Mycrocristalline cellulose
COEI-1-CELMIC Microcristlaline cellulose
INS N°: 460
- Object, origin and field of application
Microcrystalline cellulose is purified cellulose and is partially depolymerised. It comes from the treatment of alpha-cellulose mineral acids from plant fibres. Its molecular weight is approximately 36 000
Microcrystalline cellulose plays an important role in “supporting” very clarified fermentation as it increases the fermentability of the juices.
- Labelling
The concentration of the product must be mentioned on the label and if there is mixing as well as the method of preservation.
- Characteristics
Cellulose is found in microcrystalline powder form. white. odourless and tasteless. It is almost insoluble in water. acetone. ethanol. toluene. diluted acids and in 50 g/l sodium hydroxide solutions.
- Identification
4.1. In a watch glass. put approximately 10 mg of microcrystalline cellulose and add 2 ml of zinc chloride iodated solution (R). The solution turns bluish purple.
4.2. Degree of polymerisation
- Put 1.300 g of microcrystalline cellulose in a 125 ml conical flask. Add 25 ml of water (R) and 25 ml of 1M cupriethylenediamine hydroxide.
- Immediately pass a nitrogen current. Close the flask and mix until completely dissolved.
- For 7 ml of the solution into an appropriate glass capillary viscosimetric tube.
Time how long it takes between two lines on the viscosimeter and express the time measured in (t1). Calculate the kinematic viscosity V1 of the solution using the following formula:
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|
In which k1 is the viscosimeter constant.
Take out an appropriate volume of 1M cupriethylenediamine hydroxide and dilute with the same volume of water. (R). Using an appropriate capillary viscosimeter. determine the time flow of this solution.
Calculate the kinematics viscosity V2 of the solvent using the following formula.
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|
In which k2 is the viscosimeter constant.
Determine the relative viscosity ηrel of the microcrystalline cellulose sample. using the following formula:
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|
Determine the intrinsic viscosity []c by extrapolation. using the intrinsic viscosity table in Annex.
Calculate the degree of polymerisation P. using the formula:
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|
In which m is the mass. in grams of the trial and b is the value obtained in the test trial " loss through drying " in %.
The degree of polymerisation is not over 350.
4.3. pH
- Shake for 20 minutes about 5 g of cellulose in 40 ml of water free of carbon dioxide.
- Centrifuge.
- The pH of the supernatant liquid must be between 5.0 and 7.5.
4.4. Soluble substances in ether
- Prepare a column of 10.0 g of microcrystalline cellulose in a glass tube with an inside diameter of approximately 20 mm.
- Put 50 ml of ether free of peroxides (R). through the column and evaporate the eluate until bone dry.
- The residue should not be above 5.0 mg (0.05%).
4.5. Soluble substances in water
- Mix 5.0 g of microcrystalline cellulose with 80 ml of water (R) for 10 mn.
- Filter in a vacuum and collect the filtrate in a weighed vase.
- Evaporate over a bath of 100° C water until bone dry and dry at 100-105°C for 1 hour.
- The residue is not above 12.5 mg (0.25%).
4.6. Starch
- Add 90 ml of water (R) to 10 g microcrystalline cellulose. and boil for 5 mn.
- Filter when hot.
- Let cool and add 0.1 ml iodine 0.05 M to filtrate.
- There is no blue colouring.
4.7. Loss through drying
- Put 1 g of cellulose in a mass capsule for 3 hours in an incubator at 100-105°C.
- Loss through drying should not be more than 6.0%.
All limits set below refer to the dried product.
4.8. Ashes
- Incinerate at 600 ± 25°C the residue obtained in point 4.7. for 4 hours.
- The mass of the ashes should not be more than 0.1%.
4.9. Preparation of test solution
- After weighing. dissolve the ashes in 2 ml of concentrated hydrochloric acid (R) and 10 ml of water (R).
- Heat to activate the dissolution and fill up to 50 ml with water.
4.10. Iron
Determine iron with an atomic absorption spectrophotometer following the method described in Chapter II into the test solution (4.9).
Iron content must be less than less or equal to 10 mg/kg.
4.11. Lead
Determine the lead according to the method described in Chapter II. into the test solution (4.9).
Lead content must be less than 5 mg/kg.
4.12. Mercury
Determine the mercury according to the method described in Chapter II
Mercury content must be less than 1 mg/kg.
4.13. Cadmium
Determine the cadmium according to the method described in Chapter II. into the test solution (4.9).
Cadmium content must be less than 1 mg/kg.
4.14. Arsenic
Determine the arsenic according to the method described in Chapter II.
Arsenic content must be less than 1 mg/kg.
4.15. Calcium
Determine the calcium with an atomic absorption spectrophotometer. following the method described in Chapter II. into the test solution (4.9).
Calcium content must be less than 500 mg/kg.
5. Storing conditions
Cellulose must be stored in a well-ventilated place in sealed packages away from volatile substances which it might adsorb.
|
Table of instrinsic viscosity |
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|
Intrinsic viscosity. [η]c. according to value of relative viscosity.. ηrel |
||||||||||
|
[η]c |
||||||||||
|
rel |
0.00 |
0.01 |
0.02 |
0.03 |
0.04 |
0.05 |
0.06 |
0.07 |
0.08 |
0.09 |
|
1.1 |
0.098 |
0.106 |
0.115 |
0.125 |
0.134 |
0.143 |
0.152 |
0.161 |
0.170 |
0.180 |
|
1.2 |
0.189 |
0.198 |
0.207 |
0.216 |
0.225 |
0.233 |
0.242 |
0.250 |
0.259 |
0.268 |
|
1.3 |
0.276 |
0.285 |
0.293 |
0.302 |
0.310 |
0.318 |
0.326 |
0.334 |
0.342 |
0.350 |
|
1.4 |
0.358 |
0.367 |
0.375 |
0.383 |
0.391 |
0.399 |
0.407 |
0.414 |
0.422 |
0.430 |
|
1.5 |
0.437 |
0.445 |
0.453 |
0.460 |
0.468 |
0.476 |
0.484 |
0.491 |
0.499 |
0.507 |
|
1.6 |
0.515 |
0.522 |
0.529 |
0.536 |
0.544 |
0.551 |
0.558 |
0.566 |
0.573 |
0.580 |
|
1.7 |
0.587 |
0.595 |
0.602 |
0.608 |
0.615 |
0.622 |
0.629 |
0.636 |
0.642 |
0.649 |
|
1.8 |
0.656 |
0.663 |
0.670 |
0.677 |
0.683 |
0.690 |
0.697 |
0.704 |
0.710 |
0.717 |
|
1.9 |
0.723 |
0.730 |
0.736 |
0.743 |
0.749 |
0.756 |
0.762 |
0.769 |
0.775 |
0.782 |
|
2.0 |
0.788 |
0.795 |
0.802 |
0.809 |
0.815 |
0.821 |
0.827 |
0.833 |
0.840 |
0.846 |
|
2.1 |
0.852 |
0.858 |
0.864 |
0.870 |
0.876 |
0.882 |
0.888 |
0.894 |
0.900 |
0.906 |
|
2.2 |
0.912 |
0.918 |
0.924 |
0.929 |
0.935 |
0.94 1 |
0.948 |
0.953 |
0.959 |
0.965 |
|
2.3 |
0.971 |
0.976 |
0.983 |
0.988 |
0.994 |
1.000 |
1.006 |
1.011 |
1.017 |
1.022 |
|
2.4 |
1.028 |
1.033 |
1.039 |
1.044 |
1.050 |
1.056 |
1.061 |
1.067 |
1.072 |
1.078 |
|
2.5 |
1.083 |
1.089 |
1.094 |
1.100 |
1.105 |
1.111 |
1.116 |
1.121 |
1.126 |
1.131 |
|
2.6 |
1.137 |
1.142 |
1.147 |
1.153 |
1.158 |
1.163 |
1.169 |
1.174 |
1.179 |
1.184 |
|
2.7 |
1.190 |
1.195 |
1.200 |
1.205 |
1.210 |
1.215 |
1.220 |
1.225 |
1.230 |
1.235 |
|
2.8 |
1.240 |
1.245 |
1.250 |
1.255 |
1.260 |
1.265 |
1.270 |
1.275 |
1.280 |
1.285 |
|
2.9 |
1.290 |
1.295 |
1.300 |
1.305 |
1.310 |
1.314 |
1.319 |
1.324 |
1.329 |
1.333 |
|
3.0 |
1.338 |
1.343 |
1.348 |
1.352 |
1.357 |
1.362 |
1.367 |
1.371 |
1.376 |
1.381 |
|
3.1 |
1.386 |
1.390 |
1.395 |
1.400 |
1.405 |
1.409 |
1.414 |
1.418 |
1.423 |
1.427 |
|
3.2 |
1.432 |
1.436 |
1.441 |
1.446 |
1.450 |
1.455 |
1.459 |
1.464 |
1.468 |
1.473 |
|
3.3 |
1.477 |
1.482 |
1.486 |
1.491 |
1.496 |
1.500 |
1.504 |
1.508 |
1.513 |
1.517 |
|
3.4 |
1.521 |
1.525 |
1.529 |
1.533 |
1.537 |
1.542 |
1.546 |
1.550 |
1.554 |
1.558 |
|
3.5 |
1.562 |
1.566 |
1.570 |
1.575 |
1.579 |
1.583 |
1.587 |
1.591 |
1.595 |
1.600 |
|
3.6 |
1;604 |
1.608 |
1.612 |
1.617 |
1.621 |
1.625 |
1.629 |
1.633 |
1.637 |
1.642 |
|
3.7 |
1.646 |
1.650 |
1.654 |
1.658 |
1.662 |
1.666 |
1.671 |
1.675 |
1.679 |
1.683 |
|
3.8 |
1.687 |
1.691 |
1.695 |
1.700 |
1.704 |
1.708 |
1.712 |
1.715 |
1.719 |
1.723 |
|
3.9 |
1.727 |
1.731 |
1.735 |
1.739 |
1.742 |
1.746 |
1.750 |
1.754 |
1.758 |
1.762 |
|
4.0 |
1.765 |
1.769 |
1.773 |
1.777 |
1.781 |
1.785 |
1.789 |
1.792 |
1.796 |
1.800 |
|
4.1 |
1.804 |
1.808 |
1.811 |
1.815 |
1.819 |
1.822 |
1.826 |
1.830 |
1.833 |
1.837 |
|
4.2 |
1.841 |
1.845 |
1.848 |
1.852 |
1.856 |
1.859 |
1.863 |
1.867 |
1.870 |
1.874 |
|
4.3 |
1.878 |
1.882 |
1.885 |
1.889 |
1.893 |
1.896 |
1.900 |
1.904 |
1.907 |
1.911 |
|
4.4 |
1.914 |
1.918 |
1.921 |
1.925 |
1.929 |
1.932 |
1.936 |
1.939 |
1.943 |
1.946 |
|
4.5 |
1.950 |
1.954 |
1.957 |
1.961 |
1.964 |
1.968 |
1.971 |
1.975 |
1.979 |
1.982 |
|
4.6 |
1.986 |
1.989 |
1.993 |
1.996 |
2.000 |
2.003 |
2.007 |
2.010 |
2.013 |
2.017 |
|
4.7 |
2.020 |
2.023 |
2.027 |
2.030 |
2.033 |
2.037 |
2.040 |
2.043 |
2.047 |
2.050 |
|
4.8 |
2.053 |
2.057 |
2.060 |
2.063 |
2.067 |
2.070 |
2.073 |
2.077 |
2.080 |
2.083 |
|
4.9 |
2.087 |
2.090 |
2.093 |
2.097 |
2.100 |
2.103 |
2.107 |
2.110 |
2.113 |
2.116 |
|
5.0 |
2.119 |
2.122 |
2.125 |
2.129 |
2.132 |
2.135 |
2.139 |
2.142 |
2.145 |
2.148 |
|
5.1 |
2.151 |
2.154 |
2.158 |
2.160 |
2.164 |
2.167 |
2.170 |
2.173 |
2.176 |
2.180 |
|
5.2 |
2.183 |
2.186 |
2.190 |
2.192 |
2.195 |
2.197 |
2.200 |
2.203 |
2.206 |
2.209 |
|
5.3 |
2.212 |
2.215 |
2.218 |
2.221 |
2.224 |
2.227 |
2.230 |
2.233 |
2.236 |
2.240 |
|
5.4 |
2.243 |
2.246 |
2.249 |
2.252 |
2.255 |
2.258 |
2.261 |
2.264 |
2.267 |
2.270 |
|
5.5 |
2.273 |
2.276 |
2.279 |
2.282 |
2.285 |
2.288 |
2.291 |
2.294 |
2.297 |
2.300 |
|
5.6 |
2.303 |
2.306 |
2.309 |
2.312 |
2.315 |
2.318 |
2.320 |
2.324 |
2.326 |
2.329 |
|
5.7 |
2.332 |
2.335 |
2.338 |
2.341 |
2.344 |
2.347 |
2.350 |
2.353 |
2.355 |
2.358 |
|
5.8 |
2.361 |
2.364 |
2.367 |
2.370 |
2.373 |
2.376 |
2.379 |
2.382 |
2.384 |
2.387 |
|
5.9 |
2.390 |
2.393 |
2.396 |
2.400 |
2.403 |
2.405 |
2.408 |
2.411 |
2.414 |
2.417 |
|
6.0 |
2.419 |
2.422 |
2.425 |
2.428 |
2.431 |
2.433 |
2.436 |
2.439 |
2.442 |
2.444 |
|
6.1 |
2.447 |
2.450 |
2.453 |
2.456 |
2.458 |
2.461 |
2.464 |
2.467 |
2.470 |
2.472 |
|
6.2 |
2.475 |
2.478 |
2.481 |
2.483 |
2.486 |
2.489 |
2.492 |
2.494 |
2.497 |
2.500 |
|
6.3 |
2.503 |
2.505 |
2.508 |
2.511 |
2.513 |
2.516 |
2.518 |
2.52 1 |
2.524 |
2.526 |
|
6.4 |
2.529 |
2.532 |
2.534 |
2.537 |
2.540 |
2.542 |
2.545 |
2.547 |
2.550 |
2.553 |
|
6.5 |
2.555 |
2.558 |
2.561 |
2.563 |
2.566 |
2.568 |
2.571 |
2.574 |
2.576 |
2.579 |
|
6.6 |
2.581 |
2.584 |
2.587 |
2.590 |
2.592 |
2.595 |
2.597 |
2.600 |
2.603 |
2.605 |
|
6.7 |
2.608 |
2.610 |
2.613 |
2.615 |
2.618 |
2.620 |
2.623 |
2.625 |
2.627 |
2.630 |
|
6.8 |
2.633 |
2.635 |
2.637 |
2.640 |
2.643 |
2.645 |
2.648 |
2.650 |
2.653 |
2.655 |
|
6.9 |
2.658 |
2.660 |
2.663 |
2.665 |
2.668 |
2.670 |
2.673 |
2.675 |
2.678 |
2.680 |
|
7.0 |
2.683 |
2.685 |
2.687 |
2.690 |
2.693 |
2.695 |
2.698 |
2.700 |
2.702 |
2.705 |
|
7.1 |
2.707 |
2.710 |
2.712 |
2.714 |
2.717 |
2.719 |
2.721 |
2.724 |
2.726 |
2.729 |
|
7.2 |
2.731 |
2.733 |
2.736 |
2.738 |
2.740 |
2.743 |
2.745 |
2.748 |
2.750 |
2.752 |
|
7.3 |
2.755 |
2.757 |
2.760 |
2.762 |
2.764 |
2.767 |
2.769 |
2.771 |
2.774 |
2.776 |
|
7.4 |
2.779 |
2.781 |
2.783 |
2.786 |
2.788 |
2.790 |
2.793 |
2.795 |
2.798 |
2.800 |
|
7.5 |
2.802 |
2.805 |
2.807 |
2.809 |
2.812 |
2.814 |
2.816 |
2.819 |
2.821 |
2.823 |
|
7.6 |
2.826 |
2.828 |
2.830 |
2.833 |
2.835 |
2.837 |
2.840 |
2.842 |
2.844 |
2.847 |
|
7.7 |
2.849 |
2.851 |
2.854 |
2.856 |
2.858 |
2.860 |
2.863 |
2.865 |
2.868 |
2.870 |
|
7.8 |
2.873 |
2.875 |
2.877 |
2.879 |
2.881 |
2.884 |
2.887 |
2.889 |
2.891 |
2.893 |
|
7.9 |
2.895 |
2.898 |
2.900 |
2.902 |
2.905 |
2.907 |
2.909 |
2.911 |
2.913 |
2.915 |
|
8.0 |
2.918 |
2.920 |
2.922 |
2.924 |
2.926 |
2.928 |
2.931 |
2.933 |
2.935 |
2.937 |
|
8.1 |
2.939 |
2.942 |
2.944 |
2.946 |
2.948 |
2.950 |
2.952 |
2.955 |
2.957 |
2.959 |
|
8.2 |
2.961 |
2.963 |
2.966 |
2.968 |
2.970 |
2.972 |
2.974 |
2.976 |
2.979 |
2.981 |
|
8.3 |
2.983 |
2.985 |
2.987 |
2.990 |
2.992 |
2.994 |
2.996 |
2.998 |
3.000 |
3.002 |
|
8.4 |
3.004 |
3.006 |
3.008 |
3.010 |
3.012 |
3.015 |
3.017 |
3.019 |
3.021 |
3.023 |
|
8.5 |
3.025 |
3.027 |
3.029 |
3.031 |
3.033 |
3.035 |
3.037 |
3.040 |
3.042 |
3.044 |
|
8.6 |
3.046 |
3.048 |
3.050 |
3.052 |
3.054 |
3.056 |
3.058 |
3.060 |
3.062 |
3.064 |
|
8.7 |
3.067 |
3.069 |
3.071 |
3.073 |
3.075 |
3.077 |
3.079 |
3.081 |
3.083 |
3.085 |
|
8.8 |
3.087 |
3.089 |
3.092 |
3.094 |
3.096 |
3.098 |
3.100 |
3.102 |
3.104 |
3.106 |
|
8.9 |
3.108 |
3.110 |
3.112 |
3.114 |
3.116 |
3.118 |
3.120 |
3.122 |
3.124 |
3.126 |
|
9.0 |
3.128 |
3.130 |
3.132 |
3.134 |
3.136 |
3.138 |
3.140 |
3.142 |
3.144 |
3.146 |
|
9.1 |
3.148 |
3.150 |
3.152 |
3.154 |
3.156 |
3.158 |
3.160 |
3.162 |
3.164 |
3.166 |
|
9.2 |
3.168 |
3.170 |
3.172 |
3.174 |
3.176 |
3.178 |
3.180 |
3.182 |
3.184 |
3.186 |
|
9.3 |
3.188 |
3.190 |
3.192 |
3.194 |
3.196 |
3.198 |
3.200 |
3.202 |
3.204 |
3.206 |
|
9.4 |
3.208 |
3.210 |
3.212 |
3.214 |
3.215 |
3.217 |
3.219 |
3.221 |
3.223 |
3.225 |
|
9.5 |
3.227 |
3.229 |
3.231 |
3.233 |
3.235 |
3.237 |
3.239 |
3.241 |
3.242 |
3.244 |
|
9.6 |
3.246 |
3.248 |
3.250 |
3.252 |
3.254 |
3.256 |
3.258 |
3.260 |
3.262 |
3.264 |
|
9.7 |
3.266 |
3.268 |
3.269 |
3.271 |
3.273 |
3.275 |
3.277 |
3.279 |
3.281 |
3.283 |
|
9.8 |
3.285 |
3.287 |
3.289 |
3.291 |
3.293 |
3.295 |
3.297 |
3.298 |
3.300 |
3.302 |
|
9.9 |
3.304 |
3.305 |
3.307 |
3.309 |
3.311 |
3.313 |
3.316 |
3.318 |
3.320 |
3.321 |
|
10 |
3.32 |
3.34 |
3.36 |
3.37 |
3.39 |
3.41 |
3.43 |
3.45 |
3.46 |
3.48 |
|
11 |
3.50 |
3.52 |
3.53 |
3.55 |
3.56 |
3.58 |
3.60 |
3.61 |
3.63 |
3.64 |
|
12 |
3.66 |
3.68 |
3.69 |
3.71 |
3.72 |
3.74 |
3.76 |
3.77 |
3.79 |
3.80 |
|
13 |
3.80 |
3.83 |
3.85 |
3.86 |
3.88 |
3.89 |
3.90 |
3.92 |
3.93 |
3.95 |
|
14 |
3.96 |
3.97 |
3.99 |
4.00 |
4.02 |
4.03 |
4.04 |
4.06 |
4.07 |
4.09 |
|
15 |
4.10 |
4.11 |
4.13 |
4.14 |
4.15 |
4.17 |
4.18 |
4.19 |
4.20 |
4.22 |
|
16 |
4.23 |
4.24 |
4.25 |
4.27 |
4.28 |
4.29 |
4.30 |
4.31 |
4.33 |
4.34 |
|
17 |
4.35 |
4.36 |
4.37 |
4.38 |
4.39 |
4.41 |
4.42 |
4.43 |
4.44 |
4.45 |
|
18 |
4.46 |
4.47 |
4.48 |
4.49 |
4.50 |
4.52 |
4.53 |
4.54 |
4.55 |
4.56 |
|
19 |
4.57 |
4.58 |
4.59 |
4.60 |
4.61 |
4.62 |
4.63 |
4.64 |
4.65 |
4.66 |