I was really hoping some of the chemists here would render an opinion of this product. I became curious about it after seeing references and feedback on some centerfire forums. I did some research and found it interesting how this product does not provide any documentation in the way of standardized industrial lubricant tests such as; ASTM D series; Needle on Disc; Ball on Disc; Plate on Plate nor even the most applicable to guns ... Linear Motion Sliding Wear Thrust (LMSWT). Nor can I find reference to any standardized surface finish/conditioning tests. MSDS is not available at any of the primary MSDS pools nor can I find it posted on their website, not saying it's "not there" I just haven't found it yet despite making a valiant attempt. I did find a lot of conflicting information along with at least one very impressive but unsubstantiated claim of:
MOLY FUSION: "The surface becomes bullet proof".
MOLY FUSION: Molybdenum "ions" bond into the surface.
According to the information presented by a company that specialize in lubrication/corrosion coating applications:
Molybdenum ion bonding can not occur with alloy surface temperature below 735°C (1355°F). To eliminate the need for heating the entire substrate material or the use of acid reaction that is known to cause hydrogen enbrittlement, we have developed a vacuum chamber multi-arc magnetron sputter deposition machine. The principle of the vacuum chamber electric multi-arc is the integration of the cold cathode arc discharge self-sustained light unit pulse technique with magnetron sputtering technology that allows for thinning the particles in order to improve the properties of the surface deposition."MOLY FUSION: Nitrating "ions" add hardness which reduces the coefficient of friction.
From a company specializing in Molybdenum and zinc surface lubricants used primarily for drawing and forming dies:
"Nitrates/nitrating compounds allow for on-surface bonding of the coating via heat-activated acid reaction, it does not change the hardness or other mechanical properties of the substrate other than to provide a manner of semi-permanent lubrication to be used in conjunction with standard liquid/gel lubricants. Compounds are Ph neutral utilizing a phosphoric acid encapsulation technology that prevents acid release until heated to approximately 125°F."There is a definite contradiction between the following two statements.
MOLY FUSION: Some things Molyfusion can do:
The surface becomes resistant to sandpaper and hardened metal filing, due to its nonstick nature - not hardness.
MOLY FUSION: Page 5 of the directions:
If accidentally permanent treatment occurs, aggressively swipe with 600-1000 grit sandpaper and reinsert shavings and all (will make sure it grabs in the jaws). - Page "Instructions".
One of the "black powder testimonials" posted on their site got my attention:
"We did a bit of testing with Moly [Fusion] this weekend. We were testing with muzzleloaders and found some neat results. With round balls normally there is a limit to how hard you can push a ball out the barrel before the patch begins to shred and accuracy goes to pot. We found we could increase the powder charge from 60 to 90 gr. of FFFg before the patch began to shred! We did a sort of blind accuracy test. We had two White Mountain 1 in 66" twist ball barrels one treated one not. We shot groups at 100 yards off simple bench rest. The guys shooting didn't know which barrel was treated and which wasn't. We found accuracy improved from an average 7" group to 5" in the treated barrel.
No offense intended but if the patch is "shredding", something is seriously wrong with the patch/ball combo and/or the barrel. No lube of any kind is going to make up for mechanical problems.
MOLY FUSION: 4C™ Metal Prep It also is a further time saver by allowing welding through hot mill scale (if desired) and without removal. In addition, it may eliminate the need to use shielding gases in welding, since there is now no longer any oxide to weld through.
First off, hot mill scale can be welded through with common SMAW & FCAW processes although it's not advisable so as to help eliminate the possibility of inclusion ... however, with the right settings, right method and quality consumables, it is not that difficult to float the mill scale off with the flux and make a reasonably satisfactory weld. By no means does that mean I am sanctioning the lack of pre-weld cleaning, I'm just say that it is possible to do if absolutely necessary but I strongly advise against it.
As for eliminating the shielding gas, the gas is used to stabilize the arc and isolate the weld puddle from the ambient atmosphere not oxides on the metal. That also ties into the issue of weld "spatter" (not "splatter") which is not only caused by crud on the weldment but also within the weldment. Spatter is also the result of low quality consumables; incorrect voltage, amperage settings and/or stability; incorrect polarity; incorrect arc angle or length; arc issues caused by the shielding gas composition or lack thereof; incorrect filler wire feed rate; compatibility issues between base and/or filler metals .... Spatter is not comprised solely of redeposited oxides from the base metal, it can also be droplets of the base and/or filler metal as well as impurities or moisture in the flux.
Not to be a putz about this but after reading the entire website and noting the lack of scientific testing data, I find it difficult to believe any of the claims being made especially after noting the conflicting and misleading statements. I really would like the chemists to weigh in on this topic and I'll post another request in the "Over the Back Fence" forum.
