Lower Balance Stem for Type FLS-R Frac Valves
We have lower balance stems for the Cameron style FLS-R valves stocked and ready to ship. You can order online in minutes without ever leaving the job site. At Heshka Oil you get more than high performance, high-quality replacement parts. We give you convenience, personal assistance and options that make operations more cost effective.
Experience the Heshka Oil difference when you buy a lower balance stem for the Cameron style FLS-R valves online.
Lower Balance Stem Product Information
Keep gas contained with a Heshka Oil lower balance stem for the Cameron style FLS-R valves. These stems are designed to be completely compatible and easy to install.
Weight
The lower balance stem for the Cameron style FLS-R valves for sale at HeshkaOil.com is 8 lbs.
Size
You can find a lower balance stem for the Cameron style FLS-R valves in two sizes: 5-1/8” and 7-1/16”.
Pressure
There are three pressure options: 5,000, 10,000 and 15,000 PSI.
API 6A Standards
All of our stems meet API 6A standards.
Compatibility
Cameron valves (FLS-R system)
See all of our FLS-R gate valve parts and equipment.
Order Online in Minutes, Get Replacement Parts in Days
The oil and gas industry understands the need for innovation. Heshka Oil has helped revolutionize the industry by introducing an online ordering platform that dramatically cuts down on the time it takes to source parts.
You’ll get your parts faster without sacrificing service. Our customer care team is a call away and can provide service that’s on par with in-person orders.
Giving you what you need when you need it - that’s the Heshka Oil way.
Get Your Lower Balance Stems From an API 6A Manufacturer
Heshka Oil is committed to designing and producing the best-made oil and gas equipment on the market. But we go a step beyond solid design and construction to ensure every part is built for the long haul. Our parts go through a thorough quality control system and meet the API 6A standards. It’s our guarantee that every stem that’s ordered will perform reliably even under harsh conditions.