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Product Code: RXSOL-12-1773-025
Product Code: RXSOL-12-1772-025
Product Code: RXSOL-12-1771-025
| Specification | Typical Values |
| Color | : White |
| Total Fatty Matter (%) | : 78 Min |
| Moisture (%) | : 14 Max |
| Free Fatty Acid % ( as Palmitic ) | : 1.5 Max |
| Sodium Chloride % ( as NaCl) | : 0.3-0.7 |
| Glycerine (%) | : 1 Max |
| Titre (oC) | : 46 Max |
| Chelating Agent | : Present |
Product Code: RXSOL-54-5408-025
Product Code: RXSOL-12-1780-250
|
Item |
Specification |
||
|
95% |
92% |
30% |
|
|
Appearance 25`c |
White to yellowish powder of needle |
White to yellowish powder to needle |
Colorless to yellowish transparent liquid |
|
Odor |
Characteristic odor |
Characteristic odor |
Characteristic odor |
|
Active matter, % |
95.0 min |
92.0 max |
30+1 |
|
Petroleum ether soluble substance, % |
1.5 max. |
1.5 max. |
1.5 max. |
|
Sodium sulfate, % |
3.0 max. |
5.0 max. |
1.0 max. |
|
pH value (25`C , 1% Am.aq.sol) |
7.5-9.5 |
7.5.9.5 |
7.5.9.5 |
|
Color, Hazen (5%Am.aq.sol) |
10 max. |
10 max. |
10 max. |
|
Water content,% |
3.0 max. |
5.0 max |
/ |
Sodium dodecyl sulfate is an organic sodium salt that is the sodium salt of dodecyl hydrogen sulfate. It has a role as a detergent and a protein denaturant. It contains a dodecyl sulfate.
Product Code: RXSOL-61-1197-030
| PRODUCT NAME | : | GLYCERINE |
| CAS number | : | 56-81-5 |
| UN number | : | |
| Formula | : | C3H8O3 |
| Odour | : | ODOURLESS |
| Solubility in water | : | COMPLETE |
| Density | : | 1.26 at 20 oC |
| Boiling point | : | 290oC |
| Melting point | : | 18 oC |
| Viscosity | : | 2.33 cp at 15 oC |
| Flashpoint | : | 160 oC |
| Explosive limits | : | 0.9 - ? Vol% |
| Vapour pressure | : | .01 mbar at 50 oC |
| Skin absorption/irritation | : | YES |
| TLV Country NL Year 1995 | : | ppm 10 mg/m3 |
| Pollution category 1994 | : |
III |
Product Code: RXSOL-60-6109-025
| Odour | : | Odourless |
| Taste | : | Sweetish, astringent. |
| Appereance | : | Solid/Powder/Crystal |
| Molecular Weight | : | 158.03 g/mole |
| pH (1% soln/water) | : | Not available |
| Boiling Point | : | Not available |
| Melting Point | : | Decomposes. |
| Critical Temperature | : | Not available. |
| Specific Gravity | : | 2.7 @ 15 C (Water = 1) |
| Solubility | : |
Easily soluble in methanol, acetone. Partially soluble in cold water, hot water. Soluble in Sulfuric Acid. |
Drinking Water treatment with Potassium Permagnate ::: http://www.dubichem.com/Drinking-Water-treatment-with-Potassium-Permagnate
Proceed with caution, however. The information provided in this article is intended for emergency situations only. Caution should be exercised when using any of the following information.
Potassium permanganate will start a fire when mixed with a couple of different compounds. Glycerin is the most common, but antifreeze will also do the trick. Antifreeze seems to create a reaction that is a little more violent. Be very careful when using either. The reaction is not always immediate. It can take several seconds for the reaction to start a fire – let it be.
After gathering all the necessary fire tinder and large pieces of wood to keep your fire going, place a teaspoon of Potassium permanganate on a flat surface. Carefully add the same amount of Glycerine or Antifreeze evenly on top of your pile. Next, stand back a couple of feet and wait at the ready with your tinder.
Mix sugar in with the Glycerin before adding to your Condy’s Crystals, and you’ll get a decent signal smoke.
For water purification, its use is relatively straight forward. First, if there is any sediment in the water, strain it out. Then add 3 – 4 crystals per liter of water. Stir or shake for a few seconds then let sit for 2 hours. The water should be a light pink (a concentration of 1:10,000) – no darker.
Here are some proportions for killing the different nasty organisms that can find their way into water:
Bacteria requires a minimum of 2.5mg per liter of water.
Viruses require a minimum of 50mg (close to danger levels) per liter.
Potassium permanganate can become toxic in high concentrations, just like anything. The lowest recorded instance of a person poisoned was 100mg per kilogram of body weight. That said, the LD50 scale for Potassium permanganate is 1900mg per kilogram of body weight.
Just remember, as long as it is pink – it’s probably ok to drink.
To use as an antiseptic, anti-fungal treatment, or emergency snow signal, add crystals one by one until the solution turns purple. Shake and use to flush out a wound, soak a fungal infection, or to leave a message in the snow.
Don’t eat snow marked in yellow – just saying.
Ideally, Potassium permanganate should be stored in a nonreactive plastic bottle with a Teflon coated cap. Most plastic bottles and non-coated caps should be fine.
Potassium permanganate is not a perfect option for any of the above-listed purposes. If other more convention options are available – use them first. What it does do is offer another option should you find yourself with it as your only resource.
Product Code: RXSOL-19-1775-025
Magnesium Carboxylate complexes containing intramolecular NH···O hydrogen bonds were synthesized.
Molecular structures of Magnesium Carboxylate were determined by X-ray analysis. A direct NH···O hydrogen bond to the coordinated oxygen atom elongated the Mg–O bond, while a hydrogen bond to the carbonyl group shortened the Mg–O bond. Double NH···O hydrogen bonds significantly lowered the basicity of the carboxylate anion and prevented coordination to the Mg ion in a trans configuration; however, a cis-dicarboxylate complex was successfully obtained. Strong coordination of water to the Mg2+ ion stabilizes the weak Mg–carboxylate bond at the trans position. In contrast, a weak Mg–carboxylate bond strengthens the Mg–O(water) bond, probably increasing the acidity. Based on the experimental results and theoretical calculations, a new switching mechanism is proposed. In the proposed mechanism, the acidity of the coordinated water on magnesium is controlled during catalytic hydrolysis in endonuclease.
Product Code: RXSOL-31-1556-025
Product Code: RXSOL-60-6052-002
Product Code: RXSOL-19-1228-185
Certificate of Analysis
Product Name: Amyl Acetate - >=99%, FG
| TEST | SPECIFICATION | RESULT |
| APPEARANCE (COLOR) | COLORLESS | COLORLESS |
| APPEARANCE (FORM) | LIQUID | LIQUID |
| PURITY (GC AREA %) | ≥ 99.0 % | 99.2 % |
| INFRARED SPECTRUM | CONFORMS TO STRUCTURE | 1.402 |
| ARSENIC (ICP) | ≤ 3 PPM | CONFORMS |
| CADMIUM (ICP) | ≤ 1 PPM | < 1 PPM |
| MERCURY (ICP) | ≤ 1 PPM | < 1 PPM |
| LEAD (ICP) | ≤ 10 PPM | < 1 PPM |
| REFRACTIVE INDEX N20/D | 1.400 - 1.404 | 1.402 |
Product Code: RXSOL-24-1461-225
| PRODUCT NAME | : | AMINE based pH Neutralizer |
| Formula | : | (HOC2H4)3N |
| Odour | : | SLIGHTLY AMMONIACAL |
| Solubility in Water | : | COMPLETE |
| Density | : | More than 1 at 20 oC |
| Boiling point | : | 360 oC |
| Melting point | : | 21 oC |
| Flashpoint | : | 190 oC |
| Explosive limits | : | 1.2 - Vol% |
| Vapour pressure | : | .03 mbar at 20 oC |
| Skin absorption/irritation | : | YES |
| TLV Country NL Year 1995 | : | |
| Pollution category 1994 | : | D |
If RXH is not acid enough to release a proton at alkaline pH, as it is the case with amines, then the reaction has to be carried out in two steps. During the first step the first EO mole is added at acid pH, so that the amine is transformed in ammonium. The reaction produce the mono-, di- and tri-ethanol amines.
Proton release from ammonium NH4+ → NH3 + H+ (here RX- is NH3) Then, the three condensation reactions:
NH3 + EO → NH2CH2CH2OH (mono-ethanol amine MEA)
NH2CH2CH2OH + EO → NH(CH2CH2OH)2 (di-ethanol amine DEA)
NH-(CH2CH2OH)2 + EO → N(CH2CH2OH)3 (tri-ethanol amine TEA)
With an alkyl amine, first the alkyl ammoniumion is formed and it is deprotonated:
RNH3+ → RNH2 + H+ (here RX- is RNH2)
RNH2 + EO → RNH-CH2CH2OH (mono-ethanol alkyl amine)
RNH-CH2CH2OH + EO → RN(CH2CH2OH)2 (di-ethanol alkyl amine)
Once the ethanol amine is attained, the EO polycondensation is carried out at alkaline pH as previously. In many instance the first ethoxylation is stopped when the monoethanol alkyl amine is formed in order to avoid the polycondensation in more than one chain.
| PRODUCT NAME | : | TRI ETHANOL AMINE |
| CAS number | : | 102-71-6 |
| UN number | : | |
| Formula | : | (HOC2H4)3N |
| Odour | : | SLIGHTLY AMMONIACAL |
| Solubility in water | : | COMPLETE |
| Density | : | 1.13 at 20 oC |
| Boiling point | : | 360 oC |
| Melting point | : | 21 oC |
| Viscosity | : | |
| Flashpoint | : | 190 oC |
| Explosive limits | : | 1.2 - ? Vol% |
| Vapour pressure | : | .03 mbar at 20 oC |
| Skin absorption/irritation | : | YES |
| TLV Country NL Year 1995 | : | |
| Pollution category 1994 | : |
D |
