NSF H1 lubricants are registered for use where incidental food contact is possible, while NSF H2 lubricants are permitted only where contact with food is impossible. The categories come from the NSF Nonfood Compounds Registration Program, which replaced the USDA approval scheme in 1999. Picking the wrong category, or letting the two mix in the workshop, is the difference between a defensible trace event and a contamination incident. Here is what each category means, where it belongs, and how maintenance teams keep them apart.
NSF registers lubricants by where they may be used relative to food:
Two related marks: 3H covers release agents that touch food directly, and ISO 21469 certifies hygienic lubricant manufacturing beyond H1 registration.
The dividing question is physical: under a realistic failure, could this lubricant reach product or a product-contact surface? If yes, the point requires H1.
Make the call per lubrication point, not per machine. The same filler can have an H1 gearbox above the bowl and an H2 motor bearing at floor level, which is why lubrication surveys and asset-level records beat a blanket policy.
Suppose a gearbox above a mixing vessel blows a seal and loses 50 ml of oil into a 2,000 kg batch of sauce:
On a 2,000 kg batch, 10 ppm corresponds to just 20 g of oil, about 22 ml. H1 does not make leaks acceptable; it makes trace-level incidental contact defensible while you fix the root cause.
H2 lubricants persist because their wider additive chemistry historically gave better extreme-pressure performance and service life in heavily loaded gearboxes and hydraulics. Modern synthetic H1 products on PAO and PAG base stocks have closed most of that gap, so many plants now standardize on H1 site-wide, which eliminates the most dangerous failure mode: a technician grabbing the wrong cartridge during a night-shift breakdown. If you keep H2 for performance reasons, a mixed inventory is only as safe as its labeling, storage, and task discipline.
Most cross-contamination traces back to tribal knowledge: the retiring technician knew which grease went where, and the successor guessed. A computerized maintenance management system (CMMS) removes the guesswork:
Fabrico is an EU-built CMMS and real-time production monitoring platform with EU data residency: the data foundation for exactly this kind of program. In Fabrico's CMMS, every asset holds its lubrication specification, every preventive task states the registered product and quantity, and every completed work order becomes auditable history tied to the machine. Spare-parts management keeps H1 and H2 stock itemized separately, so stores issue what the task prescribes. And because Fabrico tracks overall equipment effectiveness (OEE) in real time, you can verify that lubrication-related stoppages shrink as the program matures.
No. H2 requires no possibility of contact, not low probability. If a drip, splash, or mist could reach product under any realistic failure, the point requires H1. "Unlikely" is the scenario H1 exists for.
No. H1 means the formulation uses permitted substances and incidental contact up to 10 ppm is tolerated. A visible leak usually exceeds 10 ppm quickly and still requires batch evaluation and repair. Edible-oil products fall under H3, a separate category.
They ask for the lubrication survey, check that stored products match the approved list and carry NSF registration numbers, then test traceability: they pick an asset and ask which lubricant was applied, when, and by whom. Per-asset task records in a CMMS answer that in seconds; a paper lube chart usually cannot.
Ready to put your lubrication program on a per-asset, audit-ready footing? Book a Fabrico demo and see how lube-type tracking, preventive scheduling, and work order history come together in one system.
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