Contact Us

Nano Lube Technologies, L. L. C. is located in the town of Gurnee in Northeast Illinois. Situated approximately halfway between Chicago and Milwaukee provides us with easy access to most major transportation.

Our mailing address is:

Nano Lube Technologies, L. L. C.

4191 Grove Avenue

Gurnee, IL 60031

Phone:

847-775-0004

E-Mail:

sales@nanolubetechnologies.com

ABOUT US

Nano Lube Technologies is a division of Station Eight, Inc. and is headed up by Bradley Sheldon & Walter Sheldon. Their "Think outside the box" approach to many lubrication and release applications has resulted in identifying markets for WS2 that were previously limited or unserved.

Bradley Sheldon:

Involved with Tungsten based products since 1996, Brad has been developing Nano Lube Technologies with Walter Sheldon to focus on the development of Tungsten Disulfide market areas outside of the spray marketplace.

Michael Ostrowski:

With 30+ years in the tribology field Michael brings a wide range of lubrication knowledge to the company. Michael's work with many large companies to solve lubrication, bearing, & mechanical seal issues for a wide variety applications. Michael's consulting work has been invaluable.

Walter M. Sheldon, Jr.

With over 40 years in the chemical and metallurgical fields Walter formed Nano Lube Technologies with Bradley. He brings a vast knowledge of these fields to creating new uses for Tungsten Disulfide.

WS2 CERTIFICATIONS

WS2 coatings are used under many specifications depending on the company and industry served. Some but not all of the many specifications are listed below.

Aero Jet General

AGC-46793


Airesearch-Phoenix

EMS52437 Type 1 Rev. C


Airesearch Ca.

DOD-L-85645 A Type 1


Allied Signal

DOD-L-85645 A Type 1


Army

MIS-30715


Associated Spring

728770


Autonetics/North American Rockwell

ST0140-AB-0016, ST0140-AB-0015


C&M Spring & Engineering

CM 2963


Consolidated Controls

S-3265, S-3267-BAC


Data Products

DLS-801392-002


Department of Defense

DOD-L-85645 A Type 1


Fairchild Controls Systems

SWP-935


Garrett Corp./Pneumatic Systems 

GPS 3214


General Electric

F50TF57


G&H Technology

999-146, MT866-1239RC, PS-00060


Huck Manufacturing

607


Hughes Aircraft

DP-50068


Hydraulic Research/H.R. Textron  

ESS-064, ESS-064-1


ITT Cannon Electric

EPS-8224


JPL

FS 516025 Rev. A


Leach Relay Division

301-2010-00, 300-0024


Lockheed

LPS-040-0160/NAS


Marquardt Company

MPS-1105


McDonnell Douglas

STP 0475, DMS 2405


Moog, Inc

EP 3466


MPB Corporation

EPS 247 Rev. “C”


MPB/Split BallBearing

EPS 52 Rev. “B”


Navy

WS17650


New Departure Hyatt

SPP 005


New Hampshire BallBearing

PES 3.1.012, SP 10.4, SP 12.2


Pacific Scientific/Kim Tech

SCO 02.83


Pala Verdes Business Enterprises, Inc.

PV97-8001


Parker Hannifin

DOD-L-85645 A Type 1


Rocketdyne 

SEM83-HAS-27, REF: ECR HIA0200


Rockwell International/Space

MBO 140-009, REF: MC 999-0096


Sargent Industries

5-A-A Dicronite® DL-5, AMS 9.02


Sawyer Industries

F.S.C.M. 25504


Sperry Corporation

P-2595217


Sunstrand Operations

PN 14. 16-01


Torr Vacuum

SPS 450


Transco

SPS 4-101, SPB 38-2, APS-107


TRW

SL-27P-07; C600541-1, PR6-20-1


Turbomach/Div. Solar Turbines

ESR 2-0200

THE SCIENCE

Tungsten Disulfide is a crystalline material which looks much like small platelets. When applied to a surface the WS2 material forms a strong molecular bond with it's substrate which is difficult to remove without removing the underlying material.

The crystals themselves are comprised of many molecules of WS2 in hexagonal platelets which are held together with weak Van der Waals bonds that exist between the Sulfur atoms. When force is applied, the individual molecules slip on each other in a process that has been described as trying to walk on a floor full of plates.

Another interesting property of WS2 is that it will not build up on itself. Unlike many other materials, WS2 will not adhere to itself so there is no thickening of the WS2 layer on a friction surface. Because of this if the particle size of the WS2, for example 0.5µ, is applied, then the coating will never exceed 0.5µ.