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Synthesis and study of MPNS/SMA nano-compositetanning agent
Hui Pan *, Mei Qi, Zhi Jun Zhang
Laboratory of Special Functional Material, Henan University,
Kaifeng 475004, PR China
Received 22 October 2007
Abstract
The radical polymerization of maleic anhydride (MA), styrene
(ST) with the vinyl groups introduced onto the surface of the
nano-sized silica via solution polymerization method was
developed. The methacryloxypropyl nano-sized silica (MPNS) was
used
as macromonomer and polymerized with maleic anhydride and
styrene by initiating with BPO in toluene. The structure and
properties of MPNS/SMA nano-composite were characterized by
FT-IR spectra and TEM. Meanwhile, it was applied as tanning
agent compared with the traditional styrenemaleic anhydride
copolymer in leather. It was found that the applied leather had
better
quality characteristics with the addition of the nano-sized
silica.
# 2008 Hui Pan. Published by Elsevier B.V. on behalf of Chinese
Chemical Society. All rights reserved.
Keywords: Nano-composite; Tanning agent; Polymerization;
Leather
The styrenemaleic anhydride copolymer tanning agents have been
studied a great deal by technologists and
chemists all over the world since the 1970s.The copolymers have
been utilized for filling of the tanning and retanning
in the manufacture of leather. It has been found that they have
good quality characteristics such as fullness, softness
and grain effects [1]. However, there are few literatures on
polymeric nano-composites composed of styrene and
maleic anhydride for making leather in recent years.
As is well known, the nano-composites derived from nano-sized
inorganic particles and organic compounds are
promising new functional materials exhibiting specific
properties [2,3], such as quantum effects. If the nano-sized
silica particles are dispersed equably and adequately into the
resinic materials, the capabilities of the resins will
be improved comprehensively due to their small granularities and
high activities [46]. The intensities, the
abrasion and the ageing resistant qualities of the materials can
be enhanced evidently. For example, the
transparence, intensity, tenacity and ageing resistance of the
PST plastic film will be increased with the additionof nano-sized
silica.
In this paper, we have synthesized a new nano-composite material
MPNS/SMA and explored its application in the
tannage of the sides of sheep skin. The application test shows
that the nano-composite induces the higher shrinkage
temperature and more increased thickness compared with the
traditional SMA copolymer after tanning and retanning.
So this is a new type polymeric nano-composite tanning agent
with a wide prospect [7].
www.elsevier.com/locate/cclet
Available online at www.sciencedirect.com
Chinese Chemical Letters 19 (2008) 435437
* Corresponding author.
E-mail address: [email protected] (H. Pan).
1001-8417/$ see front matter # 2008 Hui Pan. Published by
Elsevier B.V. on behalf of Chinese Chemical Society. All rights
reserved.
doi:10.1016/j.cclet.2008.01.011
mailto:[email protected]://dx.doi.org/10.1016/j.cclet.2008.01.011http://dx.doi.org/10.1016/j.cclet.2008.01.011mailto:[email protected]
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MPNS was synthesized by our laboratory. The prepare procedure of
MPNS/SMA was described as follows: MPNS,
ST, MA and dried toluene were charged into a four-neck 250 mL
flask, and the mixture was dispersed with ultrasonic
vibrations for 15 min. Then the mixture was heated to 55 8C and
BPO dissolved in toluene was dropped tardily and
continuously within 30 min at this temperature. After that, the
mixture was heated to 75 8C and stirred for 2 h at this
temperature. Then the mixture was stirred at 85 8C for another 3
h. After cooling the precipitate was filtered and dried
in vacuum at room temperature. The resulting product was
neutralized with 5% sodium hydrate solution. The final
product is a pale yellow viscous solution.
The FT-IR spectra of MPNS/SMA nano-composite (Fig. 1a), MPNS
(Fig. 1b) and the poly(STMA) (Fig. 1c) are
shown in Fig. 1. The bands, 1100 cm1 of SiOC group, 1698 cm1 of
C O, 1652 cm1 of C C group in the
spectrum of MPNS. The bands of 703 cm1, 758 cm1, 1856 cm1, 1778
cm1 and 1089 cm1of SiOC group in the
spectrum of MPNS/SMA were the testimonies of the success of the
polymerization of ST, MA and MPNS.In order to study the tanning
suitability of MPNS/SMA nano-composite, it has been used both in
tanning and
retanning. It is advantageous in the level of application
compared with the typical tanning agent of SMA copolymer.
The results of the trials are shown inTable 1. Table 1 shows
that MPNS/SMA nano-composite possesses better tanning
and retanning properties than SMA copolymer. The shrinkage
temperature of pickled sheep skin can be increased by
17 8C after tanning with MPNS/SMA, which indicates MPNS/SMA
combines firmly with collagen. But the
temperature increment begins to reduce with the addition of
MPNS, the value reaches the maximum when MPNS
content is 3% in polymer. The nano-composite gives the highest
value of 70% increase in thickness showing the filling
capacity and its use as a tanning filling agent. It is also
interesting that the increased thickness reduces evidently with
the increasing MPNS. This is probably that the more
nanoparticles block the pores embedded the surface of leather
and
permeate the leather not easily, so the tanning effect is
reduced obviously with the increasing concent of MPNS.
The SEM photographs of pickled sheep skin (a) and the tanned
leather by MPNS/SMA nano-composite (b) are
shown in Fig. 2. It is observed that the fasciculus of the
tanned leather become unwound after the tanning agents
H. Pan et al. / Chinese Chemical Letters 19 (2008) 435437436
Table 1
Effects of tanning and retanning leather
MPNS content in polymer (%) Increase in shrinkage
temperature, DTs (8C)
Increased thickness (%)
Tanning Retanning Tanning Retanning
SMA 0 11 3 40.4 27.8
MPNS/SMA-1# 3 17 11 70.0 45.7
MPNS/SMA-2# 5 8 7 35.1 33.3
MPNS/SMA-3# 7 6 4 6.5 2.1
Fig. 1. FT-IR spectra of (a) MPNS/SMA, (b) MPNS and (c) SMA.
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permeated the fasciculus. This indicates that the product has
certain properties of filling and tanning. That is
determined that the leather has better characteristics of
chubbiness and increased thickness after tanning by MPNS/
SMA nano-composite.
As shown in Fig. 3, the fasciculus of MPNS/SMA retanning leather
(b) is thinner, curls more greatly and twistedmore loosely than the
chrome tanning leather (a). Also the fibre disperses all the
better. This shows that the nano-
composite can penetrate into the collagen fibre to reduce the
inner friction, then the segment motion becomes more
easily.
In conclusion, a facile preparation procedure of styrene and
maleic anhydride grafted onto the surface of the
methacryloxypropyl nano-sized silica via radical polymerization
was developed. The applied test showed that the
shrinkage temperature and the thickness of the leather tanned by
MPNS/SMA were evidently improved compared with
SMA. So it is expected to be a new nano-composite tanning agent
and used as filler for tanning and retanning leather.
Acknowledgment
The authors thank the Leather Engineering College of Shaanxi
University of Science & Technology for the
assistance of the experiments.
References
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5 (1983) 1.
[2] K. Yoshinaga, Y. Tani, Y. Tanaka, Colloid Polym. Sci. 280
(2002) 85.
[3] E. Bourgeat-Lami, J. Lang, J. Colloid Interface Sci. 197
(1998) 293.
[4] S. Forster, M. Antonietti, Adv. Mater. 3 (1998) 195.
[5] P. Liu, J. Tian, W.M. Liu, Q.J. Xue, Mat. Res. Innovat. 7
(2003) 105.
[6] K. Yoshinaga, J. Shimada, H. Nishida, M. Komatsu, J. Colloid
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[7] J.Z. Ma, X.J. Chen, Y. Chu, Z.S. Yang, J. Soc. Leather Tech.
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437
Fig. 2. SEM images of (a) the pickled sheep skin and (b) the
tanned leather.
Fig. 3. SEM images of (a) the chrome tanning leather and (b) the
retanning leather.
