SOCOREX 865 Micro Dispensers Instruction Manual
- June 2, 2024
- SOCOREX
Table of Contents
SOCOREX 865 Micro Dispensers
Product Information
Specifications
- Model: AcuraTM 865
- Material: PVDF, Saphire glass, Synthetic ruby, Platinum Iridium, Stainless steel DIN 316L, PTFE, FPM
- Application: Rapid dispensing of various chemicals
- Compatibility: Chemicals from A to Z
Parts
- Valve body
- Valve seat
- Valve ball
- Valve springs
- Valve cap
- Barrel assembly
- Plunger
- Plunger sleeve
- Plunger O-ring
Materials
The AcuraTM 865 micro-dispenser is made of robust materials including PVDF,
Saphire glass, Synthetic ruby, Platinum Iridium, Stainless steel DIN 316L,
PTFE, and FPM. These materials ensure durability and long instrument life.
Product Usage Instructions
Safety Precautions
Before using the AcuraTM 865 micro-dispenser, ensure you have read and
understood all safety precautions mentioned in the operating instructions.
Chemical Compatibility
Ensure that the chemicals you intend to dispense are compatible with the
materials of the micro-dispenser. Refer to the provided list of chemicals for
guidance.
Dispensing Procedure
- Prepare the micro-dispenser by assembling all parts correctly.
- Firmly attach the micro-dispenser to the desired container or apparatus.
- Select the desired volume to dispense using the plunger and barrel assembly.
- Dispense the chemical slowly and steadily to avoid spills or splashes.
- Clean the micro-dispenser thoroughly after each use to prevent cross-contamination.
Maintenance
Regularly clean and inspect all parts of the micro-dispenser to ensure proper
functioning and longevity. Follow any maintenance guidelines provided in the
user manual.
FAQs
Q: Can the AcuraTM 865 micro-dispenser be used with corrosive chemicals?
A: The micro-dispenser is designed to withstand a wide range of
chemicals. However, always check the compatibility of the chemicals with the
materials of the micro-dispenser before use.
Q: How should I store the AcuraTM 865 micro-dispenser when not in use?
A: Store the micro-dispenser in a clean and dry place, away from direct
sunlight and extreme temperatures. Ensure all parts are properly assembled to
prevent damage.
Chemical resistance of Socorex® microdispensers
AcuraTM manual 865
Microdispensers are intended for rapid dispensing of various chemicals. They
meet requirements assuring safety of the laboratory staff and their work.
Microdispensers shall not release any substances which may interfere with
trace analysis, have cytotoxic properties, distort optical tests or influence
chromatographic methods and residue analysis.
Materials
Special attention is given to component materials (see charts below). All
parts of the Acura™ 865 Mmicrodispenser in contact with the liquid are made of
robust materials providing for long instrument life.
Parts
Parts **Acura ™ 865**
Valve body| PVDF
Valve seat| Saphire glass
Valve ball| Synthetic ruby
Valve springs| Platinum Iridium
Valve cap| PVDF
Barrel assembly| PVDF
Plunger| Stainless steel DIN 316L (50 μL)| PVDF (200μL – 1000μL)
Plunger sleeve| PTFE
Plunger O-ring| FPM
Chemicals from A to Z
The following list includes most frequently used chemicals. It provides useful information for the safe and adequate use of Acura™ manual 865 microdispensers. However, safety precautions and recommendations in operating instructions must be followed carefully.
Code explanations
- ++ = Good resistance
- + = Acceptable
Technical support information
| Chemicals A – Z | Acura ™ 865 |
|---|---|
| A | |
| --- | --- |
| Acetaldehyde (Ethanal) | |
| Acetic acid 96% | + |
| Acetic acid 100% (Glacial) | + |
| Acetic anhydride | |
| Acetone (Propanone) | |
| Acetonitrile (MECN) | + |
| Acetophenone | |
| Acetyl Chloride | |
| Acetylacetone | |
| Acrylic acid | |
| Acrylonitrile | + |
| Adipic acid | + |
| Allyl alcohol | + |
| Aluminum chloride | |
| Amino acids | + |
| Ammonia <20% | |
| Ammonia 20-30% | |
| Ammonium chloride | |
| Ammonium fluoride | |
| Ammonium hydroxide | |
| Ammonium molybdate | + |
| Ammonium sulfate | |
| Amyl alcohol (Pentanol) | ++ |
| Amyl chloride (Chloropentane) | + |
| Aniline | + |
| Antimony trichloride | |
| Ascorbic acid | + |
| n-Amyl acetate | |
| B | |
| Barium chloride | + |
| Benzaldehyde | |
| Benzene | |
| Benzine | ++ |
| Benzoyl chloride | |
| Benzyl alcohol | + |
| Benzyl chloride | |
| Benzylamine | + |
| Bis(2-ethylhexyl) phthalate | |
| Boric acid 10% | + |
| Bromine | + |
| Bromobenzene | + |
| Bromonaphtalene | + |
| Butanediol | + |
| Butanol | + |
| Butanone (MEK) | |
| Butyl acetate | |
| Butyl acrylate | |
| Butyl methyl ether | |
| Butylamine | |
| B | |
| --- | --- |
| Butyric acid | + |
| C | |
| Calcium carbonate | |
| Calcium chloride | + |
| Calcium hydroxide | + |
| Calcium hypochlorite | + |
| Carbon disulfide | + |
| Carbon tetrachloride Thertracholomethane | |
| Chlorine dioxide | |
| Chloronaphthalene | + |
| Chloroacetaldehyde 45% | |
| Chloroacetic acid | |
| Chloroacetone | |
| Chlorobenzene | + |
| Chlorobutane | + |
| Chloroethanol | + |
| Chloroform | |
| Chloronitric acid 100% | |
| Chlorosulfuric acid | |
| Chlorosulfuric acid 100% | |
| Chromic acid 100% | + |
| Chromosulfuric acid 100% | + |
| Citric acid | ++ |
| Copper fluoride | |
| Copper sulfate | + |
| Cresol | + |
| Cumene (Isopropylbenzene) | + |
| Cyanoacrylate | |
| Cyclohexane | + |
| Cyclohexanone | |
| Cyclopentane | + |
| D | |
| 1,2-Diethylbenzene | ++ |
| 1,4-Dioxane (Diethylene dioxide) | |
| 1-Decanol | + |
| Decane | ++ |
| Di-(2-ethylhexyl) peroxydicarbonate | + |
| Dibenzyl ether | |
| Dichloroacetic acid | |
| Dichlorobenzene | + |
| Dichloroethane (DCE) | + |
| Dichhloromethane (DCM) | + |
| Dichloroethylene | + |
| Diesel oil (Heating oil) | + |
| Diethanolamine | + |
| Diethylamine | |
| Diethylene glycol | + |
| Diethyl ether | |
| Dimethyl sulfoxide (DMSO) | + |
| --- | --- |
| Dimethylaniline | |
| Dimethylformamide (DMF) | |
| Dimethylglycol / Dimethoxyethane (DME) | + |
| Dioxide chlorine | + |
| Diphenyl ether | + |
| E | |
| --- | --- |
| Essentials oils | |
| Ethanol | + |
| Ethanolamine | |
| Ether | |
| Ethyl acetate | |
| Ethylbenzene | + |
| Ethylene chloride | + |
| Ethylenediamine | |
| Ethylene glycol | + |
| F | |
| --- | --- |
| Fluoroacetic acid | |
| Formaldehyde (Formalin) | ++ |
| Formamide | + |
| Formic acid | |
| G | |
| --- | --- |
| Gamma-butyrolactone | |
| Gasoline | |
| Glycerin <40% | ++ |
| Glycolic acid <50% | + |
| H | |
| --- | --- |
| Heating oil (Diesel oil) | ++ |
| Heptane | + |
| Hexane | + |
| Hexanoic acid | + |
| Hexanol | ++ |
| Hydriodic acid | + |
| Hydrobromic acid | |
| Hydrochloric acid <20% (HCL) 10 to 100mL | |
| Hydrochloric acid <20% (HCL) 1 to 5mL | + |
| Hydrochloric acid 20 to 37% (HCL) 10 to 100mL | |
| Hydrochloric acid 20 to 37% (HCL) 1 to 5mL | |
| Hydrofluoric acid (HF) | |
| Hydrogen peroxide | + |
| I | |
| --- | --- |
| Iodine | + |
| Iodine bromide | |
| Iodine chloride | |
| Isoamyl alcohol | ++ |
| Isobutanol | ++ |
| --- | --- |
| Isooctane | + |
| Isopropanol | ++ |
| Isopropyl ether | |
| Isopropylamine | + |
| K | |
| --- | --- |
| Kerosene | + |
| L | |
| --- | --- |
| Lactic acid | |
| M | |
| --- | --- |
| 2-Methoxyethanol | + |
| Methanol | ++ |
| Methoxybenzene (Anisol) | |
| Methyl benzoate | |
| Methyl chloride (Chloromethane) | |
| Methyl ethyl ketone peroxide (MEKP) | |
| Methyl formate | |
| Methyl iodine (Iodomethane) | + |
| Methyl methacrylate (MMA) | |
| Methyl n-butyl keton (MBK) | |
| Methyl propyl ketone (2-Pentanone) | |
| Methyl tert-butyl ether (MTBE) | + |
| Methylene chloride (Dichloromethane) (DCM) | |
| Methylpentanone | |
| Mineral oil (engine oil) | ++ |
| N | |
| --- | --- |
| N-Butylamine | |
| Nitric acid <30% – 10 to 100mL | |
| Nitric acid <30% – 1 to 5mL | + |
| Nitric acid 30-70% – 10 to 100mL | |
| Nitric acid 30-70% – 1 to 5mL | + |
| Nitric acid >70% – 10 to 100mL | |
| Nitric acid >70% – 1 to 5mL | + |
| Nitro-hydrochloric acid (Aqua regia) | |
| Nitrobenzene | + |
| Nitromethane | |
| N-methyl-2-pyrrolidone (NMP) | + |
| O | |
| --- | --- |
| Octane | + |
| Octanol | ++ |
| Oil (vegetable, animal) | + |
| Oil of turpentine | + |
| Oleic acid | + |
| Oxalic acid | + |
| P | |
| --- | --- |
| Pentane | + |
| Peracetic acid | + |
| Perchloric acid 100% | + |
| Perchloric acid diluted | + |
| Perchloroethylene | |
| Petroleum | + |
| Petroleum ether / spirit | |
| Phenol | + |
| Phenylethanol (2-phenylethanol) | ++ |
| Phenylhydrazine | + |
| Phosphoric acid <100% | + |
| Phosphoric acid <85% | + |
| Piperidine | |
| Potassium chloride | |
| Potassium dichromate | + |
| Potassium fluoride | |
| Potassium hydroxide | + |
| Potassium iodide | + |
| Potassium permanganate | |
| Potassium peroxydisulfate (Potassium persulfate) |
Potassium sulfate| +
Propionic acid (Propanoic acid)| +
Propylene glycol (Propane-1,2-diol)| ++
Propylene oxide|
Picric acid (Trinitrophenol)| +
Pyridine|
Pyruvic acid| +
R|
---|---
Resorcin| +
S|
---|---
Salicylaldehyde| +
Scintilation fluid| +
Silver acetate|
Silver nitrate|
Sodium acetate|
Sodium chloride (Kitchen salt)| +
Sodium dichromate|
Sodium fluoride|
Sodium hydroxide 30%|
Sodium hypochlorite|
Sodium thiosulfate| +
Sulfonitric acid 100%| +
Sulfochromic acid 100%|
Sulfur dioxide| +
Sulfuric acid <60% – 10 to 100mL|
Sulfuric acid <60% – 1 to 5mL| +
Sulfuric acid >60% – 10 to 100mL|
Sulfuric acid >60% – 1 to 5mL| +
---|---
T|
---|---
Trichlorotrifluoroethane| +
Terebentine oil| +
Tartaric acid| +
Tetrachloroethane|
Tetrachloroethylene / methylene| +
Tetrahydrofuran (THF)|
Tetramethylammonium hydroxide|
Tetramin| +
TKN Digest| +
Toluene|
Trichlorethylene|
Trichloroacetic acid|
Trichlorobenzene| +
Trichloroethane / Methane|
Trichloromethane (Chloroform)| +
Triethanolamine|
Triethylene glycol| +
Trifluoroacetic anhydride (TFAA)|
Trifluoroacetic acid (TFA)| +
Trifluoromethane (Fluoroform)| +
U|
---|---
Urea|
X|
---|---
Xylene|
Z|
---|---
Zinc chloride 10%|
Zinc sulfate 10%|
The above guidelines have been carefully reviewed prior to publication. Should you require information on chemicals not listed or contribute to some comments, please feel free to contact us.
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