Superior Heat Resistance Keeps Oven Chain Operating Freely
Ovenworx® H1 Syn Chain Lubricant (4061) was formulated specifically to combat the demanding conditions present with oven chain applications. In addition, it is approved for incidental food contact and contains no artificial dyes, making it a good choice for food manufacturing plants.
Oven chain efficiency is dependent upon a lubricant that can keep the chain operating freely and smoothly, fighting the ever present heat and moisture that can cause corrosion and eventually lead to premature failure of oven chain pins and bushings. Only the most robust lubricant formulations can perform in this application; it is not an area to cut corners. If the oven chain fails, output comes to a screeching halt.
In addition to this high level of protection, equipment runs more cleanly and efficiently with Ovenworx 4061, which lubricates without the need of solids. Lubricants with solids have to be stirred to keep the solids distributed within the carrier and prevent them from falling out of the suspension. Solids also can create housekeeping issues by building up over time, creating gum and gunk around the application area, especially when over-applied.
Ovenworx® H1 Syn Chain Lubricant (4061) was formulated specifically to combat the demanding conditions present with oven chain applications. In addition, it is approved for incidental food contact and contains no artificial dyes, making it a good choice for food manufacturing plants.
Oven chain efficiency is dependent upon a lubricant that can keep the chain operating freely and smoothly, fighting the ever present heat and moisture that can cause corrosion and eventually lead to premature failure of oven chain pins and bushings. Only the most robust lubricant formulations can perform in this application; it is not an area to cut corners. If the oven chain fails, output comes to a screeching halt.
In addition to this high level of protection, equipment runs more cleanly and efficiently with Ovenworx 4061, which lubricates without the need of solids. Lubricants with solids have to be stirred to keep the solids distributed within the carrier and prevent them from falling out of the suspension. Solids also can create housekeeping issues by building up over time, creating gum and gunk around the application area, especially when over-applied.
Unit of Measure
Benefits and Recommendations
Available Container Size |
N/A Pail |
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N/A Don't See Pricing? Register Today! |
GHS Statement |
N/A For commercial and professional use only |
Beneficial Qualities |
N/A
High-Performance
|
Performance Requirements Met or Exceeded |
N/A
|
Industry Recommendations |
N/A
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Typical Applications |
N/A
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Performance Test Results
Relative Density @ 60ºF/60ºF, ASTM D1298 |
N/A 0.976 |
Viscosity @ 100°C, cSt, ASTM D445 |
N/A 18.7 |
Viscosity @ 40°C, cSt, ASTM D445 |
N/A 205.1 |
Viscosity Index ASTM D2270 |
N/A 101 |
Flash Point ºC (ºF), (COC), ASTM D92 |
N/A 300 (572) |
Pour Point °C (°F), ASTM D97 |
N/A -39 (-38) |
Four-Ball Wear @ 75ºC, 1200 rpm, 40 kgf, 60 minutes, mm wear, ASTM D4172 |
N/A 0.32 |
SRV Wear 50°C, 1 mm stroke, 50 Hz frequency, ball on disc, break-in load 50 N, test load 300 N, 2 hrs, ASTM D6425 |
N/A ↓ |
Wear Scars on Ball Length, mm |
N/A 0.80 |
Wear Scars on Ball Width, mm |
N/A 0.80 |
Coefficient of Friction Minimum |
N/A 0.115 |
Coefficient of Friction, Maximum |
N/A 0.135 |