The ASTM F1554 specification serves as the definitive framework for steel anchor bolts designed for anchoring structural supports to concrete foundations. Within this standard, Grade 105 represents the highest strength tier, manufactured from medium-carbon alloy steel (typically AISI 4140) that has been quenched and tempered to develop premium load-bearing capabilities.
Designed specifically for safety-critical cast-in-place applications, Grade 105 anchor rods deliver a minimum yield strength of 105 ksi coupled with a mandatory upper tensile strength limit of 150 ksi. This precise upper limit acts as an intentional engineering safeguard, preserving material ductility and mitigating the risks of stress corrosion cracking or sudden hydrogen-induced failures under dynamic and structural loading.
As a performance-based specification, ASTM F1554 Grade 105 allows metallurgical flexibility for alloying elements provided mechanical limits are fully achieved. However, strict maximum boundaries are enforced on tramp elements to protect matrix purity.
| Element | Heat Analysis Limit (%) | Product Analysis Limit (%) |
|---|---|---|
| Carbon (C) | Manufacturer Option | Manufacturer Option |
| Manganese (Mn) | Manufacturer Option | Manufacturer Option |
| Phosphorus (P) max | 0.040 | 0.048 |
| Sulfur (S) max | 0.050 | 0.058 |
| Copper (Cu) min* | 0.20 | 0.18 |
*Optional element added only when specific atmospheric corrosion resistance is invoked in the procurement order.
For principal civil engineers, foundation detailers, and construction procurement managers requiring granular dimensional envelopes, calculation logs, and multi-lot traceability verification for high-tensile anchorage setups, the full documentation must be accessed.
Contains empirical data for stress simulations, concrete pull-out calculations, and complete hardware matching maps. Corporate/engineering credentials required.
⬇ DOWNLOAD DATASHEETThe mechanical boundaries of ASTM F1554 Grade 105 are compared below against lower-strength variants within the same structural standard framework.
| Mechanical Property | Grade 36 | Grade 55 | Grade 105 |
|---|---|---|---|
| Nominal Size Range (Inches) | 1/2" to 4" | 1/2" to 4" | 1/2" to 3" |
| Minimum Yield Strength | 36 ksi (248 MPa) | 55 ksi (380 MPa) | 105 ksi (724 MPa) |
| Tensile Strength Range | 58 – 80 ksi (400–552 MPa) | 75 – 95 ksi (517–655 MPa) | 125 – 150 ksi (862–1034 MPa) |
| Minimum Elongation (in 2 Inches) | 23% | 21% | 15% |
| Minimum Elongation (in 8 Inches) | 20% | 18% | 12% |
| Minimum Reduction of Area (RA) | 40% | 30% | 45% |
The table below provides calculated minimum and maximum loading capacities based on the formal tensile stress area equation of the thread configuration. Concrete shear capacity is modeled conservatively at 50% of ultimate steel limits.
| Nominal Diameter (in) | Threads per Inch (TPI) | Tensile Stress Area (in²) | Min Yield Load (lbf) | Min Tensile Load (lbf) | Concrete Shear Capacity (lbf) |
|---|---|---|---|---|---|
| 1/2" | 13 | 0.1419 | 14,900 | 17,738 | 8,869 |
| 5/8" | 11 | 0.2260 | 23,730 | 28,250 | 14,125 |
| 3/4" | 10 | 0.3340 | 35,070 | 41,750 | 20,875 |
| 7/8" | 9 | 0.4620 | 48,510 | 57,750 | 28,875 |
| 1" | 8 | 0.6060 | 63,630 | 75,750 | 37,875 |
| 1-1/4" | 7 | 0.9690 | 101,745 | 121,125 | 60,563 |
| 1-1/2" | 6 | 1.4050 | 147,525 | 175,625 | 87,813 |
Fasteners must adhere strictly to the geometric boundaries defined under Section 10 of the standard to ensure physical compatibility during cage assembly and placement.
| Geometric Parameter | Mandated Manufacturing Tolerance |
|---|---|
| Overall Length (≤ 24 inches) | ± 1/2 inch |
| Overall Length (> 24 inches) | ± 1 inch |
| Hook Length (Short Leg of Bent Bolt) | ± 10% of length, or ± 1/2 inch (whichever is greater) |
| Bend Section Area Reduction | Area in bent region must be ≥ 90% of adjacent straight portion |
| Bend Angle | ± 5° maximum variation relative to bolt axis |
| Thread Length Execution | +1.0 inch / -0.00 inch |
The high yield threshold of Grade 105 requires high-strength mating hardware to distribute preloads without thread stripping or washer cupping. Standard flat washers (ASTM F844) will deform under high tension, inducing joint relaxation.
| Fastener Diameter | Surface Finish | Recommended Nut (ASTM A563) | Approved Alternative Nut | Required Washer |
|---|---|---|---|---|
| 1/2" to 1-1/2" | Plain Finish | Grade D Heavy Hex* | Grade DH Heavy Hex or A194 2H | ASTM F436 Type 1 |
| 1/2" to 1-1/2" | Galvanized (HDG) | Grade DH Heavy Hex | ASTM A194 Grade 2H Heavy Hex | ASTM F436 Type 1 (Galv.) |
| 1-5/8" to 3" | Plain Finish | Grade DH Heavy Hex | ASTM A194 Grade 2H Heavy Hex | ASTM F436 Type 1 |
| 1-5/8" to 3" | Galvanized (HDG) | Grade DH Heavy Hex | ASTM A194 Grade 2H Heavy Hex | ASTM F436 Type 1 (Galv.) |
* Note: A563 Grade D heavy hex nuts are rarely stocked in standard commercial inventories; substitution with Grade DH or Grade 2H is standard industrial practice.
Purchasers can invoke specific, standardized provisions (S) within contract documents when specialized testing regimes or unique markings are required.
| Provisions Code | Technical Purpose | Mandated Pass/Fail Criteria |
|---|---|---|
| S2 | Permanent Manufacturer's Identification | Unique trademark permanently stamped on the projecting thread end. |
| S3 | Permanent Grade Identification | "105" or "AB105" permanently stamped on the projecting end. |
| S4 | Fracture Toughness Validation (+40°F) | Charpy V-Notch 3-specimen average ≥ 15 ft-lbs; absolute single ≥ 12 ft-lbs at +5°C. |
| S5 | Fracture Toughness Validation (-20°F) | Charpy V-Notch 3-specimen average ≥ 15 ft-lbs; absolute single ≥ 12 ft-lbs at -29°C. |