Description
Dispenser (Bottle-Top) Fully autoclavable 2.5 – 25ml DispensMate DLAB USA
• Excellent chemical resistance, components are made of PTFE, FEP, BSG, PP
• Fully autoclavable at 121℃
• Four ranges of bottle-top dispenser covering a volume range from 0.5mL to 50mL
• Easy for cleaning and maintenance
• The optional flexible discharge tube with safety handle permits fast and precise dispensing
• Vapor pressure max. 500mbar, viscosity max. 500mm2/s,
• temperature max. 40oC, density max. 2.2g/cm3
• Dispensemate is supplied with S40, GL32, GL38,GL25, GL28
Chemical resistance table:
DispensMate Chemical Compatibility at 20℃ | ||||
The parts of DLAB DispensMate which are exposed to liquid consist of BSG, PTEF, FEP. The material of closure | ||||
cap of outlet is PP. The parts which have no access to liquid consist of PC and other materials. Please notice the | ||||
table is merely a general guide, not a commitment from the manufacturer. Please read the user manual carefully | ||||
before use and to do related experiments to determine whether a certain chemical should be used. For good | ||||
laboratory practice, rinse out the liquid handing unit at the end of each day with distilled water to remove corrosive liquids. | ||||
Reagent | Compatible | Reagent | Compatible | Reagent |
Acetaldehyde | + | Cyclohexane | Mineral oil (Engine oil) | + |
Acetic acid (glacial),100% |
+ | Cyclohexanone | + | Monochloroacetic acid |
Acetic acid, 96% | + | Cyclopentane | Nitric acid, 10% | + |
Acetic anhydride | Decane | + | Nitrobenzene | + |
Acetone | + | 1-Decanol | + | Oleic acid |
Acetonitrile | Dibenzyl ether | + | Oxalic acid | + |
Acetophenone | Dichloroacetic acid | n-Pentane | ||
Acetyl chloride | Dichlorobenzene | + | Peracetic acid | |
Acetylacetone | + | Dichloroethane | Perchloric acid | |
Acetylacetone | + | Dichloroethane | Perchloric acid | + |
Acrylic acid | + | Dichloroethylene | Perchloroethylene | |
Acrylonitrile | + | Dichloromethane | Petroleum | + |
Adipic acid | + | Diesel oil (Heating oil) | Petroleum ether | |
Allyl alcohol | + | Diethanolamine | + | Phenol |
Aluminium chloride | + | Diethyl ether | Phenylethanol | + |
Amino acids | + | Diethylamine | + | Phenylhydrazine |
Ammonium chloride | + | 1,2 Diethylbenzene | + | Phosphoric acid, 85% |
Ammonium fluoride | + | Diethylene glyco | + | Phosphoric acid, 85% +Sulfuric acid, 95%, 1:1 |
Ammonium hydroxide, 30% (Ammonia) |
+ | Dimethyl sulfoxide(DMSO) |
+ | Piperidine |
Ammonium sulfate | + | Dimethylaniline | + | Potassium chloride |
n-Amyl acetate | + | Dimethylformamide(DMF) | + | Potassium dichromate |
Amyl alcohol(Pentanol) | + | 1,4 Dioxane | Potassium hydroxide | + |
Amyl chloride(Chloropentane) |
Diphenyl ether | + | Potassium permanganate | + |
Aniline | + | Ethanol | + | Propionic acid |
Barium chloride | + | Ethanolamine | + | Propylene glycol(Propanediol) |
Benzaldehyde | + | Ethyl acetate | Pyridine | + |
Benzene (Benzol) | + | Ethyl methyl ketone | + | Pyruvic acid |
Benzine (Gasoline) | Ethylbenzene | Salicylaldehyde | + | |
Benzoyl chloride | + | Ethylene chloride | Scintilation fluid | + |
Benzyl alcohol | + | Fluoroacetic acid | Silver acetate | + |
Benzylamine | + | Formaldehyde, 40% | + | Silver nitrate |
Benzylchloride | + | Formamide | + | Sodium acetate |
Boric acid, 10% | + | Formic acid, 100% | Sodium chloride | + |
Bromobenzene | + | Glycerol | Sodium dichromate | + |
Bromonaphthalene | + | Glycol(Ethyleneglycol) | + | Sodium fluoride |
Butanediol | + | Glycolic acid, 50% | + | Sodium hydroxide, 30% |
1-Butanol | + | Heating oil (Diesel oil) | Sodium hypochlorite | + |
n-Butyl acetate | + | Heptane | Sulfuric acid, 95% | |
Butyl methyl ether | + | Hexane | Tartaric acid | + |
Butylamine | + | Hexanoic acid | + | Tetrachloroethylene |
Butyric acid | + | Hexanol | + | Tetrahydrofuran (THF) |
Calcium carbonate | + | Hydriodic acid | + | Tetramethylammoniumhydroxi de |
Reagent | Compatible | Reagent | Compatible | Reagent |
Calcium chloride | + | Hydrobromic acid | Toluene | |
Calcium hydroxide | + | Hydrochloric acid, 20% | + | Trichloroacetic acid |
Calcium hypochlorite | + | Hydrogen peroxide,35% | Trichlorobenzene | |
Carbon tetrachlorid | Isoamyl alcohol | + | Trichloroethane | |
Chloro naphthalene | + | Isobutanol | + | Trichloroethylene |
Chloroacetaldehyde,45% | + | Isooctane | Trichlorotrifluoro ethane | |
Chloroacetic acid | + | Isopropanol(2-Propanol) | + | Triethanolamine |
Chloroacetone | + | Isopropyl ether | + | Triethylene glycol |
Chlorobenzene | + | Lactic acid | + | Trifluoro ethane |
Chlorobutane | + | Methanol | Trifluoroacetic acid (TFA) | |
Chloroform | Methoxybenzene | + | Turpentine | |
Chlorosulfonic acid | Methyl benzoate | + | Urea | + |
Chromic acid, 10% | + | Methyl butyl ether | + | Xylene |
Chromic acid, 50% | + | Methyl ethyl ketone | Zinc chloride, 10% | + |
Chromosulfuric acid | + | Methyl ethyl ketone peroxide |
Zinc sulfate, 10% | + |
Copper sulfate | + | Methyl formate | + | |
Cresol | Methyl propyl ketone | + | ||
Cumene (Isopropylbenzene) |
+ | Methylene chloride | ||
+: There is evidence or it can be concluded with common sense that the chemical can be dispensed with | ||||
Dispens Mate; | ||||
Blank: There is no evidence and it cannot be concluded with common sense that the chemical can be dispensed | ||||
with Dispens Mate. If the user tries to use the chemical, DLAB cannot be held responsible for the consequences. | ||||
Notes: | ||||
1 Hydrochloric acid – in the presence of oxidizing may cause slight attack on prolonged boiling. | ||||
2 Sulphuric acid – will dull the surface with prolonged heating at above 250°C. | ||||
3 Nitric acid (fuming) – may dull the surface with prolonged heating. | ||||
4 Phosphoric acid – may dull the surface with prolonged heating. | ||||
5 Potassium hydroxide – the fused salt will cause slight attack. | ||||
6 Sodium hydroxide – the fused salt will cause slight attack. | ||||
7 Hydrogen peroxide 30% – in the presence of hydrochloric acid may cause slight attack on prolonged boiling. | ||||
8 Ammonia – heating in an ammonia atmosphere will darken and dull the surface, leading to a porous crystalline appearance. | ||||
9 Chlorine – in the presence of hydrochloric acid may cause slight attack on prolonged boiling. | ||||
10 Potassium permanganate – in the presence of hydrochloric acid may cause slight attack on prolonged boiling. | ||||
11 Sodium carbonate – the fused salt may cause slight attack. | ||||
12 Mercury – will readily attack at any temperature. | ||||
13 Silver nitrate – the fused salt may cause slight attack and discolor the surface. | ||||
14 Organic compounds – there is no data available on most of the organic compounds listed, it is unlikely they | ||||
would have any detrimental effect but we can give no guarantee to this statement |
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