Breaching Tools and Training Aids for Tactical Situations

Pry Bars

Pry bars come in many different materials, strengths, sizes and shapes, but when you’re in a tactical or rescue situation, you simply need a pry bar that’s dependable, durable and built to serve a single purpose. To work when you need it most.

Operators require a pry bar that stands out in terms of reliability and ruggedness. In high-stakes scenarios, where every second counts, a dependable tool can make all the difference. Look for a pry bar crafted from high-quality materials such as hardened steel or titanium, ensuring it can withstand the toughest challenges without compromising its structural integrity.

The strength of the pry bar is paramount, as it needs to exert force effectively without bending or breaking. Opt for one with a reinforced design, capable of handling intense pressure without faltering. Additionally, consider the size and shape of the pry bar to ensure it is versatile enough to navigate various situations, yet compact and portable for ease of use and transport.

In tactical or rescue operations, versatility is key, so a pry bar with additional features like integrated cutting edges, nail pullers, or built-in wrenches can be invaluable. Look for a tool that goes beyond the basics, providing multifunctional utility without sacrificing its core purpose.

Ultimately, when the stakes are high and time is of the essence, a dependable and durable pry bar designed for a specific mission can be the unsung hero in your toolkit, ensuring it works flawlessly when you need it most.

Pros and Cons of Steel vs Titanium Pry Bars

Steel and titanium are both popular materials for pry bars, each with its own set of advantages and disadvantages. Here’s a comparison of the pros and cons of steel vs. titanium pry bars:

Steel Pry Bars:

Pros for Steel:

Strength and Durability: Steel pry bars are known for their high strength and durability, making them suitable for heavy-duty applications.

Cost-Effective: Steel is generally more cost-effective than titanium, making steel pry bars a more budget-friendly option.

Wear Resistance: Steel has good wear resistance, ensuring that the pry bar can withstand repeated use without significant deterioration.

Cons for Steel:

Weight: Steel is denser than titanium, resulting in heavier pry bars. This can be a drawback when considering portability and ease of use over extended periods.

Corrosion Susceptibility: Some types of steel can be prone to corrosion, especially in humid or salty environments. However, many pry bars are coated or treated to mitigate this issue.

Titanium Pry Bars:

Pros for Titanium:

Lightweight: Titanium is known for its excellent strength-to-weight ratio, making titanium pry bars significantly lighter than their steel counterparts. This is advantageous for portability and reducing user fatigue. Weight is also a factor that can be important for those engaged in air operations.

Corrosion Resistance: Titanium is highly corrosion-resistant, making it suitable for use in various environmental conditions, including saltwater exposure. This makes titanium a superior choice for those who work in a maritime environment or will infiltrate a target area by water.

Non-Magnetic: Titanium is non-magnetic, which can be beneficial in certain situations where magnetic attraction is a concern, such as EOD operations or working around IED/booby trapped locations.

Cons for Titanium:

Cost: Titanium is generally more expensive than steel, which can be a significant factor for budget-conscious users.

Lower Strength: While titanium is strong, it is not as strong as some high-grade steels. In applications requiring maximum strength, steel pry bars might be preferred.


The choice between steel and titanium pry bars depends on the specific mission requirements of the task at hand. If strength and cost-effectiveness are top priorities, steel may be the preferred choice. On the other hand, if lightweight construction and corrosion resistance are critical, a titanium pry bar might be more suitable. Ultimately, the decision should be based on the user’s preferences, budget, and the intended use of the pry bar.