CN106520337A - Lubricant composition for white copper alloy stamping process - Google Patents

Abstract

The invention discloses a lubricant composition for a white copper alloy stamping process. Number 150 total loss system oil is used as the base oil to be coordinated with various compound additives. The lubricant composition comprises antioxidant, metal deactivator, an oily agent, a friction improver, an extreme pressure agent, an anti-wear agent, an anti-rust agent, an anti-foam agent, adhesive, a filling agent and the like. The lubricant composition has the advantages that the lubricant composition is directly used in the lubricating process of the copper alloy stamping process and is excellent in lubricating performance, dispersity and wettability, high in cleaning ability, good in cooling performance, extreme pressure property, wear resistance, friction resistance, thermal oxidization performance and shear stability, high in surface smoothness, resistant to corrosion, long in service cycle, convenient to operate and cheap.

Description

A kind of White brass alloy punch machining process lubricant compositions

Technical field

A kind of White brass alloy punch machining process lubricant compositions of the present invention belong to metal working lubricant field.

Background technology

Copper-nickel alloy is the acid bronze alloy with nickel as main adding elements, is silvery white in color, and has metallic luster, therefore named copper-nickel alloy.Cupro-nickel Between each other can infinitely solid solution, so as to form continuous solid solution, no matter that is, mutual ratio is how many, and it is permanent be α-single-phase alloy. When nickel is fused in rose copper, when content is more than more than 16%, the alloy color and luster of generation just becomes pure white such as silver, and nickel content is higher, Color is whiter.In copper-nickel alloy, the content of nickel is generally 25%.Pure copper plus nickel can significantly improve intensity, corrosion resistance, hardness, resistance and heat Electrically, and be easy to plastotype, processing and weld^[6], and reduce temperature coefficient of resistivity.Therefore copper-nickel alloy is compared with the machinery of other copper alloys Performance, physical property are all abnormal good, ductility is good, hardness is high, color and luster is attractive in appearance, it is corrosion-resistant, be rich in deep drawability, extensively made For fields such as shipbuilding, petrochemical industry, electrical equipment, instrument, medical apparatus and instruments, building, electric power, article of everyday use, musical instrument making, artwares, And or important resistance and thermocouple metal.

One kind of Metal Forming during punch process.It is by mould to panel material apply external force, the separation for being or Plastic deformation is produced, so as to obtain the parts machining method of certain physical dimension, shape and structure and performance.Also commonly referred to as Plate stamping is processed or plate forming processing.And the less plate stamping of thickness is typically carried out at normal temperatures, also referred to as cold stamping. Stamping parts interchangeability in terms of form and dimensional precision is good, can meet general assembling and the requirement of performance.Because plus In work, stamping parts lives through the plastic deformation of metal, and its internal grain is refined, so the structure of metal changes, it is internal Tissue obtains different degrees of improvement, and the mechanical property of materials is improved.Here it is stamping parts have lightweight, good rigidity, High precision, remaining difference are worked good and the features such as smooth in appearance；And punch process production efficiency is high.Punching press lubricant is in punch process mistake Very important effect is played in journey.

The content of the invention

The technical problem to be solved in the present invention is to provide a kind of with excellent greasy property, dispersibility, wellability, cleaning Ability is strong, and cooling, extreme pressure property, wear resistence, antifriction quality, thermal oxidation, shear stability are good, and surface smoothness is high, anticorrosive Long with usage cycles, easy to operate, cheap White brass alloy punch machining process lubricant compositions.

The present invention solves above-mentioned technical problem by following technical solution：

A kind of White brass alloy punch machining process lubricant compositions, using oil based on No. 150 total loss system oils, Coordinate various compound additives, its each mass percent into being grouped into：

The mass percent summation of above each component is 100%.

Antioxidant is that the phenolic ester type antioxidant T508 of the cupric antioxidant T542 and 50% of mass ratio 50% is combined.

Metal deactivator is benzotriazole derivant.

Oiliness improver is soybean oil.

Friction improver is oleic acid glycol ester T403B.

Extreme pressure agent is butyl borate.

Antiwear additive is chlorinated paraffin T301.

Antirust agent is that the BTA T706 of the zinc naphthenate T704 and 50% of mass ratio 50% is combined.

Anti-foaming agent is methyl-silicone oil T901.

Adhesive agent is polyisobutylene T603D.

Filler is liquid paraffin.

It is an advantage of the current invention that：The compositionss of the present invention have excellent greasy property, dispersibility, wellability, clean Ability is strong, and cooling, extreme pressure property, wear resistence, antifriction quality, thermal oxidation, shear stability are good, and surface smoothness is high, anticorrosive It is long with usage cycles, it is easy to operate, cheap.

Specific embodiment

Embodiment 1：

Following each component is pressed the mediation of row mass percent to form：

Component	Mass percentage content
		No. 150 total loss system oils	Surplus
The cupric antioxidant (T542) of mass ratio 50% is combined with 50% phenolic ester type antioxidant (T508)	0.08%
		Benzotriazole derivant	0.05%
Soybean oil	3%
		Oleic acid glycol ester (T403B)	2%
Butyl borate	3%
		Chlorinated paraffin (T301)	3%
The zinc naphthenate (T704) of mass ratio 50% is combined with 50% BTA (T706)	0.05%
		Methyl-silicone oil (T901)	10ppm
Polyisobutylene (T603D)	1%
		Liquid paraffin	2%

Above each component mass percentage content summation is 100%

Embodiment 2：

Following each component is pressed the mediation of row mass percent to form：

Component	Mass percentage content
		No. 150 total loss system oils	Surplus
The cupric antioxidant (T542) of mass ratio 50% is combined with 50% phenolic ester type antioxidant (T508)	0.1%
		Benzotriazole derivant	0.1%
Soybean oil	5%
		Oleic acid glycol ester (T403B)	2.5%
Butyl borate	3.5%
		Chlorinated paraffin (T301)	4%
The zinc naphthenate (T704) of mass ratio 50% is combined with 50% BTA (T706)	0.12%
		Methyl-silicone oil (T901)	20ppm
Polyisobutylene (T603D)	3%
		Liquid paraffin	3%

Above each component mass percentage content summation is 100%

Embodiment 3：

Following each component is pressed the mediation of row mass percent to form：

Component	Mass percentage content
		No. 150 total loss system oils	Surplus
The cupric antioxidant (T542) of mass ratio 50% is combined with 50% phenolic ester type antioxidant (T508)	0.2%
		Benzotriazole derivant	0.2%
Soybean oil	8%
		Oleic acid glycol ester (T403B)	3%
Butyl borate	4%
		Chlorinated paraffin (T301)	5%
The zinc naphthenate (T704) of mass ratio 50% is combined with 50% BTA (T706)	0.2%
		Methyl-silicone oil (T901)	30ppm
Polyisobutylene (T603D)	4%
		Liquid paraffin	5%

Above each component mass percentage content summation is 100%.

The typical physiochemical techniques index of 1 product of embodiment：

Project	Quality index
		Kinematic viscosity (40 DEG C)/mm2/s-1	164.9
Flash-point (opening)/DEG C	267
		Condensation point/DEG C	-13
Viscosity index (VI)	126
		Coefficient of friction	0.033
Oxidation stability (rotary oxygen bomb, 150 DEG C)/min	281
		Shear stability (40 DEG C of kinematic viscosity rates of descent)/%	4.1
Tetra-ball machine test/Pb/N	701
		Sintering load/PD/N	5170
Terraced nurse agrees/N	267
		FZG/ levels	13
Corrosivity (copper sheet, 100 DEG C, 3h)/level	1
		Demulsification number, 54 DEG C of (40-37-3)/min	10

The typical physiochemical techniques index of 2 product of embodiment：

Project	Quality index
		Kinematic viscosity (40 DEG C)/mm2/s-1	165.3
Flash-point (opening)/DEG C	268
		Condensation point/DEG C	-12
Viscosity index (VI)	121
		Coefficient of friction	0.032
Oxidation stability (rotary oxygen bomb, 150 DEG C)/min	273
		Shear stability (40 DEG C of kinematic viscosity rates of descent)/%	4.5
Tetra-ball machine test/Pb/N	698
		Sintering load/PD/N	5210
Terraced nurse agrees/N	261
		FZG/ levels	13
Corrosivity (copper sheet, 100 DEG C, 3h)/level	1
		Demulsification number, 54 DEG C of (40-37-3)/min	11

The typical physiochemical techniques index of 3 product of embodiment：

Project	Quality index
		Kinematic viscosity (40 DEG C)/mm2/s-1	164.1
Flash-point (opening)/DEG C	262
		Condensation point/DEG C	-12
Viscosity index (VI)	123
		Coefficient of friction	0.034
Oxidation stability (rotary oxygen bomb, 150 DEG C)/min	278
		Shear stability (40 DEG C of kinematic viscosity rates of descent)/%	4.3
Tetra-ball machine test/Pb/N	709
		Sintering load/PD/N	5185
Terraced nurse agrees/N	262
		FZG/ levels	13
Corrosivity (copper sheet, 100 DEG C, 3h)/level	1
		Demulsification number, 54 DEG C of (40-37-3)/min	9

Claims (10)

1. a kind of White brass alloy punch machining process lubricant compositions, it is characterised in that：Using No. 150 total loss system oils Based on oil, coordinate various compound additives, its each mass percent into being grouped into：

Component Mass percentage content Base oil Surplus Antioxidant 0.08%～0.2% Metal deactivator 0.05%～0.2% Oiliness improver 3%～8% Friction improver 2%～3% Extreme pressure agent 3%～4% Antiwear additive 3%～5% Antirust agent 0.05%～0.2% Anti-foaming agent 10ppm～30ppm Adhesive agent 1%～4% Filler 2%～5%

The mass percent summation of above each component is 100%.

2. a kind of White brass alloy punch machining process lubricant compositions as claimed in claim 1, it is characterised in that antioxidant Be mass ratio 50% cupric antioxidant T542 and 50% phenolic ester type antioxidant T508 be combined.

3. a kind of White brass alloy punch machining process lubricant compositions as claimed in claim 1, it is characterised in that metal subtracts Agent living is benzotriazole derivant.

4. a kind of White brass alloy punch machining process lubricant compositions as claimed in claim 1, it is characterised in that oiliness improver It is soybean oil.

5. a kind of White brass alloy punch machining process lubricant compositions as claimed in claim 1, it is characterised in that friction changes It is oleic acid glycol ester T403B to enter agent；Extreme pressure agent is butyl borate.

6. a kind of White brass alloy punch machining process lubricant compositions as claimed in claim 1, it is characterised in that antiwear additive It is chlorinated paraffin T301.

7. a kind of White brass alloy punch machining process lubricant compositions as claimed in claim 1, it is characterised in that antirust agent Be mass ratio 50% zinc naphthenate T704 and 50% BTA T706 be combined.

8. a kind of White brass alloy punch machining process lubricant compositions as claimed in claim 1, it is characterised in that anti-foaming agent It is methyl-silicone oil T901.

9. a kind of White brass alloy punch machining process lubricant compositions as claimed in claim 1, it is characterised in that adhesive agent It is polyisobutylene T603D.

10. a kind of White brass alloy punch machining process lubricant compositions as claimed in claim 1, it is characterised in that filler It is liquid paraffin.