The 2.5mm 303 Stainless Steel Press-in Orifice For Liquids are reliable, highly accurate flow restrictors specifically designed for installation into plastic housings and fittings. Their unique barbed design provides easy “press-in” installation ensuring retention and prevents any by-pass leakage around the part. These orifices are 2.5 mm in diameter and fit in many common plastic fittings. Their all 303 stainless steel constriction provides compatibility with a wide range of fluids and gases. This orifice is 100% flow tested on distilled water to ensure that every part is within ± 5% of its nominal flow rate. Tighter tolerances are available as specials. To further increase accuracy, orifices are tested in the direction of use. These press-in orifices are available in a wide range of standard Lohm rates.
Features
100% Flow Tested on Distilled Water For Consistent Flow Performance
Metered Flow Lohm Rate Tolerance: ±5%
Forward And Reverse Flow Configurations
Unique Barbed Design for Installation into Plastic
The 2.5mm 303 Stainless Steel Press-in Orifice For Liquids are reliable, highly accurate flow restrictors specifically designed for installation into plastic housings and fittings. Their unique barbed design provides easy “press-in” installation ensuring retention and prevents any by-pass leakage around the part. These orifices are 2.5 mm in diameter and fit in many common plastic fittings. Their all 303 stainless steel constriction provides compatibility with a wide range of fluids and gases. This orifice is 100% flow tested on distilled water to ensure that every part is within ± 5% of its nominal flow rate. Tighter tolerances are available as specials. To further increase accuracy, orifices are tested in the direction of use. These press-in orifices are available in a wide range of standard Lohm rates.
Features
- 100% Flow Tested on Distilled Water For Consistent Flow Performance
- Metered Flow Lohm Rate Tolerance: ±5%
- Forward And Reverse Flow Configurations
- Unique Barbed Design for Installation into Plastic