synthesis of porous chitosan-polyaniline/ZnO
hybrid composite and application for removal of reactive orange 16 dye.
Colloids and Surf. B: Biointerfaces, 108, 229-238. |
|
|
|
2.
Erdogan, T., Oguz Erdogan, F., (2016), Characterization of the adsorption of
disperse yellow 211 on activated carbon from cherry stones following
microwave-assisted phosphoric acid treatment. Analytical Letters, 49,
917-928. |
|
|
|
3. Auta,
M., B.H. Hameed., B. H., (2013), Coalesced chitosan activated carbon
composite for batch and fixed-bed adsorption of cationic and anionic dyes.
Colloids and Surf. B: Biointerfaces, 105, 199-206. |
|
|
|
4. Fan,
L., Luo, C., Sun, M., Qiu, H., Li, X., (2013), Synthesis of magnetic
β-cyclodextrin-chitosan/graphene oxide as nanoadsorbent and its application
in dye adsorption and removal. Colloids and Surf. B: Biointerfaces, 103,
601-607. |
|
|
|
5. Lafi,
R., Fradj, A., Hafiane, A., Hameed, B. H., (2014), Coffee waste as potential
adsorbent for the removal of basic dyes from aqueous solution. Korean J.
Chem. Eng., 31, 2198-2206. |
|
|
|
6.
Krishni, R. R., Foo, K.Y., Hameed, B. H., (2014), Adsorption of methylene
blue onto papaya leaves: comparison of linear and nonlinear isotherm
analysis. Desalination and Water Treatment, 52, 6712-6719. |
|
|
|
7. Oguz
Erdogan, F., (2016), Characterization of the activated carbon surface of
cherry stones prepared by sodium and potassium hydroxide. Analytical Letters,
49, 1079-1090. |
|
|
|
8. http://wwww.fao.org |
|
|
|
9. Huang,
Z., Wang, X., Yang, D., (2015), Adsorption of Cr(VI) in wastewater using
magnetic multi-wall carbon nanotubes. Water Science and Engineering, 8,
226-232. |
|
|
|
10. Zhao,
D., Zhang, C., Chen, C., Wang, X., (2013), Adsorption of methyl orange dye
onto multiwalled carbon nanotubes. Procedia Environmental Sciences, 18,
890-895. |
|
|
|
11. Nesic
A. R., Velickovic S. J., Antonovic D. G., (2014), Novel composite films based
on amidated pectin for cationic dye adsorption. Colloids and Surf. B:
Biointerfaces, 116, 620-626. |
|
|
|
12. Rubín,
E.,. Rodríguez, P., Herrero, R., Sastre de Vicente, M. E., (2006),
Biosorption of phenolic compounds by the brown alga Sargassum muticum.
Journal of Chemical Technology and Biotechnology, 81, 1093-1099. |
|
|
|
13. Nweke,
C. O., Okpokwasili G. C., (2013), Removal of phenol from aqueous solution by
adsorption onto activated carbon and fungal biomass. International Journal of
Biosciences, 3, 11-21. |
|
|
|
14. Kosa,
S. A., Al-Zhrani, G., Salam M. A., (2012), Removal of heavy metals from
aqueous solutions by multi-walled carbon nanotubes modified with
8-hydroxyquinoline. Chemical Engineering Journal, 181-182, 159-168. |
|
|
|
15. Emami,
Z., Azizian, S., (2014), Preparation of activated carbon from date sphate
using microwave irradiation and investigation of its capability for removal
of dye pollutant from aqueous media. Journal of Analytical and Applied
Pyrolysis, 108, 176-184. |
|
|
|
16. Chen,
S., Zhang, J., Zhang, C., Yue, Q., Li, Y., Li, C., (2010), Equilibrium and
kinetic studies of methyl orange and methyl violet adsorption on activated
carbon derived from Phragmites australis. Desalination, 252, 149-156. |
|
|
|
17. Chowdhury,
S., Chakraborty, S., Saha, P., (2011), Biosorption of Basic Green 4 from
aqueous solution by Ananas comosus (pineapple) leaf powder. Colloids and
Surf. B: Biointerfaces, 84, 520-527. |
|
|
|
18.
Kondapalli, S., Mohanty, K., (2011), Influence of temperature on equilibrium,
kinetic and thermodynamic parameters of biosorption of Cr(VI) onto fish
scales as suitable biosorbent. Journal of Water Resource and Protection, 3,
429-439. |
|
|
|
19.
Akpomie, K. G., Dawodu, F. A., Adebowale, K. O., (2015), Mechanism on the
sorption of heavy metals from binary-solution by a low cost montmorillonite
and its desorption potential. Alexandria Engineering Journal, 54, 757-767. |
|
|
|
20.
Agarry, S. E., Aremu, M. O., (2012), Batch equilibrium and kinetic studies of
simultaneous adsorption and biodegradation of phenol by pineapple peels
immobilized Pseudomonas aeruginosa NCIB 950. British Biotechnology Journal,
2, 26-48. |
|
|
|
21. Varshini, J. S., Das, N., (2014), Enhanced uptake of rare earth metals using surface molecular imprinted biosorbents of animal origin: Equilibrium, kinetic and thermodynamic. International Journal of ChemTech Research, 7, 1913-1919. |
|
|
|
22. Akar,
T., Özkara, S., Celik, S., Turkyilmaz, S., Akar, S. T., (2013), Chemical
modification of a plant origin biomass using cationic surfactant ABDAC and
the biosorptive decolorization of RR45 containing solutions. Colloids and
Surf. B: Biointerfaces, 101, 307-314. |
|
|
|
23.
Rahman, M. S., Sathasivam, K. V., (2015), Heavy metal adsorption onto Kappaphycus
sp. from aqueous solutions: The use of error functions for validation of
isotherm and kinetics models. BioMed Research International, 2015, 13-20. |
Kaynaklar
1. Yildiz,
N., (2007), A Novel Technique to Determine Pressure in Pressure Garments for
Hypertrophic Burn Scars and Comfort Properties, Burns, 33(1), 59-64. |
|
|
|
2. Parkinson, J.M., Schofield B., (1999), The Design of Pressure Garments for the Treatment of Hypertrophic Scarring Caused by Burns, Medical Textiles International Conference.15, 25th of August, Bolton Institute, UK. |
|
|
|
3. Bakker,
A.B., Le Blanc P.M., Schaufeli W.B., (2005), Burnout Contagion Among
Intensive Care Nurses, Journal of Advanced Nursing, 51(3), 276-287. |
|
|
|
4.
Harrigan, P., Lancet P., (1991), Australia: Pressure Garments for Burn
Patients, News & Comment, 337(8748), 1-2. |
|
|
|
5.
Sau-Fun, Ng., Chi-Leung, H., Lai-Fan, W., (2011), Development of Medical
Garments and Apparel for the Elderly and the Disabled, Textile Progress,
43(4), 235-285. |
|
|
|
6. Kumar,
R.J., Kimble, R.M., Boots, R.,et al., (2004), Treatment of Partial-thickness
Burns: a Prospective, Randomized Trial Using Transcyte, Anz Journal of
Surgery, 74(1), 622-626. |
|
|
|
7.
Partsch, H., (2005), The Static Stiffness Index: A Simple Method to Assess
the Elastic Property of Compression Material in Vivo, The American Society
for Dermotologic Surgery, 31(1), 625-630. |
|
|
|
8. Teng, T., Chou K., (2006), The Measurement and Analysis of the Pressure Generated by Burn Garments, Journal of Medical and Biological Engineering, 26(4), 155-159. |
|
|
|
9.
Wegen-Franken, KVD., Roest, W., Tank B., et al. (2006), Calculating the
Pressure and the Stiffness in Three Different Categories of Class II Medical
Elastic Compression Stockings, The American Society for Dermatologic Surgery,
32(1), 216-223. |
|
|
|
10. Wang,
X., Kempf, M., Liu, P., et al., (2008), Conservative Surgical Debridement as
a Burn Treatment: Supporting Evidence from a Porcine Burn Model, Wound Repair
and Regeneration, 16(1), 774-783. |
|
|
|
11. Hampton,
S.,(2003), Elvarex Compression Garments in the Management of Lymphoedema,
British Journal of Nursing, 12(15), 925-929. |
|
|
|
12.
Attard, J., Rithalia, S., (2004), A Review of the Use of Lycra Pressure
Orthoses for Children with Cerebral Palsy, International Journal of Therapy
and Rehabilitation, 11(3), 120-126. |
|
|
|
13. Lee,
G., Rajendran S., Anand S., (2009), New Single-Layer Compression Bandage
System for Chronic Venaus Leg Ulcers, British Journal of Nursing, 18(15),
4-18. |
|
|
|
14. Macintyre, L., Baird, M., Weedal P., (1999), Elastic Fabrics for Use in Pressure Garments – Comfort Properties, Medical Textiles International Conference. 4, 25th August, Bolton Institute, UK. |
|
|
|
15.
Bayley, E.W., Smith, G.A., (1987), The Three Degrees of Burn Care, Nursing,
17(3), 34-41. |
|
|
|
16. News, (2008), "No Consensus on the Most Effective Burn Treatment, Paediatric Nursing, 20(9), 5. |
|
|
|
17. Eldad, A., Salmon, Y.A., et al., (2003), Flame Burn Protection: Assessment of a New, Air-Cooled Fireproof Garment, Military Medicine, 68(8), 595-599. |
|
|
|
18. Chou, T., Chen, S., Lee, T., et al. (2001), Reconstruction of Burn Scar of the Upper Extremities with Artifical Skin, Reconstruction of Burn Scar, 108(2), 378-384. |
|
|
|
19. Zuhaili,
B., Aflaki, P., Koyama, T. et al, (2010), Meshed Skin Grafts Placed Upside
Down can Take if Desiccation is Prevented, Plastic and Reconstructive
Surgery, 125(3), 855-865. |
|
|
|
20.
Gladfelter, J, (2007), Compression Garments 101, Plastic Surgery Nursing,
Vol. 27(2), 73-74. |
|
|
|
21. Chi,
C.F., Lin, C.H., Yang, H.S., (2008), The Casual Analysis of Requested
Alterations for Pressure Garments, Journal of Burn Care Research, 29(6),
965-974. |
|
|
|
22. Chemical Name Index. Textile Finishing Chemicals, pp. 656-669. |
|
|
|
23. Silver Green Products/ FAQ/ www.silver-green-products.us (25.6.2015). |
|
|
|
24.
Simoncic, B., Tomsic, B., (2010), Structures of Novel Antimicrobial Agents
for Textiles – a Review, Textile Research Journal, Vol. 80(16), 1721- 1737. |
|
|
|
25.
Jayakumar, I.R., Prabaharan, M., Muzarelli, R.A.A., (2011), Chitosan for
Biomaterials II, Springer-Verlag, Berlin, Heidelberg. |
|
|
|
26.
Sudardshan, N.R., Hoover, D.G., Knorr, D., (1992), Antibacterial Action of
Chitosan, Food Biotechnology. 6(3), 257-272. |
|
|
|
27. Lim,
S.H., Hudson, S.M., (2003), Review of Chitosan and Its Derivatives as
Antimicrobial Agents and Their Uses as Textile Chemicals, Journal of
Macromolecular Science part c – Polymer Reviews. C43 (2), 223-269. |
|
|
|
28.
Jayakumar, R., Nwe, N., Tokura, S., Tamura, H., (2007), Sulfated Chitin and
Chitosan as Novel Biomaterials, International Journal of Biological
Macromolecules, Vol. 40 (3), 175-181. |
|
|
|
29.
Rinaudo, M., (2008), Main Properties and Current Applications of Some
Polysaccharides as Biomaterials, Polymer International, 57, 397-430. |
|
|
|
30.
Mourya, V.K., Inamdar, N.N., (2008), Chitosan – Modifications and
Applications: Opportunities Galore, Reactive and Functional Polymers, 68(6),
1013-1051. |
|
|
|
31.
Kurita, K., (2006), Chitin and Chitosan: Functional Biopolymers from Marine
Crustaceans, Marine Biotechnology, 8(3), 203-226. |
|
|
|
32.
Hirano, S., (1999), Chitin and Chitosan as Novel Biotechnological Materials,
Polymer International, 48, 732-4. |
|
|
|
33. Yi,
H., Wu, LQ., Bentley, W.E., Ghodssi, R., Rubloff, G.W., Culver, J.N., et al.,
(2005), Biofabrication with Chitosan, Biomacromolecules, 6, 2881-2894. |
|
|
|
34. Anand, S., Kennedy, J. F., Miraftab, M., & Rajendran, S. (Eds.). (2005), Medical Textiles and Biomaterials for Health Care, Woodhead Publishing Ltd, Cambridge, England. |
|
|
|
35. AATCC 100-2004, (2010), Standard Test Method for the Assessment of Antibacterial Finishes on Textiles, American Association of Textile Chemists and Colorists, Philadelphia, PA |
|
|
|
36. Simal,
A.L, Martin, A.R., (1998), Structure of Heat-Treated Nylon 6 and 6.6 Fibres
I: the Shrinkage Mechanism, Journal of Applied Polymer Science, Vol. 68,
441–452. |
|
|
|
37. Sinha, M.K., (2006), An Investigation of Photodegradation of a Support Netting Used in the Conservation of Historic Textiles, Heriott-Watt, Edinburgh. |
|
|
|
38. ASTM F-1868-09, (2009), Standard Test Method for Thermal andEvaporative Resistance of Clothing Materials Using a Sweating Hot Plate, Part C, American Association for Testing and Materials, Philadelphia, PA. |
Kaynaklar
1. Şeren, A., Adıgüzel Zengin, A. C., Bitlisli, B. O., (2013), Thermochromic Pigments in Leather Finishing, XXXII Congress of IULTCS, 29-31 May 2013, Istanbul, Turkey, 34. |
|
|
|
2. Salom A., Adiguzel Zengin A.C., Bitlisli B.O., (2016), Temperature Sensitive Colour Changing Leathers with Thermochromic Pigments, Journal of Society of Leather Technologists and Chemists, 100, 6, 314-320. |
|
|
|
3. Bamfield, P., Hutchings, M., (2010), Chromic Phenomena Technological Applications of Colour Chemistry, 2nd ed. Royal Society of Chemistry, Cambridge, Great Britain, 562. |
|
|
|
4. Adiguzel Zengin, A.C., Kucukakin, E., Bitlisli, B.O., (2017), Ageing Behavior of Temperature Sensitive Leathers, 16th International the Recent Progress Symposium on Textile Technology and Chemistry, 4-6th May 2017, Bursa, Turkey, 313- 320. |
|
|
|
5. Christie, R.M., Robertson S., Taylor, S., (2007), Design Concepts for a Temperature Sensitive Environment using Thermochromic Color Change, Color: Design and Creativity, 1, 1, 1-11. |
|
|
|
6. Kulcar,
R., Friskovec, M., Hauptman, N., Vesel A., Gunde, MK., (2010), Colorimetric
properties of reversible thermochromic printing inks, Dyes and Pigments, 86,
271-277. |
|
|
|
7. Chowdhury, M.A., Joshi, M., Butola, B.S., (2014), Photochromic and Thermochromic Colorants in Textile Applications, Journal of Engineered Fibers and Fabrics, 9, 107-123. |
|
|
|
8. Mather,
R.R., (2001), Intelligent Textiles, Rev. Prog. Color., 31, 36- 41. |
|
|
|
9. Gulumser, T., Karagöz, E., Kumbasar Akçakoca, E. P., (2008), Research about Dyeing of Cotton Fibers with Fluorescent Dyestuffs and Developing Light Fastness, Tekstil ve Konfeksiyon, 4, 284-288. |
|
|
|
10.
Brezova, V., Pigosova, J., Havlinova, B., Dvoranova, D., Durovic, M., (2004),
EPR study of photochemical transformations of triarylmethane dyes, Dyes and
Pigments, 61, 177-198. |
|
|
|
11. Basaran, B., Bitlisli, B.O., Ocak, B., Onem, E., (2011), Effect of Different Atmospheric Conditions on Some Physical Properties of Leather, Tekstil ve Konfeksiyon, 2, 194-198. |
|
|
|
12. Oda,
H., (2008), Photostabilization of Organic Thermochromic Pigments: Action of
Benzotriazole Type UV absorbers Bearing an Amphoteric Counter-Ion Moiety on
the Light Fastness of Color Formers, Dyes and Pigments, 76, 1, 270-276. |
|
|
|
13. Lopes,
F., Neves, J., Campos, A., Hrdina, R., (2009), Wearing of Microencapsulated
Thermochromic Pigments, Research Journal of Textile and Apparel, 13, 1,
78-89. |
|
|
|
14.
Christie, RM., Bryant, ID., (2005), An evaluation of thermochromic prints
based on microencapsulated liquid crystals using variable temperature color
measurement, Coloration Technology, 121, 187- 192. |
|
|
|
15. Chowdhury,
M. A., Butola, B. S. and Joshi, M., (2013), Application of thermochromic
colorants on textiles: temperature dependence of colorimetric properties,
Coloration Technology, 129, 232-237. |
|
|
|
16. Tamilmani, V., Kanadasan, D., Muthazhagan, R., Sreeram, K.J., Raghava Rao, J., Nair, B.U., (2015), Thermochromism for Smart Leathers, Journal of American Leather Chemists Association, 110, 6, 161-164. |
|
|
|
17. ISO 2418, (2002), Leather -- Chemical, physical and mechanical and fastness tests -- Sampling location, International Organizationfor Standardization (ISO), Geneva, Switzerland. |
|
|
|
18. ISO 2419, (2012), Leather-Physical and mechanical tests-Sample preparation and conditioning, International Organization for Standardization (ISO), Geneva, Switzerland. |
|
|
|
19. TS EN ISO 17228, (2009), Leather-Tests for colour fastness- Change in color with accelerated ageing, Turkish Standard Institute, Ankara, Turkey. |
|
|
|
20. McLaren, K., (1983), The color science of dyes and pigments, Adam Hilger Ltd. Bristol, UK, 186. |
|
|
|
21. Mutlu,
M.M., Crudu, M., Maier, S.S., Deselnicu, D., Albu, L., Gülümser, G.,
Bitlisli, B.O., Başaran, B., Tosun, C.C., Adıgüzel Zengin A.C., (2014),
Eco-Leather: Properties of Chromium-Free Leathers Produced with Titanium
Tanning Materials Obtained from the Wastes of Metal Industry, Ekoloji, 23,
91, 83-90. |
|
|
Kaynaklar
1. Ministry of Health of Turkey General Directorate of Primary Health Care (2010). Obesity Prevention and Control program of Turkey (2010-2014), Kuban Matbaacılık, Ankara. |
|
|
|
2. World Health Organization (WHO), Obesity. www.who.int/topics/obesity/en/ (20.03.2016). |
|
|
|
3. Yıldıran, F., (2006), Obezite Hastalarının Giyim Problemleri, Master Thesis, Selçuk University Department of Clothing Industry and Fashion Design Education. |
|
|
|
4. ASTM International, (2004), D6960-04 Standard Table of Body Measurements Relating to Women's Plus-size Figure Type, Sizes 14W–32W, ASTM Book of Standards www.astm.org/standards/ D6960.htm (23.03.2017). |
|
|
|
5. Ashdown, S. P., (2007), Sizing in Clothing: Developing Effective Sizing Systems for Ready-to-Wear Clothing, Woodhead Publishing, Cambridge. |
|
|
|
6. Cihangir, E., (2002), Hazır Giyimde Ölçüler, ITKIB Teknik El Kitapları Serisi, İstanbul Tekstil ve Konfeksiyon İhracatçı Birlikleri Genel Sekreterliği, İstanbul. |
|
|
|
7. Kaynak, M., (2005), Büyük Beden Tüketicisi Bayanların Büyük Beden Kıyafetlerden Ceket ve Pantolonda Karşılaştıkları Model ve Kalıp Kaynaklı Problemlere İlişkin Görüşlerinin İncelenmesi, Master Thesis, Gazi University Department of Clothing Industry and Fashion Design Education, Ankara. |
|
|
|
8. Safa, S., (2007), Akdeniz Bölgesinde Yaşayan Büyük Beden Bayan Tüketicilerin Hazır Giyim Ürünlerinde Karşılaştıkları Problemler, Master Thesis, Gazi University Department of Clothing Industry and Fashion Design Education, Ankara. |
|
|
|
9. NPD Group Reports, (2012), Size Matters to American Women, https://www.npd.com/wps/portal/npd/us/news/pressreleases/pr_120910/ (23.03.2017). |
|
|
|
10. IBIS World, (2016), Plus-Size Women's Clothing Stores Market Research Report, http://www.ibisworld.com/industry/plus-sizewomens-clothing-stores.html (23.03.2017). |
|
|
|
11. Parker, P. M., (2010), The 2011-2016 World Outlook for Women's Plus-size Clothing, Icon Group International Inc. www.icongroupline.com (10.11.2012). |
|
|
|
12. http://dictionary.cambridge.org/dictionary/english/latent-demand (23.03.2017). |
|
|
|
13. Alexander, M., Pisut, R. G., Ivanescu, A., (2011), Investigating Women's Plus-size Body Measurements and Hip Shape Variation Based on Size USA Data, International Journal of Fashion Design, Technology and Education, 5 (1): 3-12. |
|
|
|
14. Pisut,
G., Connell, L. J., (2007), Fit Preferences of Female Consumers in the USA,
Journal of Fashion Marketing and Management, 11(3): 366–379. |
|
|
|
15. O'Brien, R., Shelton, W. C., (1941), Women's Measurements for Garment and Pattern Construction. Miscellaneous Publication, Washington. |
|
|
|
16.
Czerniawski, A. M., (2015), Fashioning Fat: Inside Plus-Size Modeling, NYU
Press, New York. |
|
|
|
17. Christel, D. A., (2016), The Efficacy of Problem-based Learning of Plus-size Design in the Fashion Curriculum, International Journal of Fashion Design, Technology and Education, 9 (1): 1-8. |
|
|
|
18. Mayo Clinic, Belly Fat in Women: Taking and Keeping It Off, http://www.mayoclinic.org/healthy-lifestyle/womens-health/indepth/belly-fat/art-20045809 (15.06.2017). |
|
|
|
19. Loker,
S., Ashdown, S., Carnrite, E., (2008), Dress in the Third Dimension: Online
Interactivity and Its New Horizons, Clothing and Textiles Research Journal,
26 (2): 164-176. |
|
|
|
20. Dayık, M., Kodaloğlu, M., Güler, Ç., Sivrikaya, D., (2008), 3Boyutlu Vücut Tarama Sistemleri, Tekstil Teknolojileri Elektronik Dergisi, (3): 59-76. |
|
|
|
21. Dikkaya, Ö. G., (2010), Innovative Clothing Design Through the Use of Advanced Textiles in Formation of Fashion Sportswear. Master Thesis, İzmir University of Economics, Design StudiesMDes., İzmir. |
|
|
|
22. O'Mahony, M., Braddock, S. E., (2002), Sportstech: Revolutionary Fabrics, Fashion and Design, Thames & Hudson Ltd., London. |
Kaynaklar
1. Zhong,
Y. ve Xu, B., (2009), Three- Dimensional Garment Dressing Simulation,
Textiles Research Journal, 79 (9), 792- 803s. |
|
|
|
2. Luible, C. ve Magnenat-Thalmann, N., (2007), "Suitability of standard fabric characterisation experiments for the use in virtual simulations", MIRA Lab, University of Geneva, Switzerland. Proceedings: Autex 2007 Conference, Tampere, Finland, June2007. |
|
|
|
3. Iqbal, M.A., (2013), Virtual Product Development and Management Opportunities in Fashion Industry, Master of Science Thesis, Tampere University of Technology. |
|
|
|
4. Bond, T., (2008), Computerised Patern Making in Garment Production. Advances in Apparel Production, Woodhead Publishing Ltd. Cambridge, England, 140- 153s. |
|
|
|
5. Istook, C. L., (2008), Three Dimensional Body Scanning to Improve Fit. Advances in Apparel Production, Woodhead Publishing Ltd. Cambridge, England, 94- 116s. |
|
|
|
6. Power, J., (2013), Fabric objective measurements for commercial 3D virtual garment simulation, International Journal of Clothing Science and Technology, Cilt. 25, No. 6, 423-439s. |
|
|
|
7. Hunter, L. ve Fan, J., (2004), Fabric properties related to clothing appearance and fit. Clothing Appearance and Fit: Science and Technology, The Textile Instıtute, 89-113s. |
|
|
|
8. Ly, G.
N., Tester, H. D., Buckenham, P., Roczniok, F. A., Adriaansen, L. A.,
Scaysbrook, F. ve Jong De S. (1991), Simple Instrument for quality control by
finishers and tailors, Textile Research Journal, 61 (7), 402-406s. |
|
|
|
9. Başer, G., (2013), Tekstil Mekaniğinin Temellleri Cilt II: Kumaş Geometrisi ve Mekaniği. Meta Basım Maatbacılık, İzmir. |
|
|
|
10. Zheng,
J., Komatsu, T., Yazaki, Y., Takatera, M., Inui, S. ve Shimizu Y., (2006),
Evaluating Shear Rigidity of Woven Fabrics. Textile Research Journal, Vol
76(2), 145-151s. |
|
|
|
11. Domskiene, J. ve Strazdiene, E., (2005), Investigation of fabric shear behaviour, Fibres&Textiles in Eastern Europe, Vol 13, No:2 (50), 26-30s. |
|
|
|
12. Morner,
B. ve Eeg-Olofsson, T., (1957), Measurement of the shearing properties of
fabrics., Textile Research Journal, 611- 615s. |
|
|
|
13. Browzwear (2010) Kullanım Klavuzu. |
|
|
|
14. Stjepanovic, Z., Pilar, T., Rudolf, A. ve Jevsnik, S., (2012), 3D Virtual Prototyping of Clothing Products, Innovations in clothing technology & measurement techniques, Chapter: 3D virtual prototyping of clothing products. |
|
|
|
15. Wu, Y.Y., Mok, P.Y., Kwok, Y.L, Fan, J.T. ve Xin, J.H. (2011), An Investigation on the Validity of 3D Clothing Simulation for Garment Fit Evaluation, International conference on Innovative Methods in Product Design, 463-468s. |
|
|
|
16. Gürsoy, F., Doğan, S. ve Kılınç, N., (2016), Comparison of the tryons of a garment produced from Rize Fabric (Feretiko) in actual and virtual environments. 7. Uluslararası İstanbul Tekstil Konferansı (BEZCE 2016), 21- 23 Mart 2016, İstanbul. |
|
|
|
17. Jevsnik, S., Pilar, T., Stjepanovic, Z. ve Rudaolf, A. (2012), Virtual Prototyping of Garments and Their Fit to the Body, DAAAM International Scientific Book, 601-618s. |
|
|
|
18. Büyükaslan, E., Jevsnik, S. ve Kalaoğlu, F. (2015), Virtual Fitting of a Skirt on a Parametric and a Scanned Body Model, Marmara Journal of Pure and Applied Sciences, Special Issue-1: 23-26s. |
|
|
|
19.
Ancutiene, K. ve Sinkeviciüte, D., (2011), The Influence of Textile Materials
Mechanical Properties upon Virtual Garment Fit, Materials Science, Vol.17,
No.2, 160-167s. |