AGMIN TPU BORE HOSE is made from high-tenacity synthetic yarn with TPU through-the-weave extrusion for superior durability and long service life.
Designed for bore water retrieval in agriculture, mining, industrial, and municipal use, it replaces rigid pipes, resists corrosion, and eases pump servicing.
With cable loops and flexible straps, it allows secure, easy installation and supports both pump and water weight for dewatering up to 400m deep.
Engineered for tough environments, our dewatering hose combines high-pressure performance with rugged durability.
Whether you’re managing mine pit drainage, flood recovery, or large-scale water transfer, it delivers reliable flow, rapid deployment, and long service life with minimal maintenance.
Built strong, tested tough, and designed for efficiency—this hose is made to work when it matters most.
Layflat bore hose is designed for rapid deployment, allowing submersible pumps to be lowered and raised easily—often without the need for cranes or safety cables. With continuous lengths up to 400m, joints are only needed at the pump and surface, making installation simpler and safer.
Strap loops on the exterior allow secure attachment of electrical cables along the hose, helping protect sensitive components from movement or damage during installation and operation.
Engineered from circularly woven 100% high-tenacity synthetic yarn and encased with a TPU through the weave extrusion, the hose combines strength and flexibility in one seamless design. It handles the weight of the pump and water with ease and is far lighter and easier to work with than rigid alternatives.
Highly resistant to corrosion, microbial growth, UV, ozone, and chemical exposure, the hose avoids iron bacteria build-up and scale formation. This results in fewer maintenance issues and an extended service life.
Suitable for drinking water use, its ideal for groundwater extraction, environmental monitoring, and desalination plants.
A slight swell in hose diameter during operation improves flow rates by reducing friction loss, offering better hydraulic performance and reduced energy costs over time
| Nominal Size | Working Pressure | Burst Pressure | Wall Thickness | Tensile Strength | |||||
|---|---|---|---|---|---|---|---|---|---|
| inch | mm | psi | bar | psi | bar | inch | mm | lbs | kgs |
| 1.5″ | 39 | 425 | 30 | 920 | 65 | 0.09 | 2.5 | 12,786 | 5,800 |
| 2″ | 51 | 425 | 30 | 920 | 65 | 0.12 | 3.2 | 12,786 | 5,800 |
| 3″ | 76 | 390 | 27 | 870 | 60 | 0.12 | 3.2 | 21,605 | 9,800 |
| 4″ | 104 | 380 | 26 | 870 | 60 | 0.13 | 3.5 | 40,124 | 18,200 |
| 6″ | 155 | 360 | 25 | 870 | 60 | 0.18 | 4.6 | 85,839 | 34,400 |
