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Testing of lubricants, oils and other products

            The laboratory of technological lubricants testing of SFCC UAI  is accredited for technical competence and independence in the accordance with the requirements of the analytical laboratories accreditation system of the Russia State Standard and is authorized to carry out testing and give formal confinements on the methods listed in the table.

Determined parameters
Test methods
Oils, Gear, Technological Lubricants, Lubricant-Coolants, Grease, Preservatives, Waste Oils, etc.
1
Kinematic viscosity
GOST 33
2
Viscosity index
GOST 25031
3
Temperature of the flash in the open crucible
GOST 4333
4
Density at 20°C
GOST 3900
5
Pour point
GOST 20287
6
Water content
GOST 2477
7
Content of mechanical impurities
GOST 6370
8
Acid number
GOST 5985; GOST 11362
9
Sulfur content
GOST 1431
10
Saponification value
GOST 11362
11
Ash content
GOST 1461
12
Carbon
GOST 19932
13
Calipatria
GOST 6793
14
Base number
GOST 11362
15
Mass fraction of active elements (calcium, barium, zinc)
GOST 13538
16
pH emulsions
GOST 6243
17
Relative viscosity
GOST 8420
18
Penetration
GOST 5348
19
Colloid stability
GOST 7142
20
Content of free alkali
GOST 6707
21
Content of mechanical impurities insoluble in hydrochloric acid
GOST 6479
22
Stability against oxidation, mass fraction of free acids
GOST 5734
23
Adhesive ability (reset the centrifuge at the separation factor 4500)
GOST 20458
24
Low-temperature properties
GOST 20458
25
Content of water-soluble acids and alkalis
GOST 6307
26
Corrosive impact on metals
GOST 2917
27
Protective ability when exposed to salt fog
GOST 9.054 method 3
28
Protective capacity at a constant immersion in the electrolyte
GOST 9.054 method 4
29
Protective ability when exposed to bromatological acid
GOST 9.054 method 5
30
Protective ability at higher values of relative humidity and air temperature:
            - with constant moisture condensation on samples
- with periodic moisture condensation on samples
GOST 9.054 method 1
31
Protective ability in the conditions of dissimilar metals contact
GOST 9.054 method 6
32
Protective ability when exposed to sulfur dioxide
TY (technical conditions) 38.1011289-90
33
Lubricating properties on four-ball machine of friction (CHMT-1):
            - welding load
- critical load
- index of abrasion
- wear scar diameter
GOST 9490
34
Draw depth of the sheet material on the machine IA-5073-50
GOST  10510
35
force deformation in the direct extrusion of billets of steel (diameter 4.9mm and
length 15mm) to the deformation degree of 40%
ТУ 0258-080-06377289-2010
Paint, metallic and nonmetallic inorganic coatings
36
Resistance of coatings to the effects of salt fog
GOST 9.401
37
Protective ability when exposed to neutral salt fog
GOST 9.308 method 1
Steel wire rope
38
Ttemporal rupture strength
GOST 3241
39
Actual breaking load
GOST 1497; GOST 10446
Structural rolled steel, hololepidotus rolled steel, silver-plated rolled steel
40
Pproportional limit
GOST 1497; GOST 10446
41
Elastic limit
GOST 25.503; GOST 10446
42
Physical limit of fluidity at stretching and compression
GOST 1497; GOST 25.503;
GOST 10446
43
Conditional limit of fluidity at stretching and compression
GOST 1497; GOST 25.503;
GOST 10446
Steel wire
44
Temporal resistance to stretching
GOST 1497; GOST 10446
45
Modulus of elasticity in tension and compression
GOST 1497; GOST 25.50303
46
Relative uniform elongation
GOST 1497; GOST 10446
47
Relative elongation after rupture
GOST 1497; GOST 10446
48
Rrelative narrowing of the cross sectional area after rupture
GOST 1497; GOST 10446
49
Bending angle
GOST 14019
 
50
Influence of lubricants on the quality of cataphoresis coating
Methods of “Avtovas” Co.
51
Storage stability
GOST 6243
52
The tendency to foaming
ТУ 0258-057-06377289-06
53
Sulfate ash content
GOST 12417
54
Coolant biostability
Methods of “Avtovas” Co.
55
Brittleness temperature
DIN 52012
56
The study of objects in passing, ordinary, polarized light in bright and dark field,
dispersion of particles, surface morphology
Methods on “Mikmed-1” microscope
57
Testing in the process of presipitation of the samples with determination of
deformation forces and friction coefficient
Method of estimation efficiency of
lubricating materials during sheet stamping
on IA-5073-50
58
Determining the depth of the squeezing hole, hood pressure, friction force,
friction coefficient
Method of estimation efficiency of
lubricating materials during sheet stamping
on IA-5073-50
59
Testing in the process of the internal thread forming with chipless taps, by
means of plastic deformation of metal with determination of energy-power
parameters, adhesion moment, the temperature in the contact zone and the
quality of the surface after processing
Method of estimation of efficiency of
lubricating materials in the process of
internal tread forming by means of plastic
deformation of metal
60
Testing in the process of internal thread cutting with cutting taps with
determination of energy-power parameters, the time setting, temperature in the
contact zone and the quality of the surface after processing
Method of estimation of efficiency of
lubricating materials in the process of
internal tread forming by means of plastic
deformation of metal
61
Determination of the friction torque and the wear of the samples when using
different friction pairs and lubricants in different modes of operation
Passport Gb 2.779.026.PC
62
Determination of the amount of wear, the roughness of the processed surface,
the temperature in the treatment area
Method of estimation of  efficiency of
lubricating materials on tribometric friction
machine  by schemes: “clip-roller” and
“clip-bar”
63
Determination of the amount of wear, the roughness of the processed surface,
the temperature in the treatment area
Method of estimation of efficiency of
lubricating materials on tribometric friction
machine  by schemes: “grinding wheel-
roller” and “grinding wheel-bar”
64
Determination of tool life, cutting force, the temperature in the treatment the
roughness of the processed surface
Method of estimation of efficiency of
lubricating materials in the process of
grinding
65
Determination of tool life, cutting force, the temperature in the treatment area,
the optimal cutting mode
Method of estimation of efficiency of
lubricating materials in the process of
cutting edge treatment
66
Determination of metal removal, wear of tool, the roughness of the processed
surface
Method of estimation of efficiency of
lubricating materials in the process of 
honing of internal cylindrical cavities
67
Determination of wear of rope wire and ropes
Method of estimation of the wear of the
cable strands, wires and ropes
68
Determination of thermomechanical degradation of gear oils and additives
Method of  determination of 
thermomechanical degradation of gear oils
and additives
69
Construction of the cooling curves for various quenching liduids, optimization of
heat treatment of metals and alloys
ISO 9950, Instruction manual for the
device
70
Squeezing and popping of the sample during hot and cold deformation with
determination of  deformation and popping force, the tension and coefficients of
friction
Method of estimation of efficiency of lubricating
materials in volumetric extrusion on tensile
testing machine  IR 5047-50
71
testing on dragging (reduction) with the determination of the forces dragging
(reduction)
Method of estimation of  efficiency of lubricating
materials at dragging on tensile machine  IR
5047-50
Plastic
72
Deformation strengthening indicator
GOST 14019-80
73
Elongation
GOST 11262-80
74
Yield point at stretching
GOST 11262-80
75
The limit of the tensile strength
GOST 11262-80

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