SCENTED FIREARM LUBRICANT

Abstract

The present disclosure relates to firearm lubricant compositions that serve to lubricate firearms and protect from rust and wear, and also contain a scent component that serves to mask the aversive smell of traditional firearm lubricant compositions.

Claims

1. A scented firearm lubricant composition comprising a firearm lubricant and a scent or flavoring agent.

2. The composition of claim 1, wherein the firearm lubricant comprises a mineral based oil, a petroleum based oil, a synthetic oil, a synthetic oil blend, or combinations thereof.

3. The composition of claim 1, wherein the firearm lubricant comprises at least one additive selected from the group consisting of an anti-wear additive, a rust inhibitor, a corrosion inhibitor, a dispersant, a surfactant, a kinematic viscosity improver, a viscosity index improver, an anti-oxidant, an anti-oxidation compound, a thickening agent, and combinations thereof.

4. The composition of claim 3, wherein the additive is a rust inhibitor.

5. The composition of claim 4, wherein the rust inhibitor is selected from the group consisting of alkanolamide, aminoborate, aminocarboxylate, naphthalene sulfonates, calcium sulfonates, barium sulfonates, overbased sulfonates, imidazoline, ethanolamine, nitrates, phosphate esters, calcium dinonylnaphthalene sulfonate, and calcium petroleum sulfonate.

6. The composition of claim 1, wherein the thickening agent is selected from the group consisting of carboxy methylcellulose, ethylhydroxymethyl cellulose, hydroxyl functional acrylic microgel, hydroxymethyl cellulose, guar gum, acrylic polymers, swellable acrylic, amide wax, amides, clay, propylene carbonate, bentone, and mixtures thereof.

7. The composition of claim 1, wherein the firearm lubricant comprises a rheology modifier.

8. The composition of claim 7, wherein the rheology modifier is selected from the group consisting of 1,2-cyclohexane dicarboxylic acid diisononyl ester, plasticizers, acrylic polymers, alkyl sulfonic acid phenyl ester, azelate, benzoate, fumed silica, castor oil thixotrop, diethylhexyl phthalate, diisononyl phthalate, dioctyl terephthalate, organophosphate, and sulfonamide.

9. The composition of claim 1, wherein the scent or flavoring agent is selected from the group consisting of earth scent, pine scent, green apple scent, sour apple scent, and combinations thereof.

10. The composition of claim 1, wherein the scent or flavoring agent is earth scent.

11. The composition of claim 1, comprising: a lubricant; a rust inhibitor; at least one thickening agent; water; a rheology modifier; an anti-wear additive; and earth scent.

12. The composition of claim 1, comprising: about 50% to about 70% lubricant; about 1% to about 5% rust inhibitor; about 1% to about 5% of at least one thickening agent; water; about 5% to about 15% rheology modifier; about 10% to about 20% anti-wear additive; and about 0.1% to about 5% earth scent.

13. A method for a method for lubricating and reducing rust of a firearm and further disguising the smell of the firearm lubricant, the method comprising adding a scent component to a firearm lubricant in a sufficient quantity such that the scent of the firearm lubricant can no longer be detected, and applying the lubricant to the firearm.

14. The method of claim 13, wherein the sufficient quantity of the scent component is from about 0.5% to about 1.5% by weight.

15. The method of claim 13, wherein the sufficient quantity of the scent component is about 1% by weight.

16. The method of claim 13, wherein the scent component is selected from the group consisting of earth scent, pine scent, green apple scent, sour apple scent, and combinations thereof.

17. The method of claim 13, wherein the scent component is earth scent.

18. A method for manufacturing a scented firearm lubricant composition, the method comprising adding a scent component to a firearm lubricant, and mixing the components until combined.

19. The method of claim 18, wherein the scent component is added in an amount that corresponds to from about 0.5% to about 1.5% by weight of the composition.

20. The method of claim 18, wherein the scent component is added in an amount that corresponds to about 1% by weight of the composition.

21. The method of claim 18, wherein the scent component is selected from the group consisting of earth scent, pine scent, green apple scent, sour apple scent, and combinations thereof.

22. The method of claim 18, wherein the scent component is earth scent.

Description

BRIEF DESCRIPTION OF THE FIGURES

[0028] FIG. 1: Results of Salt Fog Testing experiments described in Example 77 showing that PFC Earth formulations provide superior rust protection compared to other commercial firearm lubricant compositions.

DETAILED DESCRIPTION

[0029] Traditionally, firearm users are encouraged to clean and oil their firearms after each use. Traditional firearm lubricants are intended to clean, lubricate and protect the metal components of the firearms from rust. Traditional firearm lubricants are configured primarily as a barrier to keep metal parts from being exposed to oxygen and environmental oxidizing agents such as moisture. By providing a barrier between the metal and environmental elements such as air, humidity, water, and/or dirt, traditional firearm lubricant protects the barrel of the firearm and other metal components of the firearm from the elements. In short, traditional firearm lubricants are primarily designed to provide protection from rust and corrosion.

[0030] However, the majority of commercial firearm lubricant compositions have an aversive odor that can lessen the effect of visual camouflage and serve to alert game to the presence of a hunter. Thus, there is a need for firearm lubricant products that serve to lubricate firearms and protect from rust and wear, but do not have an aversive odor.

[0031] The present disclosure is directed toward firearm lubricant compositions that serve to lubricate firearms and protect from rust and wear, and also contain a scent component that serves to mask the aversive smell of traditional firearm lubricant compositions.

Definitions

[0032] Listed below are definitions of various terms used herein. These definitions apply to the terms as they are used throughout this specification and claims, unless otherwise limited in specific instances, either individually or as part of a larger group.

[0033] Unless defined otherwise, all technical and scientific terms used herein generally have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. Generally, the nomenclature used herein and the laboratory procedures in cell culture, molecular genetics, organic chemistry, and peptide chemistry are those well-known and commonly employed in the art.

[0034] As used herein, the articles a and an refer to one or to more than one (i.e., to at least one) of the grammatical object of the article. By way of example, an element means one element or more than one element. Furthermore, use of the term including as well as other forms, such as include, includes, and included, is not limiting.

[0035] As used herein, the term about will be understood by persons of ordinary skill in the art and will vary to some extent on the context in which it is used. As used herein when referring to a measurable value such as an amount, a temporal duration, and the like, the term about is meant to encompass variations of 20% or 10%, including 5%, 1%, and 0.1% from the specified value, as such variations are appropriate to perform the disclosed methods.

[0036] As used herein, the term comprising may include the embodiments consisting of and consisting essentially of. The terms comprise(s), include(s), having, has, may, contain(s), and variants thereof, as used herein, are intended to be open-ended transitional phrases, terms, or words that require the presence of the named ingredients/steps and permit the presence of other ingredients/steps. However, such description should be construed as also describing compositions or processes as consisting of and consisting essentially of the enumerated components, which allows the presence of only the named compounds, along with any acceptable carriers or fluids, and excludes other compounds.

[0037] All ranges disclosed herein are inclusive of the recited endpoint and independently combinable (for example, the range of from 50 mg to 500 mg is inclusive of the endpoints, 50 mg and 500 mg, and all the intermediate values). The endpoints of the ranges and any values disclosed herein are not limited to the precise range or value; they are sufficiently imprecise to include values approximating these ranges and/or values.

[0038] As used herein, the term weight percent is meant to refer to the quantity by weight of a compound and/or component in a composition as the quantity by weight of a constituent component of the composition as a percentage of the weight of the total composition. The weight percent can also be calculated by multiplying the mass fraction by 100. The mass fraction is the ratio of one substance of a mass mi to the mass of the total composition m.sub.T such that weight percent=(m.sub.1/m.sub.T)*100.

[0039] As used herein, the terms scent or flavoring agent are meant to refer to any artificial or natural substance intended to mask or change the scent or flavor of a given compositions. Suitable scent and flavoring agents are available from commercial suppliers, or can be formulated using methods known in the art.

Compositions

[0040] In an aspect, provided herein is a scented firearm lubricant composition comprising a firearm lubricant and a scent or flavoring agent.

[0041] In an embodiment, the firearm lubricant comprises a mineral based oil, a petroleum based oil, a synthetic oil, a synthetic oil blend, or combinations thereof.

[0042] In some embodiments, the firearm lubricant composition comprises a medium viscosity index mineral oil. For example, a medium viscosity index mineral oil can include materials typically employed as an automatic transmission fluid (ATF). In some embodiments, the medium viscosity index mineral oil comprises a mineral based or synthetic oil (e.g., not petroleum based) having at least one detergent additive. The medium viscosity index mineral based oil can optionally include additional additives including anti-wear additives, rust and corrosion inhibitors, dispersants and surfactants, kinematic viscosity and viscosity index improvers, anti-oxidation compounds, and/or other known ATF additives.

[0043] In an embodiment, the firearm lubricant comprises at least one additive selected from the group consisting of an anti-wear additive, a rust inhibitor, a corrosion inhibitor, a dispersant, a surfactant, a kinematic viscosity improver, a viscosity index improver, an anti-oxidant, an anti-oxidation compound, and combinations thereof. In another embodiment, the additive is a rust inhibitor. In yet another embodiment, the rust inhibitor is selected from the group consisting of alkanolamide, aminoborate, aminocarboxylate, naphthalene sulfonates, calcium sulfonates, barium sulfonates, overbased sulfonates, imidazoline, ethanolamine, nitrates, phosphate esters, calcium dinonylnaphthalene sulfonate, and calcium petroleum sulfonate.

[0044] In some embodiments, the firearm lubricant comprises a corrosion inhibitor. A corrosion inhibitor is a material which protects corrosion-susceptible, non-ferrous metal components from attack by acidic contaminants in the lubricating oil composition. Examples of corrosion inhibitors are metal dithiophosphates, particularly zinc dialkyldithiophosphates, and metal dithiocarbonates, particularly zinc dithiocarbonates.

[0045] In some embodiments, the firearm lubricant comprises a rust inhibitor. Rust inhibitors are materials which protect ferrous metal surfaces in the engine against rust. Examples of rust inhibitors are alkanolamide, aminoborate, aminocarboxylate, naphthalene sulfonates, calcium sulfonates, barium sulfonates, overbased sulfonates, imidazoline, ethanolamine, nitrates, phosphate esters, calcium dinonylnaphthalene sulfonate, and calcium petroleum sulfonate.

[0046] Suitable rust inhibitors include, but are not limited to the following: fatty acid, alkenyl succinate half ester, fatty acid soap, ester of fatty acid and polyhydric alcohol, ethoxylated amines, fatty acid amine, oxidized paraffin, alkyl polyoxyethylene ether, nonionic polyoxyalkylene polyols and esters thereof, other polyoxyalkylene phenols, anionic alkyl sulfonic acids, metal salts of alkyl naphthalene sulfonic acids, and dialkyl hydrogen phosphites or phosphates. Mixtures of rust inhibitors can also be used.

[0047] In an embodiment, the firearm lubricant comprises at least one thickening agent. In another embodiment, the thickening agent is selected from the group consisting of carboxy methylcellulose, ethylhydroxymethyl cellulose, hydroxyl functional acrylic microgel, hydroxymethyl cellulose, guar gum, acrylic polymers, swellable acrylic, amide wax, amides, clay, propylene carbonate, bentone, and mixtures thereof.

[0048] In an embodiment, the firearm lubricant comprises a rheology modifier. In another embodiment, the rheology modifier is selected from the group consisting of 1,2-cyclohexane dicarboxylic acid diisononyl ester, plasticizers, acrylic polymers, alkyl sulfonic acid phenyl ester, azelate, benzoate, fumed silica, castor oil thixotrop, diethylhexyl phthalate, diisononyl phthalate, dioctyl terephthalate, organophosphate, and sulfonamide.

[0049] In an embodiment, the scent or flavoring agent is selected from the group consisting of earth scent, pine scent, green apple scent, sour apple scent, and combinations thereof.

[0050] In an embodiment, the scented firearm lubricant composition comprises: [0051] a lubricant; [0052] a rust inhibitor; [0053] at least one thickening agent; [0054] water; [0055] a rheology modifier; [0056] an anti-wear additive; and [0057] earth scent.

[0058] In another embodiment, the scented firearm lubricant composition comprises: [0059] about 50% to about 70% lubricant; [0060] about 1% to about 5% rust inhibitor; [0061] about 1% to about 5% of at least one thickening agent; [0062] water; [0063] about 5% to about 15% rheology modifier; [0064] about 10% to about 20% anti-wear additive; and [0065] about 0.1% to about 5% earth scent.

Methods

[0066] In another aspect, provided herein is a method for lubricating and reducing rust of a firearm and further disguising the smell of firearm lubricant, the method comprising adding a scent component to a firearm lubricant in a sufficient quantity such that the scent of the firearm lubricant can no longer be detected, and applying the lubricant to the firearm.

[0067] In an embodiment, the sufficient quantity of the scent component is from about 0.5% to about 1.5% by weight. In another embodiment, the sufficient quantity of the scent component is about 1% by weight.

[0068] In an embodiment, the scent component is selected from the group consisting of earth scent, pine scent, green apple scent, sour apple scent, and combinations thereof. In another embodiment, the scent component is earth scent.

[0069] In another aspect, provided herein is a method for manufacturing a scented firearm lubricant composition, the method comprising adding a scent component to a firearm lubricant, and mixing the components until combined.

[0070] In an embodiment, the scent component is added in an amount that corresponds to from about 0.5% to about 1.5% by weight of the composition. In another embodiment, the scent component is added in an amount that corresponds to about 1% by weight of the composition.

[0071] In an embodiment, the scent component is selected from the group consisting of earth scent, lanolin, pine scent, green apple scent, sour apple scent, and combinations thereof. In another embodiment, the scent component is earth scent.

EXAMPLES

Example 1

General Procedure for Preparation of Firearm Lubricant Compositions

[0072] The compositions of the instant disclosure can be prepared according to processes known in the art. Specifically, the components of the individual formulations can be mixed for the necessary amount of time to achieve a homogenous mixture, diluted with water, or other acceptable diluents, and further mixed to achieve the desired viscosity.

Example 2

Formulation A

[0073]

TABLE-US-00001 Component Amount (w/w) Mineral Oil 75% Rust Inhibitor 2% Thickening Agent(s) 2% Water Balance Rheology Modifier 8% Anti-Wear Agent 12% Earth Scent 1%

Example 3

Formulation B

[0074]

TABLE-US-00002 Component Amount (w/w) Mineral Oil 74% Rust Inhibitor 2% Thickening Agent(s) 2% Water Balance Rheology Modifier 8% Anti-Wear Agent 13% Earth Scent 1%

Example 4

Formulation C

[0075]

TABLE-US-00003 Component Amount (w/w) Mineral Oil 73% Rust Inhibitor 3% Thickening Agent(s) 2% Water Balance Rheology Modifier 8% Anti-Wear Agent 13% Earth Scent 1%

Example 5

Formulation D

[0076]

TABLE-US-00004 Component Amount (w/w) Mineral Oil 72% Rust Inhibitor 3% Thickening Agent(s) 2% Water Balance Rheology Modifier 9% Anti-Wear Agent 13% Earth Scent 1%

Example 6

Formulation E

[0077]

TABLE-US-00005 Component Amount (w/w) Mineral Oil 71% Rust Inhibitor 3% Thickening Agent(s) 2% Water Balance Rheology Modifier 9% Anti-Wear Agent 14% Earth Scent 1%

Example 7

Formulation F

[0078]

TABLE-US-00006 Component Amount (w/w) Mineral Oil 70% Rust Inhibitor 3% Thickening Agent(s) 2% Water Balance Rheology Modifier 10% Anti-Wear Agent 14% Earth Scent 1%

Example 8

Formulation G

[0079]

TABLE-US-00007 Component Amount (w/w) Mineral Oil 69% Rust Inhibitor 3% Thickening Agent(s) 2% Water Balance Rheology Modifier 10% Anti-Wear Agent 15% Earth Scent 1%

Example 9

Formulation H

[0080]

TABLE-US-00008 Component Amount (w/w) Mineral Oil 68% Rust Inhibitor 3% Thickening Agent(s) 2% Water Balance Rheology Modifier 10% Anti-Wear Agent 15% Earth Scent 2%

Example 10

Formulation I

[0081]

TABLE-US-00009 Component Amount (w/w) Mineral Oil 67% Rust Inhibitor 3% Thickening Agent(s) 2% Water Balance Rheology Modifier 10% Anti-Wear Agent 15% Earth Scent 3%

Example 11

Formulation J

[0082]

TABLE-US-00010 Component Amount (w/w) Mineral Oil 66% Rust Inhibitor 3% Thickening Agent(s) 2% Water Balance Rheology Modifier 10% Anti-Wear Agent 15% Earth Scent 4%

Example 12

Formulation K

[0083]

TABLE-US-00011 Component Amount (w/w) Mineral Oil 65% Rust Inhibitor 3% Thickening Agent(s) 2% Water Balance Rheology Modifier 10% Anti-Wear Agent 15% Earth Scent 5%

Example 13

Formulation L

[0084]

TABLE-US-00012 Component Amount (w/w) Mineral Oil 69% Rust Inhibitor 3% Thickening Agent(s) 2% Water Balance Rheology Modifier 10% Anti-Wear Agent 15% Earth Scent 0.9%

Example 14

Formulation M

[0085]

TABLE-US-00013 Component Amount (w/w) Mineral Oil 69% Rust Inhibitor 3% Thickening Agent(s) 2% Water Balance Rheology Modifier 10% Anti-Wear Agent 15% Earth Scent 0.8%

Example 15

Formulation N

[0086]

TABLE-US-00014 Component Amount (w/w) Mineral Oil 69% Rust Inhibitor 3% Thickening Agent(s) 2% Water Balance Rheology Modifier 10% Anti-Wear Agent 15% Earth Scent 0.7%

Example 16

Formulation O

[0087]

TABLE-US-00015 Component Amount (w/w) Mineral Oil 69% Rust Inhibitor 3% Thickening Agent(s) 2% Water Balance Rheology Modifier 10% Anti-Wear Agent 15% Earth Scent 0.6%

Example 17

Formulation P

[0088]

TABLE-US-00016 Component Amount (w/w) Mineral Oil 69% Rust Inhibitor 3% Thickening Agent(s) 2% Water Balance Rheology Modifier 10% Anti-Wear Agent 15% Earth Scent 0.5%

Example 18

Formulation Q

[0089]

TABLE-US-00017 Component Amount (w/w) Mineral Oil 69% Rust Inhibitor 3% Thickening Agent(s) 2% Water Balance Rheology Modifier 10% Anti-Wear Agent 15% Earth Scent 0.4%

Example 19

Formulation R

[0090]

TABLE-US-00018 Component Amount (w/w) Mineral Oil 69% Rust Inhibitor 3% Thickening Agent(s) 2% Water Balance Rheology Modifier 10% Anti-Wear Agent 15% Earth Scent 0.3%

Example 20

Formulation S

[0091]

TABLE-US-00019 Component Amount (w/w) Mineral Oil 69% Rust Inhibitor 3% Thickening Agent(s) 2% Water Balance Rheology Modifier 10% Anti-Wear Agent 15% Earth Scent 0.2%

Example 21

Formulation T

[0092]

TABLE-US-00020 Component Amount (w/w) Mineral Oil 69% Rust Inhibitor 3% Thickening Agent(s) 2% Water Balance Rheology Modifier 10% Anti-Wear Agent 15% Earth Scent 0.1%

Example 22

Formulation U

[0093]

TABLE-US-00021 Component Amount (w/w) Mineral Oil 75% Rust Inhibitor 5% Anti-Wear Agent 19% Earth Scent 1% Water Balance

Example 23

Formulation V

[0094]

TABLE-US-00022 Component Amount (w/w) Mineral Oil 74% Rust Inhibitor 5% Anti-Wear Agent 19% Earth Scent 2% Water Balance

Example 24

Formulation W

[0095]

TABLE-US-00023 Component Amount (w/w) Mineral Oil 73% Rust Inhibitor 5% Anti-Wear Agent 19% Earth Scent 3% Water Balance

Example 25

Formulation X

[0096]

TABLE-US-00024 Component Amount (w/w) Mineral Oil 72% Rust Inhibitor 5% Anti-Wear Agent 19% Earth Scent 4% Water Balance

Example 26

Formulation Y

[0097]

TABLE-US-00025 Component Amount (w/w) Mineral Oil 71% Rust Inhibitor 5% Anti-Wear Agent 19% Earth Scent 5% Water Balance

Example 27

Formulation Z

[0098]

TABLE-US-00026 Component Amount (w/w) Mineral Oil 75% Rust Inhibitor 5% Anti-Wear Agent 19% Earth Scent 0.9% Water Balance

Example 28

Formulation AA

[0099]

TABLE-US-00027 Component Amount (w/w) Mineral Oil 75% Rust Inhibitor 5% Anti-Wear Agent 19% Earth Scent 0.8% Water Balance

Example 29

Formulation AB

[0100]

TABLE-US-00028 Component Amount (w/w) Mineral Oil 75% Rust Inhibitor 5% Anti-Wear Agent 19% Earth Scent 0.7% Water Balance

Example 30

Formulation AC

[0101]

TABLE-US-00029 Component Amount (w/w) Mineral Oil 75% Rust Inhibitor 5% Anti-Wear Agent 19% Earth Scent 0.6% Water Balance

Example 31

Formulation AD

[0102]

TABLE-US-00030 Component Amount (w/w) Mineral Oil 75% Rust Inhibitor 5% Anti-Wear Agent 19% Earth Scent 0.5% Water Balance

Example 32

Formulation AE

[0103]

TABLE-US-00031 Component Amount (w/w) Mineral Oil 75% Rust Inhibitor 5% Anti-Wear Agent 19% Earth Scent 0.4% Water Balance

Example 33

Formulation AF

[0104]

TABLE-US-00032 Component Amount (w/w) Mineral Oil 75% Rust Inhibitor 5% Anti-Wear Agent 19% Earth Scent 0.3% Water Balance

Example 34

Formulation AG

[0105]

TABLE-US-00033 Component Amount (w/w) Mineral Oil 75% Rust Inhibitor 5% Anti-Wear Agent 19% Earth Scent 0.2% Water Balance

Example 35

Formulation AH

[0106]

TABLE-US-00034 Component Amount (w/w) Mineral Oil 75% Rust Inhibitor 5% Anti-Wear Agent 19% Earth Scent 0.1% Water Balance

Example 36

Formulation AI

[0107]

TABLE-US-00035 Component Amount (w/w) Mineral Oil 65% Rust Inhibitor 15% Anti-Wear Agent 19% Earth Scent 1% Water Balance

Example 37

Formulation AJ

[0108]

TABLE-US-00036 Component Amount (w/w) Mineral Oil 64% Rust Inhibitor 15% Anti-Wear Agent 19% Earth Scent 2% Water Balance

Example 38

Formulation AK

[0109]

TABLE-US-00037 Component Amount (w/w) Mineral Oil 63% Rust Inhibitor 15% Anti-Wear Agent 19% Earth Scent 3% Water Balance

Example 39

Formulation AL

[0110]

TABLE-US-00038 Component Amount (w/w) Mineral Oil 62% Rust Inhibitor 15% Anti-Wear Agent 19% Earth Scent 4% Water Balance

Example 40

Formulation AM

[0111]

TABLE-US-00039 Component Amount (w/w) Mineral Oil 61% Rust Inhibitor 15% Anti-Wear Agent 19% Earth Scent 5% Water Balance

Example 41

Formulation AN

[0112]

TABLE-US-00040 Component Amount (w/w) Mineral Oil 65% Rust Inhibitor 15% Anti-Wear Agent 19% Earth Scent 0.9% Water Balance

Example 42

Formulation AO

[0113]

TABLE-US-00041 Component Amount (w/w) Mineral Oil 65% Rust Inhibitor 15% Anti-Wear Agent 19% Earth Scent 0.8% Water Balance

Example 43

Formulation AP

[0114]

TABLE-US-00042 Component Amount (w/w) Mineral Oil 65% Rust Inhibitor 15% Anti-Wear Agent 19% Earth Scent 0.7% Water Balance

Example 44

Formulation AQ

[0115]

TABLE-US-00043 Component Amount (w/w) Mineral Oil 65% Rust Inhibitor 15% Anti-Wear Agent 19% Earth Scent 0.6% Water Balance

Example 45

Formulation AR

[0116]

TABLE-US-00044 Component Amount (w/w) Mineral Oil 65% Rust Inhibitor 15% Anti-Wear Agent 19% Earth Scent 0.5% Water Balance

Example 44

Formulation AS

[0117]

TABLE-US-00045 Component Amount (w/w) Mineral Oil 65% Rust Inhibitor 15% Anti-Wear Agent 19% Earth Scent 0.4% Water Balance

Example 45

Formulation AT

[0118]

TABLE-US-00046 Component Amount (w/w) Mineral Oil 65% Rust Inhibitor 15% Anti-Wear Agent 19% Earth Scent 0.3% Water Balance

Example 46

Formulation AU

[0119]

TABLE-US-00047 Component Amount (w/w) Mineral Oil 65% Rust Inhibitor 15% Anti-Wear Agent 19% Earth Scent 0.2% Water Balance

Example 47

Formulation AV

[0120]

TABLE-US-00048 Component Amount (w/w) Mineral Oil 65% Rust Inhibitor 15% Anti-Wear Agent 19% Earth Scent 0.1% Water Balance

Example 48

Formulation AW

[0121]

TABLE-US-00049 Component Amount (w/w) Petroleum Distillate 65% Petroleum Oil 15% Mineral Oil 19% Earth Scent 1% Water Balance

Example 49

Formulation AX

[0122]

TABLE-US-00050 Component Amount (w/w) Petroleum Distillate 64% Petroleum Oil 15% Mineral Oil 19% Earth Scent 2% Water Balance

Example 50

Formulation AY

[0123]

TABLE-US-00051 Component Amount (w/w) Petroleum Distillate 63% Petroleum Oil 15% Mineral Oil 19% Earth Scent 3% Water Balance

Example 51

Formulation AZ

[0124]

TABLE-US-00052 Component Amount (w/w) Petroleum Distillate 62% Petroleum Oil 15% Mineral Oil 19% Earth Scent 4% Water Balance

Example 52

Formulation BA

[0125]

TABLE-US-00053 Component Amount (w/w) Petroleum Distillate 61% Petroleum Oil 15% Mineral Oil 19% Earth Scent 5% Water Balance

Example 53

Formulation BB

[0126]

TABLE-US-00054 Component Amount (w/w) Petroleum Distillate 65% Petroleum Oil 15% Mineral Oil 19% Earth Scent 0.9% Water Balance

Example 54

Formulation BC

[0127]

TABLE-US-00055 Component Amount (w/w) Petroleum Distillate 65% Petroleum Oil 15% Mineral Oil 19% Earth Scent 0.8% Water Balance

Example 55

Formulation BD

[0128]

TABLE-US-00056 Component Amount (w/w) Petroleum Distillate 65% Petroleum Oil 15% Mineral Oil 19% Earth Scent 0.7% Water Balance

Example 56

Formulation BE

[0129]

TABLE-US-00057 Component Amount (w/w) Petroleum Distillate 65% Petroleum Oil 15% Mineral Oil 19% Earth Scent 0.6% Water Balance

Example 57

Formulation BF

[0130]

TABLE-US-00058 Component Amount (w/w) Petroleum Distillate 65% Petroleum Oil 15% Mineral Oil 19% Earth Scent 0.5% Water Balance

Example 58

Formulation BG

[0131]

TABLE-US-00059 Component Amount (w/w) Petroleum Distillate 65% Petroleum Oil 15% Mineral Oil 19% Earth Scent 0.4% Water Balance

Example 59

Formulation BH

[0132]

TABLE-US-00060 Component Amount (w/w) Petroleum Distillate 65% Petroleum Oil 15% Mineral Oil 19% Earth Scent 0.3% Water Balance

Example 60

Formulation BI

[0133]

TABLE-US-00061 Component Amount (w/w) Petroleum Distillate 65% Petroleum Oil 15% Mineral Oil 19% Earth Scent 0.2% Water Balance

Example 61

Formulation BJ

[0134]

TABLE-US-00062 Component Amount (w/w) Petroleum Distillate 65% Petroleum Oil 15% Mineral Oil 19% Earth Scent 0.1% Water Balance

Example 62

Formulation BK

[0135]

TABLE-US-00063 Component Amount (w/w) Hydrogenated Homopolymer of 1-decene 66% Hydrogenated Dimer of 1-decene 18% Rust Inhibitor 16% Earth Scent 1% Water Balance

Example 63

Formulation BL

[0136]

TABLE-US-00064 Component Amount (w/w) Hydrogenated Homopolymer of 1-decene 65% Hydrogenated Dimer of 1-decene 18% Rust Inhibitor 16% Earth Scent 2% Water Balance

Example 64

Formulation BM

[0137]

TABLE-US-00065 Component Amount (w/w) Hydrogenated Homopolymer of 1-decene 64% Hydrogenated Dimer of 1-decene 18% Rust Inhibitor 16% Earth Scent 3% Water Balance

Example 65

Formulation BN

[0138]

TABLE-US-00066 Component Amount (w/w) Hydrogenated Homopolymer of 1-decene 63% Hydrogenated Dimer of 1-decene 18% Rust Inhibitor 16% Earth Scent 4% Water Balance

Example 66

Formulation BO

[0139]

TABLE-US-00067 Component Amount (w/w) Hydrogenated Homopolymer of 1-decene 62% Hydrogenated Dimer of 1-decene 18% Rust Inhibitor 16% Earth Scent 5% Water Balance

Example 67

Formulation BP

[0140]

TABLE-US-00068 Component Amount (w/w) Hydrogenated Homopolymer of 1-decene 66% Hydrogenated Dimer of 1-decene 18% Rust Inhibitor 16% Earth Scent 0.9% Water Balance

Example 68

Formulation BQ

[0141]

TABLE-US-00069 Component Amount (w/w) Hydrogenated Homopolymer of 1-decene 66% Hydrogenated Dimer of 1-decene 18% Rust Inhibitor 16% Earth Scent 0.8% Water Balance

Example 69

Formulation BR

[0142]

TABLE-US-00070 Component Amount (w/w) Hydrogenated Homopolymer of 1-decene 66% Hydrogenated Dimer of 1-decene 18% Rust Inhibitor 16% Earth Scent 0.7% Water Balance

Example 70

Formulation BS

[0143]

TABLE-US-00071 Component Amount (w/w) Hydrogenated Homopolymer of 1-decene 66% Hydrogenated Dimer of 1-decene 18% Rust Inhibitor 16% Earth Scent 0.6% Water Balance

Example 71

Formulation BT

[0144]

TABLE-US-00072 Component Amount (w/w) Hydrogenated Homopolymer of 1-decene 66% Hydrogenated Dimer of 1-decene 18% Rust Inhibitor 16% Earth Scent 0.5% Water Balance

Example 72

Formulation BU

[0145]

TABLE-US-00073 Component Amount (w/w) Hydrogenated Homopolymer of 1-decene 66% Hydrogenated Dimer of 1-decene 18% Rust Inhibitor 16% Earth Scent 0.4% Water Balance

Example 73

Formulation BV

[0146]

TABLE-US-00074 Component Amount (w/w) Hydrogenated Homopolymer of 1-decene 66% Hydrogenated Dimer of 1-decene 18% Rust Inhibitor 16% Earth Scent 0.3% Water Balance

Example 74

Formulation BW

[0147]

TABLE-US-00075 Component Amount (w/w) Hydrogenated Homopolymer of 1-decene 66% Hydrogenated Dimer of 1-decene 18% Rust Inhibitor 16% Earth Scent 0.2% Water Balance

Example 75

Formulation BX

[0148]

TABLE-US-00076 Component Amount (w/w) Hydrogenated Homopolymer of 1-decene 66% Hydrogenated Dimer of 1-decene 18% Rust Inhibitor 16% Earth Scent 0.1% Water Balance

Example 76

Scent Testing Experiments

[0149] Procedure: Various firearm lubricant compositions were combined with amounts of scent agent, and the resulting scented firearm lubricant compositions were assessed to determine which scents, and what amounts of said scents, effectively covered the smell of the firearm lubricant. The results of this experiment are shown below.

Results:

[0150]

TABLE-US-00077 Amt. of Scent Agent Scent Agent Result Earth Scent 0.5% Could still smell firearm lubricant Pine Scent 0.5% Could still smell firearm lubricant Sour Apple Scent 0.5% Didn't smell natural Green Apple Scent .sup.1% Smelled natural, good cover scent Earth Scent .sup.1% Covered oil scent, very natural Pine Scent .sup.1% Covered oil scent, very natural in area with pine trees

Example 77

Salt Fog Testing Experiments

[0151] Procedure: Samples of metal were exposed to salt fog for 168 hours. Following exposure, the metal samples were photographed (FIG. 1) and the level of rust was qualitatively assessed. The results of this experiment are shown below.

[0152] Results: The results of this experiment are visually shown in FIG. 1, and in the table below.

TABLE-US-00078 Formulation Result Control Heavy Rust Remington Rem Oil Medium Rust Boeshield T-9 Corrosion Protection Medium Rust Break Free CLP Light Rust Birchwood Casey Barricade Light Rust Frog Lube Light Rust Synthetic Eezox Medium Rust PFC Earth Scent No Rust (Corresponds to Formulations A-U)

[0153] The disclosed subject matter is not to be limited in scope by the specific embodiments and examples described herein. Indeed, various modifications of the disclosure in addition to those described will become apparent to those skilled in the art from the foregoing description and accompanying figures. Such modifications are intended to fall within the scope of the appended claims.

[0154] All references (e.g., publications or patents or patent applications) cited herein are incorporated herein by reference in their entirety and for all purposes to the same extent as if each individual reference (e.g., publication or patent or patent application) was specifically and individually indicated to be incorporated by reference in its entirety for all purposes. Other embodiments are within the following claims.