Usage:
CLP Oils:
Mineral oils with additives improving corrosion protection and ageing resistance as well as additives reducing wear in the mixed friction field. Polyalphaolefin oils (oils on the basis of synthetic hydrocarbons) as well as bio-oils (on the basis of synthetic ester) which satisfy the demands specified for industrial type gear oils according to DIN 51517, part 3, are also permitted.
- Designation to DIN 51517, part 3 CLP 220
- ISO viscosity to DIN51519 ISO - VG 220
- Kinematic viscosity at 40°C min. 1982 /s (cSt). max. 2422 /s(cSt)
- FZG test A /8,3/90 to DIN 51354, pt. 2 min breakdown load stage 12
- ISO viscosity to DIN51519 ISO - VG 220
ATTENTION:
The LS2 entry in this class of viscosity is
L+S Groups for CLP Oils:
LS1: Tightened FZG Testing: Even under tightened FZG testing conditions A/16,6/90 these oils have attained breakdown load stage 12.
LS2: CLP Oils Compatible with Multiple Disks: When using these oils the friction coefficients are not fallen below under the conditions listed hereunder.
LS3: Polyalphaolefins: Polyalphaolefins show a tendency towards foaming when mixing with preservation oil remnants. Therefor, the unit is to be flushed with a suitable purge oil, or a mineral oil is to be used for running-in.
LS4: Environmentally Benign Oils (synthetic ester): These oils quickly biodegrade and satisfy the minimum requirements applicable to CLP oils to DIN 51517, part 3. They meet the following environmental protection needs:
- - Biodegradability acc. to CEC-L-33-A 93: Minimum degradability of 90% after 21 days (CEC=Coordinating European Council)
- - Water hazard class WGK=0 or 1 (not or just slightly harmful to water)
- - Safe with respect to ecological toxicity
- - Water hazard class WGK=0 or 1 (not or just slightly harmful to water)
NOTE: Oil changing interval as prescribed by the operating instructions!!!