9 gauge vs. 12 gauge wire
9 gauge and 12 gauge baling wire have different tensile strengths, load strengths, diameters, and use cases. We’ll discuss the importance of wire gauge and how these two gauges differ from one another.
Wire gauge vs. wire diameter
A wire’s diameter is inversely correlated to its gauge. Gauge decreases as diameter increases, and vice versa.
Wire gauge is derived from the baling wire manufacturing process, which involves drawing the wire through progressively smaller holes. The drawing process uses a draw plate, which is a tool with a series of conical or cylindrical holes that decrease in size.
Each pass through a hole reduces the wire’s diameter by a specific increment, and subsequently increases the gauge. For example, a 9 gauge wire has been drawn through 9 progressively smaller holes. This process is repeated until the desired diameter is achieved.
The American Wire Gauge (AWG) system is commonly used in North America, while the British Standard Wire Gauge (SWG) system is used in the United Kingdom and some other countries.
Wire diameter refers to a given wire’s cross sectional thickness. It is typically expressed in millimeters or inches, and provides a direct measurement of the wire’s physical size.
The diameter of a given gauge of wire may vary depending on the material and manufacturing specifications. For example, 12 gauge galvanized single loop bale ties in the AWG system will have a specific diameter, but the diameter may differ between copper, steel, or aluminum wires due to variations in their physical properties.
Thickness and strength
If all factors are equal, a larger diameter wire will be stronger than a smaller diameter wire (e.g. a 9 gauge wire is stronger than a 12 gauge wire).
9 gauge vs. 12 gauge wire comparison
9 gauge wire |
12 gauge wire | |
Thickness |
0.148 inches |
0.105 inches |
Tensile strength |
100,000–220,000 psi depending on wire type |
65,000–200,000 psi depending on wire type |
Load strength |
2,040–2,150 lbs |
565–1,385lbs |
A9 gauge wire is 0.043 inches thickerthan a comparable 12 gauge wire. 9 gauge wire is used for baling denser and more expansive materials, due to its greater load and tensile strength.
Baling wire finishes
Our annealing process improves our black annealed wire’s ductility, and hot-dip galvanization adds a rust-resistant layer of zinc to our galvanized products.
Galvanized baling wire is coated in zinc, which makes it more resistant to rust, even in wet and humid conditions. The zinc coating acts as a barrier between the steel wire and moisture in the environment, providing corrosion protection.
At Baling Wire Direct, we offer Class 3 galvanization on all our galvanized wire products, which delivers significantly higher corrosion resistance than standard Class 1 galvanization. Some of the differences between the different galvanization classes include:
- Class 1 galvanization. Our Class 1 galvanized steel wire offers a basic zinc coating that uses 0.28 ounces of zinc per square foot. Class 1 galvanized wire is more cost-effective, but will typically rust after anywhere from 2–11 years, depending on the environment. In coastal areas, Class 1 coating fails even sooner due to saltwater corrosion.
- Class 3 galvanization. With 0.80 ounces of zinc per square foot, this premium galvanization is nearly 3 times thicker than Class 1. The robust coating is more resistant to corrosion, providing a lifespan of 13–30 years. Class 3 galvanization is better suited for harsh environments.
Annealing involves heating the steel above its recrystallization temperature, maintaining that temperature, and then cooling it. This creates a uniform atomic structure, increases ductility and flexibility, and reduces brittleness to produce a smooth wire that is durable and easy to use.
Baling wire products we offer
Baling Wire Direct sells the following high-quality baling wire products.