sip the feasibility of jackfruit peeling as binder to whiteware plastic mass (1)
TRANSCRIPT
The Feasibility of Jackfruit Peeling as Binder to
Whiteware Plastic MassPrepared by:
Ahmad Johari A. AbbasJeremiah L. Cabili
Introduction Binders have been called the most
important processing additive during ceramic sintering process (firing).
Ceramic binders are quite expensive, reaching from $2000 to $3000 per metric tons and is multiplied since it is imported from other countries.
The researchers plan to produce an alternative binder utilizing jackfruit peeling as the raw material.
Statement of the Problem The study will evaluate the
feasibility of the Jackfruit peeling as an effective raw material in the formulation of alternative ceramic binder to standard whiteware plastic mass.
Scope and Limitation The study will only encompass the
utilization of jackfruit peeling as an ALTERNATIVE CERAMIC BINDER.
Shrinkage (%drying and %firing shrinkage), %loss on ignition and modulus of rupture of the standard whiteware plastic mass formed using the binder utilized from the jackfruit peeling will be determined.
Procedure
300g jackfruit pulp & 350 ml water
Ground (Blender)
1500 ml jackfruit pulp
Strained (Strainer)
1000 ml jackfruit pulp (ready for use)
Figure 1.1 Preparation of Jackfruit Pulp as Binder
ProcedureForming the Plastic Mass using two
different treatments. (Water and jackfruit pulp as binders)
Determination of %firing shrinkage of the test bars in each
of the two treatments
Determination of %drying shrinkage of the test bars in each of the two treatments.
Determination of %loss on ignition of the test bars in each of the two
treatments
Determination of Modulus of Rupture of the test bars in each of the two treatments.Figure 1.2 Experimental
Methodology
Experimentations – Shrinkage and Loss on Ignition Test
Measuring Length using Vernier Caliper
Wieghing of test bars
Experimentations – Modulus of Rupture
Modulus of Rupture Test using Versa Loader with improvised attachments
Results – Shrinkage (WATER)Test Bar Initial
Length (cm)
Oven-dried Length
(cm)
Fired Length
(cm)
%Drying Shrinkage
%Firing Shrinkage
W1 17 15.6 15.5 8.24 0.64W2 17 15.6 15.6 8.24 0.00W3 17 15.5 15.3 8.82 1.29W4 17 15.4 15.3 9.41 0.65W5 17 15.4 15.2 9.41 1.30W6 17 15.5 15.3 8.82 1.29W7 17 15.4 15.1 9.41 1.95W8 17 15.4 15.2 9.41 1.30W9 17 15.4 15.4 9.41 0.00W10 17 15.4 15.3 9.41 0.65W11 17 15.5 15.3 8.82 1.29W12 17 15.5 15.2 8.82 1.94W13 17 15.4 15 9.41 2.60W14 17 15.5 15.4 8.82 0.65
Results – Shrinkage (Jackfruit Pulp)Test Bar Initial
Length (cm)
Oven-dried Length
(cm)
Fired Length
(cm)
%Drying Shrinkage
%Firing Shrinkage
J1 17 15.1 14.7 11.18 2.65J2 17 15.2 14.8 10.59 2.63J3 17 15.2 14.8 10.59 2.63J4 17 15 14.9 11.76 0.67J5 17 15.1 14.9 11.18 1.32J6 17 15.4 15 9.41 2.60J7 17 15.2 14.8 10.59 2.63J8 17 15.4 14.9 9.41 3.25J9 17 15.2 14.8 10.59 2.63J10 17 15.2 14.9 10.59 1.97J11 17 15 14.8 11.76 1.33J12 17 15.2 14.9 10.59 1.97J13 17 15.3 14.8 10.00 3.27J14 17 15.2 15 10.59 1.32
Results - %loss on ignition (WATER)Test Bar Oven-dried
weight (g)Fired
weight (g)%loss on ignition
W1 105.5 97.1 7.96W2 109.7 100.5 8.39W3 104.9 96.2 8.29W4 105.9 97.2 8.22W5 105.1 96.5 8.18W6 106.7 98 8.15W7 103.1 95 7.86W8 107.8 99.1 8.07W9 105.7 96.9 8.33W10 105.9 97.2 8.22W11 106.8 98.1 8.15W12 108.1 99.1 8.33W13 107.7 98.4 8.64W14 108.2 99.2 8.32
Results - %loss on ignition (Jackfruit Pulp) Test Bar Oven-dried
weight (g)Fired
weight (g)%loss on ignition
J1 97.7 87.9 10.03J2 97.8 87.9 10.12J3 99 89.3 9.80J4 97.3 87.8 9.76J5 98.8 89.1 9.82J6 99 89.5 9.60J7 97.2 88.1 9.36J8 101.5 91.9 9.46J9 102.3 92.8 9.29J10 104.3 94.6 9.30J11 106.1 96.2 9.33J12 98.3 88.9 9.56J13 99.4 90.3 9.15J14 101.6 92.1 9.35
Results – Modulus of Rupture (WATER)
Test bar
Force Applied (kg)
Distance between supporting blocks (cm) Width (cm) Height (cm)
Modulus of Rupture(kg/cm2)
W1 46.87 12 2.1 2.1 91.10W2 51.40 12 2.1 2 110.13W3 51.40 12 2.1 2 110.13W4 46.87 12 2 2 105.46W5 46.87 12 2.1 2 100.44W6 46.87 12 2.1 2 100.44W7 46.87 12 2.2 2.1 86.96W8 37.82 12 2.1 2.2 66.98W9 46.87 12 2.1 2.1 91.10W10 46.87 12 2.1 2 100.44W11 46.87 12 2.1 2 100.44W12 46.87 12 2.1 2 100.44W13 55.92 12 2.1 2.1 108.69W14 37.82 12 2 2 85.09
Results – Modulus of Rupture (Jackfruit Pulp)
Test barForce Applied (kg)
Distance between supporting blocks (cm) Width (cm) Height (cm)
Modulus of Rupture(kg/cm2)
J1 42.35 12 2 2.1 86.42J2 37.82 12 2.1 2 81.04J3 37.82 12 2.1 2.1 73.51J4 37.82 12 2.1 2.1 73.51J5 37.82 12 2.2 2.1 70.17J6 37.82 12 2 2 85.09J7 33.29 12 2.1 2 71.35J8 42.35 12 2.1 2.2 74.99J9 46.87 12 2.1 2.1 91.10J10 37.82 12 2.1 2.1 73.51J11 42.35 12 2.1 2.2 74.99J12 37.82 12 2.1 2 81.04J13 42.35 12 2.1 2 90.74J14 37.82 12 2.2 2.2 63.93
Interpretation of Results
The following statistical interpretations are conducted with level of significance (α) set at 0.05
Statistical Tool
T-test was used to compare the two treatments and determine if there is a significant difference between the test bars that were subjected to different experimentations.
Drying Shrinkage
0 1 2 3 4 5 6 7 8 9 10 11 12 13 1402468
101214161820
Dry Shrinkage (water)Dry Shrinkage (Jackfruit)Mean - Dry Shrinkage (water)Mean - Dry Shrinkage
(Drying Shrinkage) Water JackfruitMean 9.03361344537815 10.6302521008403Observations 14 14Hypothesized Difference 0Difference -1.59663865546219p-value (two-tailed at α=0.05)
1.32082324797673E-07
Firing Shrinkage
0 1 2 3 4 5 6 7 8 9 10 11 12 13 140123456789
10
Fire Shrinkage (water)Fire Shrinkage (Jack-fruit)Mean - Fire Shrinkage (water)Mean - Fire Shrinkage (Jackfruit)
(Firing Shrinkage) Water JackfruitMean 1.10958549898642 2.20536523702502Observations 14 14Hypothesized Difference 0Difference -1.0957797380386p-value (two-tailed at α=0.05)
.0008
Loss on Ignition
0 1 2 3 4 5 6 7 8 9 101112131402468
101214161820
Loss on Ignition (water)Loss on Ignition (Jackfruit)Mean - Loss on Ig-nition (water)Mean - Loss on Ig-nition (Jackfruit)
(Loss on Ignition) Water JackfruitMean 8.22045045801021 9.56673283520003Observations 14 14Hypothesized Difference 0Difference -1.34628237718982p-value (two-tailed at α=0.05)
8.57E-14
Modulus of Rupture
(Modulus of Rupture) Water JackfruitMean 96.9882754875716 77.9564091574248Observations 14 14Hypothesized Difference 0Difference 19.0318663301468p-value (two-tailed at α=0.05)
3.75E-05
0 2 4 6 8 10 12 140
20406080
100120140
Modulus of Rupture (water)Modulus of Rupture (Jackfruit)Mean - Modulus of Rupture (water)Mean - Modulus of Rupture (Jackfruit)
The following statistical data states that there are significant differences between the shrinkage, %loss on ignition and modulus of rupture of the test bars formed using water and jackfruit pulp as separate binders.
The %drying and %firing shrinkage of the test bars that use jackfruit pulp as binder was observed to be higher than those of the test bars that use water as binder.
The test bars that use jackfruit pulp as binder have higher %loss on ignition compared to those test bars that use water as binder.
The modulus of rupture of the test bars that use jackfruit pulp as binder was observed to be higher than those of the test bars that use water as binder.
CONCLUSION The experimentations showed that
jackfruit peeling is feasible as an alternative ceramic binder to standard whiteware plastic mass.
However, the data gathered and statistical interpretations showed a low quality ceramic binder regarding the utilization of jackfruit peeling into such.
Recommendations Usage of other organic material similar
to jackfruit as the raw material. Other formulation of the binding
material. Finer binding material with less
particles present.
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