Cold Finger Condenser 100mm In Length Below The 19/22 Inner Joint With Hose Connections
Special Price $21.11 Regular Price $32.67
- A cold finger condenser is used to generate a cold surface on the immersion finger ,used in sublimation apparatus, reflux reaction or distillation apparatus.
- With 19/22 inner joint between the hose connections and finger chamber,the length below the joint is 100mm
- With two 8mm glass hose connections accommodating 6mm I.D.rubber tubing for coolant fluid in and out
- Made of high quality borosilicate glass 3.3,heavy wall design,made by hand-blowing to ensure uniform wall thickness,durable and reusable
The cold finger reflux condenser is a laboratory glassware used to generate a localized cold surface on the exterior of the immersion 鈥渇inger鈥?regulate refluxing by adjusting the flow of air or water through it.Usually a cold finger is used in sublimation apparatus,reflux reaction or distillation apparatus.
Designed with a 19/22 inner joint and a sealed lower drip for drip control at the end of the finger tuing,which used as a chamber that a coolant fluid can enter and leaveThe length below the joint is 100mm.
With two 8mm glass hose connections for coolant liquid in and out.
Made of high quality borosilicate glass 3.3 having very low coefficients of thermal expansion for resistance to heat, and a very high resistance to chemical attack.Annealed at 800 degree Celsius ,can be heated directly in an open flame and can withstand typical laboratory thermal variations in Chemistry processes like heating and cooling.
Designed with a 19/22 inner joint and a sealed lower drip for drip control at the end of the finger tuing,which used as a chamber that a coolant fluid can enter and leaveThe length below the joint is 100mm.
With two 8mm glass hose connections for coolant liquid in and out.
Made of high quality borosilicate glass 3.3 having very low coefficients of thermal expansion for resistance to heat, and a very high resistance to chemical attack.Annealed at 800 degree Celsius ,can be heated directly in an open flame and can withstand typical laboratory thermal variations in Chemistry processes like heating and cooling.