Sorry, you need to enable JavaScript to visit this website.
Skip to main content

CUSTOMER SERVICE: 201.518.2979

CAPTCHA
Enter the characters shown in the image.
This question is for testing whether or not you are a human visitor and to prevent automated spam submissions.

Dry Film Lubricants

DRY FILM LUBRICANTS

DRY FILM LUBRICANTS

“Dry Film Lubricants”, (DFLs) also called solid film lubricants (SFLs), are:

  1. Materials with inherent lubricant properties.
  2. Firmly bonded to the surface of a substrate.
  3. Applied in the liquid state, generally by spray, tumble coater, or bath immersion.

Unlike wet lubricants, such as oil and grease, which stay ‘wet’ while on the part, dry film lubricants go on wet but then dry on the part they have been applied to. Particles do not stick to dry lube. Dry lube does not require any maintenance like wet lube. DFLs can be powder or liquid coatings such as PTFE, Xylan®, Epoxy, Polyester, or Urethane.

The range of coatings includes environmentally friendly and REACH-compliant coatings, as well as air-cured, high-temperature, and PTFE. Among the solid film lubricants coatings we offer are Everlube®, Microseal®, Lube-Lok®, Lubri-Bond®, Ecoalube®, Ever-Slik®, Esnalube™, Perma-Slik®, Electrobond®, Flurene® , Formkote® and Henco-Mask™.

Dry film lubricants consist of a combination of resin binders and lubricating pigments. The resin holds the lubricating pigment in place, forming a layer between the rubbing surfaces. As the surfaces move, the coating prevents direct contact with the substrate materials.

a greener future with Everlube

At Curtiss-Wright Surface Technologies, we’re committed to helping customers meet evolving environmental and regulatory requirements without compromising performance.

PFAS Compliance

With increasing restrictions on PFAS substances, industries face mounting pressure to align with sustainability goals and future legislation. Our Everlube® dry film lubricants are engineered to support this transition.

PTFE Grades for Continued Performance

We’ve developed next-generation PTFE-based grades that maintain the proven wear resistance, low friction, and durability customers expect—while meeting the latest PFAS compliance requirements.

Fluoropolymer-Free Innovation

For applications requiring a completely fluoropolymer-free solution, Curtiss-Wright is proud to introduce our new line of fluoropolymer-free DFLs. These advanced formulations deliver reliable lubrication and corrosion protection—helping customers achieve both environmental compliance and operational excellence.

SPECS & APPROVALS

DFL Spec Approvals

STANDARD ISSUER
AMS 2488 SAE
AMS 2525 SAE
AMS 2526 SAE
AMS 2530 SAE
AMS 2700 SAE
AS 1701 SAE
AS 5272 SAE
ASTM B904-00 ASTM-EMI/RFI Plating Spec
BAC-5811 BOEING
BMS 10-85 BOEING
BMS 3-8 BOEING
1E1675G CATERPILLAR
DMS 1762 (BAC5811) BOEING
DOD-L-85645 DEPT. OF DEFENSE
DTW 1248 JOHN DEERE
FMS 3101 LOCKHEED MARTIN
GE A50TF305 GE AEROSPACE
GE A50TF9 GE AEROSPACE
GMW 17182 GENERAL MOTORS
HS 295 HI-SHEAR CORP
HS248 RTX Corp. (Pratt & Whitney)
IAW 12469123 DEPT. OF DEFENSE
MIL-A-8625 DEPT. OF DEFENSE
MIL-DTL-16232 DEPT. OF DEFENSE
MIL-DTL-53072 DEPT. OF DEFENSE
MIL-DTL-5541 DEPT. OF DEFENSE
MIL-L-23398 DEPT. OF DEFENSE
MIL-L-46010 DEPT. OF DEFENSE
MIL-L-81329 DEPT. OF DEFENSE
MIL-L-8937 DEPT. OF DEFENSE
MIL-PRF-22750 DEPT. OF DEFENSE
MIL-PRF-23377 DEPT. OF DEFENSE
MIL-PRF-46010 DEPT. OF DEFENSE
MIL-PRF-46147 DEPT. OF DEFENSE
MIL-PRF-85285 DEPT. OF DEFENSE
MIL-PRF-85582 DEPT. OF DEFENSE
MIL-STD-171 DEPT. OF DEFENSE
E122 MUELLER
NAS 4006 NAS
PS 18021 BOEING
PWA 36210 RTX Corp. (Pratt & Whitney)
PWA 36211 RTX Corp. (Pratt & Whitney)
PWA 36212 RTX Corp. (Pratt & Whitney)
PWA 36545 RTX Corp. (Pratt & Whitney)
RPS 661/10 ROLLS ROYCE
SPEC 616 HOWMET FASTENING
SPEC 628 HOWMET FASTENING
SPEC 630 HOWMET FASTENING
T 1013 HOWMET FASTENING
TT-C-490 HOWMET FASTENING
10PRC-0575 UNITED SPACE ALLIANCE

DFLs create a “Slippery” Factor

Without SFL

Fretting and galling of the substrate

With SFL

Protective layer created between substrates

Dry Film Lubricants – Brands

With and Without Solid Film Lubricants
  • Everlube® (H3)
  • Microseal®
  • Lube-Lok®
  • Lubri-Bond®
  • Ecoalube®
  • Ever-Slik®
  • Esnalube™
  • Perma-Slik®
  • Electrobond®
  • Flurene®
  • Formkote®
  • Henco-Mask™

Dry Film Lubricants – Environmental Factors

Solid Film Lubricants excel in:

  • High load applications
  • Applications where a very low coefficient of friction is desired
  • High-temperature environments
Chemical and corrosion Delays or prevents corrosion
Abrasion resistance / reduced wear Withstands loads in excess of 250 ksi
Friction Reduces coefficient of friction
Lubrication Does not attract containments like “wet lubes”
  No maintenance required
Water Based Coatings Lower VOCs, easy to apply
Temperature From -395ºF (-237ºC) to over 2000ºF (1093ºC)

Dry Film Lubricants- Product Applications

Fasteners: Torque/tension control, anti-galling, corrosion resistance
Couplings: Lubrication, anti-seize, chemical & corrosion resistance
Valves: Chemical & abrasion resistance, anti-seize
Pumps: Break-in lubrication, wear-life extension, chemical resistance
Gears: Close tolerance, precision gear lubrication, break-in lubrication
Bearings – Operation in vacuum or dirty environment, temperature extremes
Turbines: Turbine blade root sections and disk slots to aid in assembly, disassembly and reduces fretting and galling.
Firearms: Wear resistance, protection against corrosion, durability, lubricity, and decreased friction.

Dry Film Lubricants – Main Categories

Crystalline Lattice (lamella) Type Structures

The shear forces between the layers are weak, which results in increased lubricity between the sliding surfaces.

  • Molybdenum Disulfide (MoS2)
  • Tungsten Disulfide (WS2)

Graphite and Fluorocarbons

PTFE is a white, opaque synthetic fluoropolymer that provides lubrication in continuous use up to 260oC (500oF). The fluorocarbon molecule is structured such that the fluorine atoms surrounding the carbon atoms prevent any other atoms from getting near the carbon, Prohibiting any further reaction. For this reason, PTFE is very unreactive which causes it to have a very low coefficient of friction and allows things to slide across its surface very easily.

Dry Film Lubricants – Benefits

The key factors for PTFE dry film lubricant coatings are:

  • Flexible
  • Chemically resistant
  • Non-stick characteristics
  • Electrically resistant
  • Very low coefficient of friction, especially in lower load carrying applications
  • Improve chemical resistance to attack, abrasion and corrosion.
  • Enhance performance of the material:
    • corrosion protection
    • wear resistance
    • electrical insulation
    • electromagnetic shielding
    • chemical agent resistance.

Speak to an Expert

Selecting the Correct Dry Film Lubricant

What properties are desired

What is the environment

Load carrying capacity

Temperature

Low coefficient of friction

High vacuum

Corrosion resistance

Moisture / Humidity

Electrical properties

Presence of oxygen

 

Radiation

Dry Film Lubricants – Types

properties Molybdenum Disulfide Graphite PTFE
Load carrying capacity >250 ksi <50 ksi <20 ksi
Coefficient of friction 0.04-0.08 0.04-0.10 0.02-0.04
Affect of moisture Negative Positive None
Electrical conductivity Not conductive Conductive Not conductive
Max operating temp in air 750F 1200F 500F
Operation in fluids /lubes Break-in only Break-in only Yes
Key strength High loads, operates in vacuum and cryogenic environments Moderate loads, high operating temp., electrically conductive Does not lubricate sacrificially, clean environments, coatings can be decorative

Other Liquid Coatings – EMI/RFI Shielding

Electrostatic discharge makes Smaller electronic components particularly susceptible to damage or failure. EMI/RFI shielding blocks unwanted external and internal electromagnetic waves from emitting and interfering with other circuits or devices.
Learn more about EMI/RFI Shielding

print