SKU: Simpson Anchors THD37212H
Simpson Strong-Tie THD37212H Titen HD (3/8" x 2-1/2") Heavy Duty Screw Anchor - Zinc Plated (50 Pack)
Details
Simpson Strong-Tie THD37212H Description
The Titen HD Screw Anchor is a high-strength, zinc-plated anchor designed for quick and easy installation in cracked and uncracked concrete applications.
Simpson Strong-Tie THD37212H Includes
- (50) Titen HD Screw Anchor Zinc Plated 3/8 in. x 2-1/2 in.
Simpson Strong-Tie THD37212H Features
- Tested in accordance with ACI 355.2, AC193, and AC106
- Qualified for static, wind, and seismic loading conditions
- Thread design undercuts to efficiently transfer the load to the base material
- Specialized heat-treating process creates tip hardness for better cutting without compromising the ductility
- No special drill bit required — designed to install using standard-sized ANSI tolerance drill bits
- Hex-washer head requires no separate washer and provides a clean installed appearance
- Removable — ideal for temporary anchoring or applications where fixtures may need to be moved
- Use in dry interior environments only
Simpson Strong-Tie THD37212H Applications
- Concrete anchoring in cracked and uncracked conditions
- Temporary anchoring for formwork or bracing
- Mechanical, electrical, and plumbing installations
Simpson Strong-Tie THD37212H Installation Overview
- Drill a hole in the base material using a carbide drill bit matching the anchor's diameter.
- Drill to the specified embedment depth plus overdrill to allow thread tapping dust to settle.
- Insert the anchor through the fixture and into the hole.
- Tighten the anchor until the hex-washer head contacts the fixture.
Simpson Strong-Tie THD37212H Specifications
| Material | Carbon Steel |
| Finish | Zinc Plated |
| Diameter | 3/8 in. |
| Length | 2-1/2 in. |
| Drill Bit Size | 3/8 in. |
| Drive Type | 9/16 in. Hex |
| Fixture Hole Size | 1/2 in. - 9/16 in. |
| Head Type | Hex Head |
| Quantity | 50 |
NOTE: Use a Titen HD screw anchor one time only — installing the anchor multiple times may result in excessive thread wear and reduce load capacity.