920588 HHCS 1/2-13X 4.0 316
920588 HHCS 1/2-13X 4.0 316 Ships in 1-2 Weeks or Special Order
Delivery and Shipping
Delivery and Shipping
We ship in stock items same day. If it needs to be ordered we will ship it out to you the day it arrives.
Description
Description
The 920588 HHCS 1/2-13X 4.0 316 by Blackmer is a high-quality component designed for use with positive displacement and sliding vane pumps. Manufactured with precision, this part ensures reliable performance in demanding pumping applications. It features a stainless steel construction, specifically grade 316, which provides excellent corrosion resistance and durability in aggressive or moist environments.
The component has a thread size of 1/2-13, with an overall length of 4.0 inches, making it suitable for a range of pump assemblies requiring standardized fittings. The material's corrosion resistance enhances longevity, especially in chemical processing, marine, or food and beverage environments.
- Constructed from grade 316 stainless steel for corrosion resistance and durability
- Thread size of 1/2-13 with a length of 4.0 inches
- Designed for compatibility with Blackmer positive displacement and sliding vane pumps
- Precision-machined for a tight fit and reliable sealing
- Corrosion-resistant surface finish withstands harsh operational environments
- Meets industry standards for pump components and fittings
This component is ideal for use in chemical processing, water treatment, marine applications, and other industries requiring durable, stainless steel pump parts. It is particularly suited for replacing or maintaining existing Blackmer pump systems that specify 920588 HHCS for optimal performance. The part is shipped as a single unit; no additional accessories or mounting hardware are included.
Care instructions include regular inspection for wear or damage, cleaning with compatible solvents, and applying appropriate anti-corrosion measures if necessary. The part is warranted against manufacturing defects for specified periods, ensuring continued performance in critical applications.
