(!) Since support from Microsoft will end on January 14 2020, Windows 7 user might not be able to use MISUMI website effectively. Please consider to update your system as ‘MISUMI Website system requirement’.
Select part number to Order Now/ Add to Cart
Part Number |
---|
5-031-02 |
5-031-03 |
Part Number | Price | Name | Minimum Order Qty. | Volume Discount | Days to Ship | Capacity | Full height (mm) |
Body Diameter (φ mm) |
Mouth Inner Diam. (φ mm) |
Manufacturer Product Name | JAN Code | Quantity |
---|---|---|---|---|---|---|---|---|---|---|---|---|
฿ 56.00 |
RESIN CONTAINERS | 1 Piece(s) | 31 Day(s) | 250mL | 119 | φ61 | φ41.5 | Clear Wide-Mouth Bottle (Transparent PVC Type) 250 mL | 4562470250324 | 1 pc. | ||
฿ 102.00 |
RESIN CONTAINERS | 1 Piece(s) | Same day | 500mL | 146 | φ80 | φ47 | Clear Wide-Mouth Bottle (Transparent PVC Type) 500 mL | 4562470250331 | 1 pc. |
Transparent resin container made of polyvinyl chloride resin.
[Features]
· Materials: Inner lid / LDPE (low density polyethylene), lid / PP (polypropylene), main body / hard PVC (polyvinyl chloride resin).
Part Number |
---|
5-031-02 |
5-031-03 |
Part Number | Price | Name | Minimum Order Qty. | Volume Discount | Days to Ship | Capacity | Full height (mm) |
Body Diameter (φ mm) |
Mouth Inner Diam. (φ mm) |
Manufacturer Product Name | JAN Code | Quantity |
---|---|---|---|---|---|---|---|---|---|---|---|---|
฿ 56.00 |
RESIN CONTAINERS | 1 Piece(s) | 31 Day(s) | 250mL | 119 | φ61 | φ41.5 | Clear Wide-Mouth Bottle (Transparent PVC Type) 250 mL | 4562470250324 | 1 pc. | ||
฿ 102.00 |
RESIN CONTAINERS | 1 Piece(s) | Same day | 500mL | 146 | φ80 | φ47 | Clear Wide-Mouth Bottle (Transparent PVC Type) 500 mL | 4562470250331 | 1 pc. |
Loading...
The product list can be filtered using the selections found beneath the specification item name.
Part No. | Capacity | Opening Inner Diameter × Body Diameter × Overall Height (mm) | Quantity | Note / JAN Code |
---|---|---|---|---|
5-031-01 | 100 mL | ø33.2 × ø48.2 × 80.5 | 1 pc. included | 4562470251390 |
5-031-02 | 250 mL | ø43.1 × ø60.8 × 118.5 | 1 pc. included | 4562470251406 |
5-031-03 | 500 mL | ø47 × ø80 × 145 | 1 pc. included | 4562470251413 |
5-031-04 | 1 L | ø59 × ø96.5 × 180 | 1 pc. included | 4562470251420 |
5-031-51 | 100 mL | ø33.2 × ø48.2 × 80.5 | 488 pcs. included | |
5-031-52 | 250 mL | ø43.1 × ø60.8 × 118.5 | 189 pcs. included | |
5-031-53 | 500 mL | ø47 × ø80 × 145 | 100 pcs. included | |
5-031-54 | 1 L | ø59 × ø96.5 × 180 | 52 pcs. included |
● Dimensional outline drawing
(Unit: mm)
Code | Capacity | a | b | c | W | H |
---|---|---|---|---|---|---|
-01 | 100 mL | 41.0 | 39.0 | 33.2 | 48.2 | 80.5 |
-02 | 250 mL | 50.5 | 48.5 | 41.3 | 60.8 | 118.5 |
-03 | 500 mL | 55.5 | 53.5 | 47.0 | 80.0 | 145.0 |
-04 | 1 L | 70.5 | 67.0 | 59.0 | 96.5 | 180.0 |
◎: No effect at all or almost no effect. △: Do not use if at all possible.
○: It has some effect, but it can withstand use sufficiently depending on the conditions.× : It is not appropriate because it has a significant effect.
* The concentration of aqueous solution is in a saturated state so long as there are no abnormalities.
* The chemical resistance list is ultimately a list of reference values for rough estimations, so during actual use, do so after confirming with practical testing using a test piece or the like.
Chemical Name | Concentration Wt. % / Temperature °C | Soft | Hard | |
---|---|---|---|---|
Mineral Acid | Sulfite | 10/RT | ○ | ◎ |
Hydrochloric Acid | 10/RT | ○ | ◎ | |
Hydrochloric Acid | 20/RT | ○ | ◎ | |
Hydrochloric Acid | 20/80 | × | △ | |
Hydrochloric Acid | 38/RT | △ | ◎ | |
Aqua Regia | × | △ | ||
Perchloric Acid | ○ | ○ | ||
Chromic Acid | 2/70 | ○ | ○ | |
Chromic Acid | 5/70 | ○ | ○ | |
Chromic Acid | 10/70 | ○ | ○ | |
Chromic Acid | 25/70 | ○ | ○ | |
Chlorosulfonic Acid | × | △ | ||
Acid Pickling Solution | Nitric Acid 20% + Hydrofluoric Acid 4% | ○ | ◎ | |
Acid Pickling Solution | Sulfuric Acid 40% + Nitric Acid 15% | ○ | ◎ | |
Hypochlorous Acid | ○ | ◎ | ||
Hydrocyanic Acid | ○ | ◎ | ||
Hydrobromic Acid | 20/RT | ○△ | ◎ | |
Hydrobromic Acid | 20/70 | △ | △ | |
Hydrobromic Acid | 37/RT | × | ◎ | |
Nitric Acid | 10/RT | ○ | ◎ | |
Nitric Acid | 10/70 | △ | ○△ | |
Nitric Acid | 30/RT | △ | ○ | |
Nitric Acid | 30/70 | × | × | |
Nitric Acid | Smoke Emission/RT | × | △ | |
Nitric Acid | 61.3/RT | × | △ | |
Carbonic Acid | ○ | ◎ | ||
Arsenic Acid | ○ | ◎ | ||
Fluorosilicic Acid | ○ | ◎ | ||
Hydrofluoric Acid | 10/RT | ○ | ◎ | |
Hydrofluoric Acid | 20/RT | △ | ◎ | |
Hydrofluoric Acid | 40/RT | × | ◎ | |
Fluoroboric Acid | ○ | ◎ | ||
Boric Acid | ○ | ◎ | ||
Anhydrous Hydrofluoric Acid | × | ○ | ||
Sulfuric Acid | 10/RT | ◎ | ◎ | |
Sulfuric Acid | 10/70 | × | ○△ | |
Sulfuric Acid | 30/RT | ○ | ◎ | |
Sulfuric Acid | 30/70 | × | △ | |
Sulfuric Acid | 98/RT | × | △ | |
Sulfuric Acid | Smoke Emission/RT | × | × | |
Phosphoric Acid | 50/RT | ◎ | ◎ | |
Phosphoric Acid | 50/70 | △ | ○ | |
Phosphoric Acid | 75/RT | ○ | ○ | |
Inorganic Alkaline | Ammonia (Anhydrous) | ○ | ○ | |
Ammonia Gas | Cold | △ | ○ | |
Ammonia Gas | Hot | × | △ | |
Liquid Ammonia | ○ | ◎ | ||
Caustic Soda (Sodium Hydroxide) | 10/RT | ○ | ◎ | |
Caustic Soda (Sodium Hydroxide) | 30/RT | ○ | ◎ | |
Caustic Soda (Sodium Hydroxide) | 30/70 | × | △ | |
Ammonium Hydroxide (Ammonium Water) | 28% | ○ | ◎ | |
Potassium Hydroxide | ◎ | ◎ | ||
Calcium Hydroxide | ◎ | ◎ | ||
Barium Hydroxide | ◎ | ◎ | ||
Magnesium Hydroxide | ◎ | ◎ | ||
Hydrazine | − | − | ||
Organic Solvent | Ethyl acrylate | × | × | |
Butyl acrylate | × | × | ||
Acrylonitrile | × | △ | ||
Acetylene | ◎ | ◎ | ||
Acetamide | △ | ○ | ||
Acetaldehyde | △ | ○ | ||
Ethyl Acetoacetate | × | × | ||
Acetophenone | − | − | ||
Acetone | × | × | ||
Aniline | × | × |
Chemical Name | Concentration Wt. % / Temperature °C | Soft | Hard | |
---|---|---|---|---|
Organic Solvents | Anone = Cyclohexanone | − | − | |
Amyl Alcohol | △ | ○ | ||
Amyl Naphthalene | − | − | ||
Benzyl Benzoate | ○ | ◎ | ||
Isooctane | × | × | ||
Isobutyl Alcohol | × | ◎ | ||
Isopropyl Alcohol | × | ○ | ||
Isopropyl Ether | × | △ | ||
Ether (Diethyl Ether) | − | − | ||
Ethanolamine | × | × | ||
Ethyl Alcohol (Ethanol) | × | ○ | ||
Ethyl Ether = Diethyl Ether | − | − | ||
Ethyl Cellulose | × | ○ | ||
Ethylbenzene | × | × | ||
Ethylene Oxide | × | × | ||
Ethylene Glycol | × | △ | ||
Ethylene Chlorohydrin | × | × | ||
Ethylenediamine | × | × | ||
Epichlorohydrin | × | × | ||
Ethyl Chloride | × | × | ||
Benzine Chloride | × | △ | ||
Methyl Chloride | × | × | ||
Chlorinated Solvent | × | × | ||
Octyl Alcohol | × | ○ | ||
Oleic Acid | △ | ◎ | ||
Carbitol | × | △ | ||
Formic Acid | 25/RT | △ | ◎ | |
Formic Acid | 50/RT | × | ◎ | |
Formic Acid | 90/RT | × | ○ | |
Xylene | × | × | ||
Citric Acid | ○ | ◎ | ||
Glycerin | △ | ◎ | ||
Cresol | △ | ◎ | ||
Chloroacetone | × | × | ||
Cholorotoluene | × | × | ||
Chloronaphthalene | × | × | ||
Chloroform | × | × | ||
Silicate Ester | ○ | ○ | ||
Ethyl Silicate | × | △ | ||
Acetic Acid | 10/RT | ○ | ◎ | |
Acetic Acid | 50/RT | × | ◎ | |
Acetic Acid | 50/70 | × | ○△ | |
Acetic Acid | 100/RT | × | △ | |
Amyl Acetate | × | × | ||
Isopropyl Acetate | × | × | ||
Ethyl Acetate | × | × | ||
Cellosolve Acetate | × | × | ||
Butyl Acetate | × | × | ||
Propyl Acetate | × | × | ||
Methyl Acetate | × | × | ||
Salicylic Acid | ◎ | ◎ | ||
Diphenyl Oxide | × | − | ||
Diisopropyl Ketone | × | × | ||
Diethyl Ether | × | △ | ||
Diethyl Sebacate | × | △ | ||
Tetraethyllead | △ | ○△ | ||
Diethylene Glycol | × | ○ | ||
Carbon Tetrachloride | × | × | ||
Dioxane | × | × | ||
Dioctyl Sebacate | × | × | ||
Dioctyl Phthalate | × | × | ||
Cyclohexanol | × | × | ||
Cyclohexanone (Anone) | × | × | ||
Cyclohexane | × | × | ||
Dichlorobenzene | × | △ |
How can we improve?
How can we improve?