Smith-Cooper 1-1/4 in. FPT x 1-1/4 in. FPT Stainless Steel 90 Degree Street Elbow blends rugged durability with precise threading for dependable right-angle piping connections. Featuring two 1-1/4 inch female pipe threads (FPT) on both ends, this elbow is designed to integrate seamlessly into standard 1-1/4" piping systems, making it easy to connect compatible male-threaded components in tight spaces.
Crafted from stainless steel, this elbow delivers excellent corrosion resistance and enduring strength in demanding environments. The lead-free construction supports safer plumbing practices and helps meet regulatory expectations for potable-water and other clean-fluid applications, giving you confidence in a wide range of installations.
Key features
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Ends: Two 1-1/4" FPT connections for straightforward integration with compatible fittings.
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Material: Stainless Steel for superior corrosion resistance and long-term durability.
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Geometry: 90-degree elbow provides a compact turn to fit in constrained spaces without compromising flow.
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Maximum Pressure: 300 (units not specified in data) — suitable for many piping scenarios when used within rating.
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Lead-Free: Supports safe handling and compliance with plumbing standards.
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Packaging: Bagged for convenient storage and distribution.
Applications and use cases
This elbow is an ideal choice for industrial and residential piping projects that require a 1-1/4 inch elbow with female threads. Use it in water lines, compressed-air systems, hydraulic circuits, and OEM equipment where a compact, reliable elbow is essential. Its stainless steel construction makes it a dependable option for environments prone to moisture, chemicals, or varying temperatures.
Practical installation tips
- Apply appropriate thread sealant or PTFE tape to male-threaded connections to ensure a clean, leak-free seal.
- Install with proper torque to avoid cross-threading or overtightening, which can damage threads or the fitting.
- Pair with compatible male-threaded adapters or fittings to complete your circuit while preserving the system’s integrity.
