In this study, in cotton factories located in
Kahramanmaraş, waste cotton fibers which are not suitable for cellulose fiber
yarns called “air particle vacuum dust” (APVD) have been evaluated. For this
purpose, the waste was firstly washed with tap water and then, boiled at 90 °C
with 17.5% NaOH. This batch was bleached at 90 oC by H2O2
in basic solution without drying. The cellulose obtained was then mercerized by
NaOH in cold temperature. Hydroxypropylmethyl cellulose which has three
different substitution degree [high (HPMC-H), medium (HPMC-M) and low (HPMC-L)]
was then synthesized with propyleneoxide (PO) and methylchloride in the
heterogeneous reaction media. The structures of the synthesized HPMCs were
characterized by FT-IR and XRD. Thermal behaviors of HPMCs were investigated by
the DTA-TG method and their surface morphology was analyzed by the SEM method.
The viscosities of HPMCs samples were determined and to be the highest 820 cP.
Bu çalışmada, Kahramanmaraş’ta bulunan tekstil fabrikalarında atık olarak çıkan ve
“klima toz”u (APVD) olarak
adlandırılan selüloz içerikli iplik olmaya elverişsiz pamuk lifleri
değerlendirilmiştir. Bu amaçla, ilk olarak atık klima tozu musluk suyu ile
yığın halinde yıkanarak % 17,5’luk NaOH ile 90 oC’de pişirilmiştir.
Bu yığın kurutulmadan NaOH ve H2O2 ile 90 oC’de
ağartılmıştır. Sonra elde edilen selüloz NaOH ile soğuk ortamda merserize
edilmiştir. Daha sonra selülozunun, propilenoksit (PO) ve metilklorür ile
heterojen reaksiyonundan, yüksek (HPMC-H), orta (HPMC-M) ve düşük (HPMC-L)
sübsitasyon derecesine sahip üç farklı hidroksipropilmetil selüloz (HPMC)
sentezlen-miştir. Sentezlenen HPMC’lerin yapıları FT-IR ve XRD spektroskopisi
ile aydınlatılarak DTA-TG ile termal davranışları, SEM ile yüzey morfolojileri
incelenmiştir. HPMC örneklerinin viskoziteleri tayin edilip en yüksek değer 820 cP olarak bulunmuştur.
Subjects | Environmental Engineering |
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Journal Section | Research Articles |
Authors | |
Publication Date | December 27, 2017 |
Submission Date | November 17, 2017 |
Published in Issue | Year 2017 |