A Military Grade High Temp, Low Temp, and High Pressure Anti-Seize Compound
Qualified to meet MIL-PRF-907 Rev. F (Superseded by Revision H)
Armite’s proprietary MIL907 outperforms the DoD Mil-Spec MIL-PRF-907 Rev. F (which only requires a high temp of up to 1050°F (566°C). Armite’s MIL907 performs at high temperatures of up to 2987°F (1641°C) and at low temperatures of -350°F (-212°C) below freezing.
Armite’s MIL907 is an amazing Military-Grade Spec product, that can be used for commercial, industrial, and military purposes.
Operates from -350°F (-212°C) to 2987°F (1641°C)
Tested up to 100,000 PSI in hydraulic fluid lines
Forms a protective barrier to reduce friction and wear
Protects against rust and oxidation in harsh environments
Retains its lubricating properties over time
Effective in high-temperature environments and cryogenic applications
1. Aerospace & Defense:
2. Industrial & Manufacturing:
3. Automotive & Heavy Equipment:
4. High-Pressure & Low-Temperature Applications:
Armite’s MIL907 is an advanced military-grade anti-seize compound trusted for aerospace, industrial, and extreme-environment applications.
MIL-PRF-907 (specifically the current "H" revision) is the comprehensive military specification for anti-seize compounds used on high-temperature, high-pressure threaded fasteners. Armite’s MIL-PRF-907 compound is a general-purpose "workhorse" for the Department of Defense, ensuring that critical bolts on aircraft, ships, and tanks can be disassembled even after years of extreme environmental exposure.
This compound provides reliable protection for temperatures up to 565°C (1050°F). It is specifically designed to prevent the seizing and galling of alloy steels and corrosion-resistant steels, making it a standard requirement for engine manifold bolts, brake assemblies, and steam valves.
Yes, Armite MIL-PRF-907 is completely lead-free. This ensures compliance with modern health and safety regulations (OSHA/EPA) and prevents the environmental hazards associated with older lead-based lubricants without sacrificing performance.
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