Effect of Fiber Loading on the Dynamic Mechanical Properties of Jute Fiber Reinforced Polypropylene Composites

Jute fiber (woven fabric, 1 × 1 plain weave) reinforced polypropylene matrix composites were prepared by compression molding with various fiber loading such as 30%, 40%, 46%, 50%, 55% by weight. The mechanical properties such as tensile strength (TS), bending strength (BS), tensile modulus (TM), bending modulus (BM) and impact strength (IS) of the composite were assessed and analyzed. The highest value of TS, BS, TM, BM and IS were 68.1 MPa, 94.1 MPa, 2936 MPa, 4831 MPa and 14.5 kJ/m respectively with 50% fiber loading by weight. It was found that the mechanical properties of the composites were increased with the increase in jute fiber content up to 50% by weight; however, further increase in fiber loading the value decreased. On the basis of fiber content, 50% fiber reinforced composites had the optimum set of mechanical properties. Initially the water absorption rate was higher and then it became slower and static with time. Chemical ageing test with various chemical media such as H2O2, NaOH, HCl and NaCl were performed up to 168 hours. After first 24 hours the composite samples showed gradual weight gain (%) and then the weight gain was become slow and steady in the chemical solution.


Introduction
Fiber reinforced polymer matrix composites are versatile in applications with excellent physico-mechanical properties.They are widely used in various applications such as furniture, building materials, automotive industry, civil and military, biomedical and many other applications.Among various natural and synthetic fibers, the demand of natural fibers like jute, hemp, sisal, flax, coir, pineapple etc. are increasing day by day due to their ecofriendly nature and availability in the market [1] [2] [3] [4] [5].Jute is a dominant natural bast fiber in the world market which is mostly produced in Bangladesh and India.The jute fiber has some promising properties like long staple length, excellent tensile properties, low density, nonabrasive nature, low price and very easy to processing.It is a lignocellulosic fiber and main constituents are α-cellulose, hemicelluloses and lignin [2] [4] [6] [7].Jute is extensively used in the production of ropes, sacks, packaging, carpet backings, furnishing fabrics, geotextiles materials and composite materials etc. [8] [9] [10].
Polypropylene (PP) is an amorphous polymer and is extensively used as an engineering thermoplastic due to its various important and convenient features like clarity, dimensional firmness, anti-flame properties, high heat distortion temperature and high impact strength.It can be applicable for filling, reinforcing and blending.The incorporation of PP with natural fibers can be an auspicious way to develop natural-synthetic polymer composites [11] [12] [13].The tensile behavior of jute-PP composite were found with fiber volume percentage of 20% -80% [14]; woven jute fabric-PP commingled composite were studied by Souza et al. [15] and the effectiveness of coupling agents on the mechanical properties of jute/PP composites reported by Khan et al. [16].Ramli et al. [17] studied the consequences of fiber loading, fiber type, its mesh size and coupling agent on the characteristics of oil palm biomass/PP composites.Rahman et al. [18] studied the physico-mechanical characteristics of jute/PP composites.Both raw and oxidized jute fiber was used and four levels of fiber loading were used for composite fabrication such as 20%, 25%, 30%, 35% by weight.On the basis of fiber loading, 30% fiber reinforced composite showed the optimum set of mechanical features.
Kasim [19] investigated the outcome of pineapple leaf fiber (PALF) loading (30% -70% fiber content) on the mechanical characteristics of PALF/PP composites.The best mechanical properties were found for 30/70 wt% PALF/PP composite.Rasel et al. [20] reported the effect of coupling agent and fiber loading on mechanical behavior of chopped jute fiber reinforced PP composites.Morri et al. [21] showed the effect of water environment on jute/PP composites.The weight gain by water absorption was significantly affected by the fiber content.The specimens with the jute fiber content of 30 wt% more easily absorbed water and it reached more than 10%.
The purpose of this study is to fabricate and find out the mechanical properties of jute fabric reinforced PP composites with various fiber loading (weight%).
The water uptake (%) and the resistance in various chemicals of the composites Advances in Chemical Engineering and Science were also analyzed in this work.

Materials
Polypropylene (PP) granules were purchased from Polyolefin Company, Singapore.Jute woven fabric (Hessian Cloth, 1 × 1 plain weave) was used as reinforcement which was collected from the local market of Dhaka, Bangladesh.

Preparation of PP Sheets
PP sheets were fabricated using granules of PP (about 15 g) by placing the granules into two steel plates.The steel plates were then placed into the hot press (Carver, INC, USA, Model 3856).The presses were operated at 180˚C and 5 tons pressure was applied on steel plates for 5 min.Then it was cooled for 5 min in a separate press (cold press) under 5 tons pressure at room temperature.Then, the prepared PP sheets were cut into small pieces of desired dimension for composites fabrication.

Composite Preparation
Jute/PP composites were fabricated by sandwiching pre-weighed layers of jute fabric between the layers of PP sheets.Composites were prepared by pressing this sandwich at 190˚C for 5 minutes under a pressure of 5 tons using Carver Laboratory Press (Carver, INC, USA, Model 3856).After heating and pressing, the mold was cooled in a cooling system using another press.In this way, composite of mold size was prepared.iv) Water Uptake Composites specimens (20 × 10 × 2 mm 2 ) were soaked in a static water bath at 25˚C for various time periods (up to 168 hours).Before immersion in water, the samples were dried in an oven at 105˚C, cooled in a desiccators using silica gel and weighed.After certain periods of time, samples were taken out from the bath and wiped using tissue paper, then weighed.Water uptake was measured by the subtraction from final weight to initial weight.v) Chemical Ageing Test Composites samples were immerged in 20% different types of chemical solution (H 2 O 2 , NaOH, HCl, NaCl) up to 168 hours.After certain periods of time, samples were taken out from the bath and wiped using tissue paper, then weighed.Weight gain or loss percentage was determined by the subtraction from final weight to initial weight.

Mechanical Properties
The influence of jute content on the mechanical features of jute/PP composite was measured and the results are showed in Figures 1-3.The TS and BS of the composites were found to increase on increasing the percentage of jute fiber content in the composites.The higher TS and the BS at 50% jute content were found to be 68.1 and 94.1 MPa respectively.The TM and BM of the composite also followed the same way like TS and BS.The highest TM and BM of the composites were obtained as 2936 and 4831 MPa respectively as shown in Figure 2.
The maximum values of mechanical properties displayed by 50% fiber loading composite may be illustrated in terms of orientation and homogeneity of fibers within the matrix.At this stage, jute fibers get highest level of orientation and mixed homogeneously within the matrix.When the load is applied, stress is uniformly distributed among the fibers.As a result, mechanical properties of the composites obtained highest values.At low fiber content, poor fiber population contributes low load transfer capacity among the fibers.As a result, accumulation of stress occurs at certain points of the composite and strains are also found highly localized in the matrix [22] [23].This contributes poor mechanical properties of the composites at low fiber content.Whereas, at high level of jute contents, Figure 1.Effect of jute fiber loading (wt%) on the TS and BS of jute/PP composites.The impact strength (IS) of a material is its capacity to absorb and dissipate energies under impact or shock loading.IS of the composites were 7.3, 9.0, 13.1, 14.5 11.9 kJ/m 2 for the fiber content of 30%, 40%, 46%, 50% and 55% in the composites respectively as shown in Figure 3 and it was revealed that the IS increases with the increase in fiber content up to 50 wt% (96% improvement than 30 wt% composite) and further it exhibited a declining trend upon fiber addition.It was evident that higher fiber loading increase the probability of fiber agglomeration and it's stress concentration requiring less energy for crack propagation.The maximum IS of the composite increase with fiber content up to 50 wt%.
Generally, the toughness of fiber reinforced polymer composites is dependent on the fiber, the polymer matrix and the interfacial bond strength [28] [29].

Water Uptake (%)
Figure 4 shows the water uptake (%) for jute/PP composite up to 168 hours.At  first, the absorption rate was very high which was 12.5% for first 24 hour, then it steadily increased up to 17.5% till 96 hours and after 168 hours the absorption rate was same due to it reached into the saturation point.
Jute is basically made up of cellulose, which is a hydrophilic glucan polymer.
The elementary unit of jute is anhydro-d-glucose, that carry 3 hydroxyl (-OH) groups.The presence of these -OH groups in the cellulose structure is the main reason for the highly hydrophilic character of jute fiber.Hence, when immersed into water, jute absorbs huge amount of water within first hour [2] [6] [7].
When the composite is immersed into the chemical solution such as acid, alkali or salt solution, the solution penetrates through the matrix and separates out in micro-cracks.On the other hand, the degradation of the fiber/matrix interface is caused by the dehydration of the matrix and penetration of solutions through micro-cracks, crazes or similar voids in the matrix [30] [31] [32].For Hammami and Al-Ghilani [33] the degradation takes place via 2 stages.In the first stage, matrix is attacked under the combined action of water diffusion and the presence of H + .In the second stage the fiber itself is attacked and cracks appeared on the fiber surface.This affects significantly the composite resistance to loading stresses.The absorption of chemical solutions at various periods accelerated the rate of ageing.The outcome of this highly destructive process is evidenced by swelling, discoloration and decrease in the mechanical properties of the composites [34]

Conclusion
Jute/polypropylene composites successfully fabricated with the increase of jute fiber loading by weight (%).It was observed that by the addition of jute content in the composites, the mechanical properties were improved significantly and the maximum improvements were found for 50% jute fiber loading.The addition of fiber weight% on composites increased the mechanical properties up to 50% fiber but after that it showed a decreasing trend.Water absorption and weight gain in different chemical solutions such as alkali, acid and salt were revealed that initially the absorbency was very high and after that the absorption were steady and static with time.Finally, it can be concluded that fiber loading (%) has significant influence on the mechanical properties of jute/polypropylene composites.The proper optimization of these processing parameters can be a better or viable solution of this composite for our domestic applications such as chair, table, fences, decking, bathtub etc.
Composites i) Tensile TestTensile tests were performed according to ASTM Designation: D638-03 using a Universal Testing Machine (model: H50KS-0404, Hounsfield Series S, UK) with a cross-head speed of 10 mm/min at a span distance of 50 mm.The dimensions of the test samples were 120 mm × 15 mm.ii)Bending TestBending tests were conducted according to ISO 14125 methods using the same testing machine mentioned above with a cross-head speed of 60 mm/sec at a span distance of 25 mm.The dimensions of the test specimen were 60 mm × 15 mm.iii)Impact TestThe impact tests were carried out on unnotched mode composite samples according to ASTM D 6110-97 using a Universal Impact Tester (HUNG TA INSTRUMENT CO.LTD., Taiwan), hammer mass of 2.63 kg, gravity distance of 30.68 mm and lift angle of 150˚.

Figure 2 .
Figure 2. Effect of jute fiber loading (wt%) on the TM and BM of jute/PP composites.

Figure 3 .
Figure 3.Effect of jute fiber loading (wt%) on the IS of jute/PP composites.
composites Advances in Chemical Engineering and Science
Advances in Chemical Engineering and Science