JP4177596B2 - Grease composition - Google Patents

Description

【００１６】
【表２】
＜比較例＞

【００１７】
考察
ウレア系ベースグリースＡを使用したもの（実施例１〜３、５、６、比較例１、３）は、Ｌｉ石けん系ベースグリースＢを使用したもの（実施例４、比較例２）よりも、剥離寿命が長いことが分かる（実施例３と実施例４の対比、及び比較例１と比較例２の対比）。
ベースグリースによって多少の差は認められるものの、本発明の有機スルホン酸塩を添加すると、剥離寿命は約１．５〜４倍に延びることが分かる（実施例１〜３と比較例１の対比、及び実施例４と比較例２の対比）。
【００１８】
比較例３は、モノオレイン酸ソルビタンを使用しており、比較例１の添加剤なしの場合と同等の剥離寿命しか示さない。
以上のとおり、本発明の有機スルホン酸塩の剥離寿命延長効果は、顕著であり、ウレア系増ちょう剤を使用した場合（実施例１〜３、５及び６）は、特に優れていることが分かる。
【００１９】
【発明の効果】
本発明のグリース組成物は、油膜の厚膜化によらず、剥離寿命を長くすることができる。[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a grease composition used for lubrication of a machine part having a steel lubricated part that performs rolling motion, and more particularly to a grease composition that can increase the peeling life of the lubricated part.
[0002]
[Prior art]
Representative examples of mechanical parts having steel lubricated parts that perform rolling motion include rolling bearings, ball screws, and linear motion guide bearings. On the other hand, the opposite of the rolling motion is a sliding motion. The life here is not delamination but mainly wear and seizure. Typical examples of sliding mechanical parts include journal bearings (sliding bearings), pistons, screws, ropes, chains, and the like.
The peeling life of a steel lubricated part that performs rolling motion is the life due to fatigue of the metal, and in order to achieve this life, thickening the lubricating oil film has long been the only means. Therefore, conventionally, the grease used for lubrication of the lubricated part has only been required to make the oil film sufficiently thick, that is, to use a base oil having a sufficiently high viscosity.
[0003]
On the other hand, recently, as described in Japanese Patent No. 2878749 (Japanese Patent Laid-Open No. 3-210394), an automotive alternator bearing has seen a specific peeling that causes an early life that does not depend on normal metal fatigue as described above. It was a problem. This is considered to be peeling due to hydrogen embrittlement, and the same publication proposes an attempt to eliminate or reduce this specific peeling by using grease to which a passivating oxidizing agent is added. An example of adding sodium nitrate is disclosed.
However, in general metal fatigue peeling, when the oil film becomes thin, minute protrusions on the surface come into contact with each other, and surface-origin peeling tends to occur, resulting in a shortened life. The oil film thickness approaches zero as much as the speed of machine parts is zero. This state of zero speed is frequently observed in actual machine parts by repeated start / stop and reciprocating rocking motion. No grease composition is known that extends the peel life when this oil film becomes thin.
[0004]
[Problems to be solved by the invention]
An object of the present invention is to provide a grease composition used for lubricating a machine part having a steel lubricated part that performs a rolling motion.
Another object of the present invention is to provide a grease composition capable of preventing peeling due to metal fatigue caused by thinning of an oil film without extending the oil film and extending the peeling life. .
[0005]
[Means for Solving the Problems]
The present invention is a grease composition used for lubricating a machine part having a lubricated part made of steel that performs rolling motion, characterized in that it contains a base oil, a thickener, and an organic sulfonate. A grease composition is provided.
As described above, the peeling life due to metal fatigue has been conventionally achieved by increasing the thickness of the oil film of grease. However, the present invention can be expected without increasing the thickness of the oil film by adding a specific compound. A grease composition capable of achieving the above objectives is provided.
[0006]
DETAILED DESCRIPTION OF THE INVENTION
The organic sulfonate used in the present invention is a salt of a sulfonic acid having an organic group which is a lipophilic group. Examples of such organic sulfonate include petroleum sulfonic acid obtained by sulfonation of aromatic hydrocarbon components in a lubricating oil fraction, and synthetic sulfonic acid such as dinonylnaphthalene sulfonic acid and heavy alkylbenzene sulfonic acid. Can be mentioned. Examples of the organic sulfonate include metal salts, basic metal salts, highly basic metal salts (base number 50 to 500 mgKOH / g), ammonium salts, and amine salts. Specific examples include alkaline earth metal salts such as Ca, Mg and Ba, alkali metal salts such as Na, K and Li, Zn salts, Pb salts, highly basic Ca salts, ammonium salts, amine salts such as ethylenediamine, and the like. Is mentioned.
Basic and highly basic sulfonates are obtained by dispersing fine particles such as calcium carbonate and calcium hydroxide in a sulfonate in order to give an acid neutralizing action. Organic sulfonates can also be used.
[0007]
The organic sulfonate used in the present invention is often used as a main additive of so-called rust prevention oil for the purpose of temporary rust prevention in storage, transportation and maintenance of metal products and the like. As with other rust inhibitors, they are generally used for greases that require rust prevention properties. However, the organic sulfonate itself does not have effects such as extreme pressure and friction reduction, and is not an additive used for the purpose of improving lubricity.
Moreover, as far as the present inventor is aware, there is no report or disclosure that the organic sulfonate itself prolongs the peeling life due to metal fatigue of steel.
[0008]
In the grease composition of the present invention, the organic sulfonate may be used alone or in combination of two or more.
In the grease composition of the present invention, the content of the organic sulfonate is preferably 0.1 to 10% by mass, and more preferably 0.5 to 5% by mass. If the amount is less than 0.1% by mass, the effect is insufficient, and even if 10% by mass or more is added, the effect is saturated.
[0009]
The thickener used in the grease composition of the present invention is not particularly limited. Preferred examples include soap thickeners represented by Li soap and composite Li soap, urea thickeners represented by diurea, inorganic thickeners represented by organoclay and silica, and representative PTFE. And organic thickeners. Particularly preferred are urea thickeners.
Recently, grease compositions using urea-based thickeners are often used for applications that require peeling resistance. This is presumed to be due to the rolling surface protection of the urea compound, and when a urea-based thickener is used in the present invention, the effect of improving the peel life is more remarkable. Urea-based thickeners have fewer defects than other thickeners, are relatively inexpensive, and are highly practical.
The content of the thickener in the grease composition of the present invention varies depending on the type of the thickener. The consistency of the grease composition of the present invention is preferably 200 to 400, and the content of the thickener is an amount necessary to obtain this consistency. In the grease composition of the present invention, the content of the thickener is usually 3 to 30% by mass, preferably 5 to 25% by mass.
[0010]
The base oil used in the grease composition of the present invention is not particularly limited. For example, all base oils including mineral oil can be used. In addition to mineral oils, ester synthetic oils represented by diesters and polyol esters, polyalphaolefins, synthetic hydrocarbon oils represented by polybutene, alkyl diphenyl ethers, ether synthetic oils represented by polypropylene glycol, silicone oils, and fluorination Various synthetic oils such as oil can be used.
[0011]
Various additives can be added to the grease composition of the present invention as necessary. Examples of such additives include antioxidants, rust inhibitors, metal corrosion inhibitors, oiliness agents, antiwear agents, extreme pressure agents, and solid lubricants.
[0012]
In the grease composition of the present invention, there are still many unclear parts about the mechanism by which the organic sulfonate improves the metal fatigue life, but the following inference can be considered at this stage.
The main function of the rust inhibitor is to create a dense adsorption film on the metal surface and prevent the metal from rusting due to contact with water and oxygen. In particular organic sulfonate rust resistant strongly polar group (-SO ₃ ^-) has a, other rust inhibitors, for example, seems to be compared to the ester (alcohol) or an amine to form a firm adsorption film It is. Therefore, it is considered that in the lubricated portion, a film is formed on the iron oxide layer, and this hard and dense iron oxide layer is protected, so that the occurrence of peeling can be effectively prevented even when the oil film is thin.
As described above, the organic sulfonate of the present invention peels off without thickening the oil film by forming a film on the iron oxide layer in the lubricated part and protecting the hard and dense iron oxide layer. It is thought that the lifetime can be extended.
[0013]
Examples 1-7, Comparative Examples 1-5
As described in Tables 1 and 2, a predetermined amount of additives were added to the base grease, mixed well, and kneaded with a three-roll mill to produce a grease composition.
Base grease A Thickener: Diurea base oil: P mineral oil, 230 mm ² / s @ 40 ° C
Consistency: No. 1 Grade B Thickener: Li soap base oil: P mineral oil, 230 mm ² / s @ 40 ° C
Consistency: No. 1 Grade Additive C Calcium dinonylnaphthalenesulfonate (NASUL 729 manufactured by KING INDUSTIRES)
D Zinonyl naphthalene sulfonic acid zinc salt (NASUL ZS from KING INDUSTIRES) E Dinonyl naphthalene sulfonic acid ammonium salt (NASUL AS from KING INDUSTIRES)
F Highly basic organic sulfonic acid calcium salt (Bryton C-400C manufactured by Witco),
G sorbitan monooleate (NONION OP-80R, manufactured by NOF Corporation)
[0014]
Evaluation test method Rolling 4 ball test test method Prepare three steel balls for bearings with a diameter of 15 mm and place them in a cylindrical container with an inner diameter of 36.0 mm at the bottom, an inner diameter of 31.63 mm at the upper end, and a depth of 10.95 mm. Apply 20 g of test grease. When one φ5 / 8 inch bearing steel ball is brought into contact with the three steel balls and rotated at a predetermined rotational speed, the lower three steel balls revolve while rotating. This is continuously rotated until peeling occurs on the steel spherical surface.
* Peeling occurs between the spheres with the highest surface pressure.
* The service life is the total number of revolutions at the time of peeling.
Test condition Test steel balls: φ5 / 8in bearing steel ball (rotating ball), φ15mm bearing steel ball (driven ball)
Test load (W): 400kgf (6.5GPa) *
Rotational speed (n): 1500rpm
Number of test repetitions: 5 (average life: average of n = 5)
* Maximum Hertz pressure between spheres. A value of 6.5 GPa is a very high surface pressure, and the oil film is in a considerably thin state.
Tables 1 and 2 show the grease composition and test results.
[0015]
[Table 1]
<Example>

[0016]
[Table 2]
<Comparative example>

[0017]
Discussion Those using urea base grease A (Examples 1-3, 5, 6 and Comparative Examples 1 and 3) are more than those using Li soap base grease B (Example 4 and Comparative Example 2). It can be seen that the peel life is long (contrast between Example 3 and Example 4 and comparison between Comparative Example 1 and Comparative Example 2).
Although a slight difference is recognized depending on the base grease, it can be seen that when the organic sulfonate of the present invention is added, the peel life is extended about 1.5 to 4 times (contrast of Examples 1 to 3 and Comparative Example 1, Comparison of Example 4 and Comparative Example 2).
[0018]
Comparative Example 3 uses sorbitan monooleate and exhibits only a peel life equivalent to that of Comparative Example 1 without the additive.
As described above, the peeling life extending effect of the organic sulfonate of the present invention is remarkable, and when the urea-based thickener is used (Examples 1 to 3, 5 and 6), it is particularly excellent. I understand.
[0019]
【The invention's effect】
The grease composition of the present invention can extend the peeling life regardless of the oil film thickness.

Claims (3)

A grease composition used for lubricating a machine part having a steel lubricated part that performs rolling motion, comprising a base oil, a thickener, and a component that extends a peeling life due to metal fatigue , The thickener is a urea compound, the component that extends the peeling life due to metal fatigue is composed only of an organic sulfonate , the organic sulfonate is a calcium salt, a zinc salt, an ammonium salt, and a high basicity A grease composition characterized in that it is at least one selected from the group consisting of calcium salts, and the content of the organic sulfonate in the grease composition is 2 to 10% by mass.   The grease composition according to claim 1, wherein the content of the organic sulfonate is 2 to 5% by mass. The grease composition according to claim 1 or 2 , wherein the mechanical part is a rolling bearing, a ball screw, or a linear guide bearing .