CHAPTER I
COMPOSITIONS WITH RESINS AND RUBBER
Resin-wax compositions
Compatibility of varnish resins with waxes
Wax-rosin compositions
Cumar (cumarone-indene resins) and wax compositions
Methacrylate resin hot-melt blends
Pliolite S-7 wax compositions
Microcrystalline wax-resin blends
Microcrystalline Waxes in Floor polishes
Wax-rubber compositions
Wax-Vistanex Blends
Viscosity of Vistanex-Wax Mixtures
Water Vapor Transmission
Flexibility
Sealing Strength
Paper Coatings (wax-Vinyl Copolymer)

CHAPTER 2  
VEGETABLE WAXES
Bayberry wax
Source
Candelilla wax
Compatibility
Specifications
Scope
Carnauba Wax
Production
Composition
Properties of Braxilian Grades of Carnauba Wax
Flower wax
First wax
Medium wax
Sandy wax
Fat wax
Specifications
Colour
Adulterations of Carnauba Wax
Cotton wax
Esparto wax
Fir Eax
Propertries of Fir wax
Flax wax
Japan wax
Composition
Grades Available
Ouricury wax
Preparation
Composition
Grade available
Specifications
Palm waxes
Grade available
Cuban Palm wax
Compatibility
Rice-oil wax
Sugar cane wax
Source
Constituents of Sugar Cane Wax
Ucuhuba Wax
Cocoa Butter
CHAPTER 3
PARAFFIN WAX COMPOUNDS
Compatibility of paraffin Waxes with Other Substances
Paraffin wax with Bitumen

CHAPTER 4
SYNTHETIC MINERAL WAXES
Fischer-Tropsch (F-T) Waxes
FT-200 and FT-300 Wax
Specifications
Hardening Fischer-Tropsch Wax
Duroxon waxes
Duroxen Waxes-Group C
Douroxon Waxes- Group E
Duroxon Waxes- Group H
Duroxon Waxes- Group J
Duroxon Waxes- Group R
Paraflint
Paraflint as Modifier
Polymekon

CHAPTER 5
MISCELLANEOUS SYNTHETIC WAXES
Albacer
Atlasene Waxes
BASF waxes
Cardis waxes
Ceramid
Diolin (Octadecanediol)
Glyco Waxes
Flexo Wax C
Oxazoline waxes

Toxicity
Experimental Synthetic waxes

CHAPTER 6
INDUSTRIAL USES OF WAX
Adhesives
Candles
Wicks
Winding
Size of Candles
Machinery
Wax Candles
Paraffin Candles
Temperature Control
Colors, Sizes, Shapes
Standard Candle
Additives for Raising Melting Point of Candles
Melting point of Wax mixtures
Congealing Point of Candles
Coatings
Foil Coatings
Hot-melt coatings
Protective and Decorative Coatings
Wax Coating for Fruits, Shribs,and Plants
Cosmetics
Cold creams
Vanishing creams
Cleaning creams
Emollient Creams
Protective or Barrier Creams
Sun Screen Creams
Lipsticks
Cream Rouge
Eyebrow pencils
Shaving Cream
Antiperspirants
Lotions
Hand Cleaners
Hair Straighteners
Embalming Preparations
Dental Waxes
Carving Wax
Method of producing Base-Plate wax
Electrolytic Condensers
Inks
Printing Inks
Carbon Paper Inks
Effect of paraffin on Esparto-Montan Mixtures
Leather Goods

Finishes
Saponified Shoe Cream
Manufacture of Saponified Creams
Paper Products
Practial Evaluations
Additives
Improved Compositions for wax Coatings
Polyethylene-Paraffin Wax Paper Coatings
Paper Finishes
Stencils
Water proofing of Kraft Papers
Effects of a Wax Sixing on Insulating Board
Pliolite-paraffin wax Compositions
Pharamaceutical preparations
Photomechanics
Plastics
Polishes
Floor Polishes
Rubless Emulsion Polishes
No-Rub Resin -Wax Emulsion Polish
Pyrotechnics
Rubber
Textile processing
Sizing
Printing
Finishing
Yard Finishes
Water Poofing

CHAPTER 7
OTHER MINERAL WAXES
Montan wax
Sources
Production of Montan Wax
Composition
Properties of Montan Wax
Durmont Waxes
Uses of Montan Wax
Modified Montan Waxes
Lignite wax
Oxocerite wax
Occurrence
Manufacture of Ozocerite
Composition
Properties of Ozocerite
Compatibility
Adulterations
Ceresin
Utah wax
Peat wax
CHAPTER 8
POLISH, ABRASIVES, METAL CLEANERS
Abrasive Compound
Brass, Refinishing Corroded
Cellulose-Friction Polishes
Flatting Paste Emulsions
Finishing Floor Wax
Liquid Floor wax (Rubbing Type)
Wood Floor Finish
Furniture polishes
Leather Belt Polish
Leather Dressings
Leather Finish
Metal Polish
Tank A
Tank B
Pipe Oil Metal Polish
Nickel Silver Castings, cleaning
Non-Caking Shoe Dressings
Dyeing "Shoe" Plush Brown
Shoe Polish
Synthetic Spinel
Sand Papers and Emery Papers
Abrasive Wheels
Automobile Polish
Furniture Polish
Polishing Cloth
Oil Polish for Furniture
Furniture Polish
Removing Scratches from Furnishes
Non-slippery Floor wax
Floor Polish
Floor sweeping Compound for Polished Floors
Wood-Preserving and Finishing
"Italian" Powder for Polishing Marble
Colored Burnishing Clay
Sharpening Compositions
Aluminium Polish
Directions for use
Non Scouring Copper Polish
Automobile Polish (Tumbler's)
High Luser Polish for Shoes
Sporting Shoe dressings, paste
Notes on Cleaning White Shoes
Shoe White (Water Type)
Shoe White (Waterproof Type)
Cleansing and Polishing compositions
Auto-Polishes
Automobile Polishes(oils)
Automobile-Polishes (Pastes)
Automobile Polishes
Metal Polish Pastes
Metal Polishing Cloths
Polishing Metals for Metallographic Analysis
Aluminum Polish Powders
Liquid Polishes for Iron or Steel
Polish for Silver, Nickel, Brass, Chromium, etc.
Silver Polishes
Liquid Silver Polishes
Removing Silver Polish
Silver Polishing Cloths
Wax Paste Stove Polish
Quick Drying Stove Polish
Water-Resistant Floor Emulsion Polish
Rubless Bright Drying Water Wax Polishes
Semi Bright Drying Wax Emulsion Polishes
Floor Polish Powders
Floor Mop Oil
French Polishing
Cleaning and Polishing Table
Ski wax
Paste for Wax Calf Leather
Leather Cleaning and Polishing stick
Types of Cleaners
White Shoe Polish
White Leatehr polish
Shoe Polishes
Polishing, Lapping and Tumbling
Abrasives
Poolishing Wheels
Metal Polish
Liquid metal polishes
Paste Metal Polish
Wax Polish for varnished metals
Fine instrument scale polish
Polishing by barrel Toumbling
Barrel Tumbling material
Stove Polishes
Sodium silicate Solutions
Artrificial Graphite
Stove Polishes
Dance Floor Polishes
Bright Drying Floor Polishes
Emulsified Floor waxes
Wax for polishes
White Shoe Polishes
Oil Polish
Burnishing Polishes for Automobile Maintenance
Silver Polish
Jewelry Polish
Bright Drying Floor Polish
Floor Treatments
Wood Floors
Floor Waxes or Polishes
Cement (Concrete)Floors
Vitreous Tile or Ceramic and Terrazzo Floors
Marble and Travertine Floors
Linoleum Floorings
Rubber Floors
Cork Tile and Cork Carpet Floorings
Asphalt Tile and mastic Floors
Plastic magnesia Cement Floors
Slate Tile Floors
Bonded Abrasive Wheels
Removing Scratches from Glass

CHAPTER 9
POLISHES
Heavy Duty Floor Polish
Carnauba Base Floor Polish
Silicon Furniture Polish
Liquid Floor polish
Bright Drying Floor Wax
Silicone Polishing Cloth
Mineral Oil Emulsion Polish
Aesrosol Polish
Aerosol waxeless Polish
Auto Cleaner Polish
Ball Bearing Polish
Metal Polish
Silver Polish (Dip)
Antislaking Buffing Composition
Abrasive Vehicle (Oil)
Insectidal Floor Wax
Opaque-White Norrubbing Floor Wax
Floor-Wax Emulsion
Non-Rubbing Floor Wax
Water Emulsion paste Waxes
Liquid Solvent Waxes
Solvent-Type paste Waxes and Shoe Polishes
Stable Wax-Solvent Floor Polish
Liquid Solvent Floor wax
Buffing Compound
Metal Abrasive
Paste Wax Polish (Auto wax)
(Floor and Furniture wax)
Liquid Wax Polish
Auto Polish
Glass Polish
Oven polish
Silver Polish
Metal Polishing Cloth
Chromium Polish
Leather Polish
Liquid Leather Polish
Paste Leather Polish
Shoe Polish Paste (for Tubing)
Shoe Creams
Furniture Polish
Floor Wax Remover
Bright Drying Floor Polish (Emulsion) (rubber)
Floor wax
Diamond abrasive
Synthetic Abrasive
Auto Rubbing compounds
Buffing Compounds
Cream Buffing Wax
Automobile polish
Metal Cleaning and Polishing Cloth
Metal Polish
Furniture Polish
Furniture Cleaner and Polish
Floor Polish
Dance Floor Wax
Oil Polishes
Wax Polishes
Wax Paste Polish
Rubber Polishes
Rubber Wax Floor Polish
Method 1
Method 2
Variation
Triethanolamine Water-Resistant Rubless Polish
Morpholine Water-Resistant Rubless Polish
Method 1
Method 2
Resin, Shellac, Casein Dispersions
Natural Resin Dispersions
Preparation of Formula No.1.
Preparation of Formula No. 2
Shellac Dispersion
Casein Dispersion
Polishing Paste
Diamond Dust Abrasive
Abrasive Cleaner
Lens Polishing Powder
Polishing Powder
Smoothing Compound for Lucite and Plexiglas
Tumbling Barrel Polish
French Polish Base
Black Paste Shoe Polish
Soft Leather Polish
Rubber Foot wear Polish
Rubless Floor Wax
Bright-Drying Floor Wax Emulsion
Durez Wax Base
Floor Polish
Dance-floor Wax
Furniture Polish
Perfume for Furniture Polish
Paste Waxes
Black Shoe Polish
Leather Polish
Polish for Edging Leather Straps
Automobile Polish
Automobile Polish and Cleaner
Automobile Finish Haze Remover
Automobile Hand-Rubbing Compound
Stone and Porcelain Polish
Glass Wax Polish
Optical-glass Polish
Rough Diamond-Polish Substitute
Lapping Compound
Stove Polishing Stick
Gold Polish
Silver Polish
General Metal Polish
Brass Polish
Brass and Bronze Cleaner and Polish
Brass, Nickel, and Chrome Polish
Brass-Buffing Soil Cleaner
Tripoli-buffing Composition for Brass
Tripoli-cut-and-color Composition for Brass
White-Lime- cut-and-color Composition for Brass
Red Oxide Color Composition for Brass
Metal-Buffing Compound
Polishes
Silver Polish
Metal Polish
Rust-Preventing Metal Polish
Chemical Nickel Polish
Glass and Metal Polish
Electric Shaver Sharpening Paste
Glass-Grinding Fluid
Abrasive Diamond Paste
Silicone Furniture Polish
Silicone Auto Polish
Silicone Cleaner Polish
Silicone Wax Polish
Furniture Polish
Solvent-type Paste Floor Polish
Solvent-Type paste Wax Polishes
Liquid Type wax Polishes

Floor-Polish Paste
Buiffing Paste Polish
Oil Polish
Paste Shoe Polish
Liquid White shoe dressing

CHAPTER 10
MICROCRYSTALLINE WAXES
Differences between microcrystalline and paraffin waxes
Fractional crystallization of petroleum waxes
Properties of Microcorystalline waxes
Melting point
Compatibility
Laminating properties of Microcrystalline waxes
Miscibility with additives
Solubility
Specific Gravity at various Temperatures
Thermal Expansion and Melting point of waxes
Oxidized microcroystalline waxes
Emulsifiable Microcrystalline waxes
Petrolatum wax
Uses of Microcrystalline waxes
Drum Linings
Vat Linings
Miscellaneous data
Properties of some commercial Microcrystalline waxe
Amsco waxes
Aristo Waxes
Bareco waxes
Bareco Hard Wax
Bareco Plastic waxes
Bareco Emulsifiable waxes
Bareco Synthetic waxes
Electrical Properties of Bareco waxes
Be Square Waxes
Mobile Waxes
Milti Waxes
Pearl Waxes
Sova Waxes
Super Flex Waxes
WarWick Waxes

^ Top

POLISHES

Polyethylene Emulsions

Formula No. 1

Emulsifiable "A-C"
Polyethylene	40
Oleic Acid	8
Morpholine	8
Water	184

Melt the "A-C" Polyethylene and add the oleic acid, avoiding overheating. With the melt temperature at 248-266° F., add the morpholine. (Care must be taken to prevent boiling out the morpholine.) There is a sufficient excess to allow for minor evaporation. Avoid open flames since morpholine has a flash point of 100°F.

While "A-C" Polyethylene is being melted, heat the water (bring to a boil and turn off heat just before using).

With rapid stirring (but below speed at which air is whipped in ), slowly add the melt to the water (1-3 minutes). During the addition, the temperature of the melt should be 239-257°F, and the water 203-210° F. (not boiling). Add the melt at a steady rate to the top of the vortex formed by the stirring action (the melt stream should not hit the beaker side or the stirrer shaft). With proper addition the melt will spiral down the vortex and be emulsified enroute. If stirring speed is too low or rate of addition too high the melt will accumulate in the vortex and impair the quality of the finished product. Cover, and with moderate stirring allow to cool to 104-122°F. Make up to weight to replace loss of water due to evaporation.

No. 2

"A-C" Polyethylene 629	40
Oleic Acid	8
Morpholine	8
Water	184

Melt the polyethylene in the oleic acid. Heat to 212-230°C. and add morpholine slowly with stirring. Hold temperature at 208-210°F, add water (heated to 100°C.) slowly with rapid agitation. Cover and stir until 104-122°F. Add water to make up to 184.

Anionic Emulsions

(Wax to water Method)

	No.3	No.4	No.5	No.6	No.7	No.8
"A-C" Polyethylene 629	40	40	40	40	40	40
Oleic Acid	4	6	5	5	6	7
3- Methoxy Propylamine	3	_	_	_	_	_
2-Amino 2-methyl,
1-Propanol	_	3	_	_	_	_
Morpholine	_	_	7	_	_	_
Monoethanolamine	_	_	_	4	_	_
Diethanolamine	_	_	_	_	5	_
Triethanolamine	_	_	_	_	_	7

Water

To make up to desired concentration

Other amines are also quite satisfactory such as :

diethyl ethanolamine

2-amino, 1-butanol

2-amino, 2-ethyl, 1, 3-propanediol

2-amino, 2-methyl, 1, 3-propandiol

Tris (hydroxymethyl) aminomethane

Other fatty acids which may be used are :

Stearic	Soya
Palmitic	linseed
Myristic	tall oil

"A-C" Polyethylene 629 may also be emulsified with potassium or sodium soaps. Borax may be used in combination with amine soaps.

Cationic Emulsions

(Wax to Water Method)

	No. 9	No. 10	No. 11	No. 12	No. 13	No. 14
"A-C" Polyethylene 629	40	40	40	40	40	40
"Armac" T	8	-	-	-	-	-
"Armac" HT	-	8	-	-	-	-
"Armac" C	-	-	8	-	-	-
Acetic Acid	-	-	-	2	1	1
"Ethomeen"	18-12	-	-	8	-	-
"Alro" Amine O	-	-	-	-	7	-
"Alro" Amine S	-	-	-	-	-	6

Water

To make up to desired concentration

Several formulations are included in the following pages to illustrate some of the ways "A-C" Polyethylene 629 may be used. Many variations will be immediately apparent to the experienced formulator. However, it is strongly recommended that the basic laboratory emulsification procedure described in the preceding section should be tried before modifications are made.

Heavy Duty Floor Polish

"A-C" Polyethylene 629 in combination with a resin and a leveling agent gives a dry-bright floor polish which has high gloss, water resistance, and exceptional durability. The formulations using "Ubatol" 2003 as the resin and "Durez" 15546 as the leveling agent are suggested as high quality industrial polishes.

The emulsions and solution are prepared separately to 15% total solids and blended.

"A-C" Polyethylene 629 Emulsion

"A-C" Polyethylene
629	40 parts
Oleic Acid	6
Morpholine	7
Water	254

Resin Emulsion I

"Ubatol" 2003
(40% total solids)	100.0
Dibutylphthalate	3.3
"KP" 140	2.6
Water	201.0

Mix together at room temperature the dibutylphthalate, "KP" 140, and the "Ubatol" 2003. Stir the mixture moderately for one-half hour. Then add the water and stir a few minutes.

Resin Emulsion II

"Resyn" 78-3021
(35% solids)	100
Water	133

Leveling Agent Solution

"Durez" 15546 Resin	30
Ammonium
Hydroxide (28%)	5
Water	165

Heat water to 185°F., add one-half of the ammonum hydroxide, and with good agitation add the "Durez" 15546. Temperature should be maintained at 185-190°F. Add the remainder of the ammonum hydroxide and stir until solution of the "Durez" 15546 is obtained.

The following are the polish proportions.

Formula No. 1

(For Buffability)

"A-C" Polyethylene 629
emulsion	5
Resin Emulsion 1 to 11	4
"Durez" 15546 solution	6

No. 2

(For Scuff Resistance)
"A-C" Polyethylene 629
emulsion	4
Resin Emulsion 1 to 11	7
"Durez" 15546 solution	4

The finished product is obtained by blending the desired amount of leveling solution with the wax emulsion. Recommended proportions are 25 or 30 parts of leveling solution to 75 to 70 parts of emulsion. For greater water resistance ammonia cut resins may be used. Best leveling and gloss in this formulation are obtained with borax cut resins particularly "Shanco" L-1001.

These proportions may be varied considerably to bring out the qualities most desired by the formulator. Increasing the A-C Polyethylene emulsion improves polishability and film flexibility. Increasing the resin and the leveling agent improves the hardness and dirt pick-up. Excellent leveling is attained with these three components over a wide range of proportions.

Another suggestion for a heavy duty floor polish is as follows :

No. 3

"A-C" Polyethylene 629	30
"Beckacite" PX361	30
Oleic Acid	9
Morpholine	9
Water	382

Melt wax, resin and oleic acid with agitation until all the resin is dissolved. Cool to 257°F. Add morpholine and hold at 257°F. Add wax mixture at 257°F. with agitation. Agitate while cooling to room temperature.

Add 70-80 parts of the wax emulsion to 30-20 parts of the leveling solution.

High Shellac Floor Polish

The following formula is representative of a good, high Shellac type dry-bright polish containing "A-C" Polyethylene 629.

Borax Cut Shellac Solution Shellac, Bleached dewaxed

	108.75
Borex, 5 Mol	21.50
Water	709.75
	840.00

In the heated kettle, raise the temperature of the water to 160°F, and add the borax with stirring. Continue stirring and heating and add the shellac in granular form. Stir until solution takes place, cool the bath and make up to weight for loss of water due to evapoation.

"A-C" Polyethylene 629 Wax Emulsion

"A-C" Polyethylene 629	90
"Durez" 219 Resin	30
"Neofat" 42-12	12
2-Amino-2-methyl-I-propanol	12
Water	706
	850

Finished Product

Borax Cut Shellac
Solution	65
Wax	35 gal.
	100

Carnauba Base Floor Polish

This polish will serve to demonstrate the value of "A-C" Polyethylene 629 in a high wax type dry-bright formulation. The polish dries to a hard, flexible film of excellent gloss and good levelling. A relatively small amount of "A-C" Polyethylene 629 is used, resulting in gloss and leveling superior to straight carnauba base polishes. Preparation of a typical formulation containing 15% total solids is as follows :

Wax Emulsion

Carnauba	30
"A-C" Polyethylene 629	10
Oleic Acid	7
Morpholine	6
Water	260

Leveling Agent Solution

"Shanco" L-1001	30
Borax, 5 Mol	13
Water	244

Heat water to 194°F., add the borax with agitation until dissolved. Maintaining the temperature at 194°F., add the Shanco resin and stir until the solution is achieved.

No. Rub Polishes

Formula	No. 1	No. 2	No.3	No.4	No.5
"A-C" Polyethylene 629	22.5	22.5	15	15	15
"PE"-100	22.5	22.5	15	-	15
"Petronauba" C	-	-	-	15	15
"C-700" or "C-1035"	14	14	15	15	15
"Durez" 219	41	41	-	-	-
Carnauba No. 3
NC Ref. (Pure)	-	-	55	-	55
Carnauba No. 1 Yellow	-	-	-	55	-
Oleic Acid	4-6	4-6	12	12	12
Triethanolamine	4	-	-	-	-
Morpholine	-	2-2.5	11	11	11
KOH (85%)	2	2	-	-	-
Ammonia Water (26-28%)	-	3	-	-	-
Borax	3	-	4	4	4
Water	750	750	800	800	800

Formulas No. 1 and 2 are produced by the "wax to water" system of emulsification as follows :

Melt the waxes, "A-C" Polyethylene 629 and resin at temperatures up to 350°F. cool to 250°F and add the oleic acid with agitation. When the temperature reaches 205 to 210°F., add the KOH and borax (no borax in formula 2) in a hot saturated solution followed by the TEA. Cook for 20 minutes at 205 to 210°F. (for formula No.2, add the KOH solution and cook for 15 minutes; add the morpholine followed by the ammonium hydroxide with equal parts of hot water, and cook for an additional 5 minutes). Pour the wax-mix (205-210°F) into one half of the water at 205 to 210°F. with rapid agitation. Add the remaining water (cold) while cooling to room temperature.

These formulations should be free from scum and sediment. Formula No. 2 will have excellent water resistance; and both formulas will give very high gloss, good buffing properties, good slip resistance, and long wear with a minimum of discoloration. Excellent leveling can be obtained with 20% of a leveling resin solution. These formulations are stable at high solids concentration and will have good stability with high concentrations of leveling resin. "Ubatol" polystyrene can be added to these emulsions with good results.

The procedure for manufacturing formulas 3, 4 and 5 is as follows :

Melt the waxes, "A-C" Polyethylene 629 and oleic acid together and bring the temperature to 205 to 210°F. Add the morpholine followed by the borax in a hot saturated solution with agitation. Begin adding half of the water (205 to 210°F.) slowly until the emulsion inverts to the "oil in water" type. The remaining hot water and cold water can be added to a rapid rate. Cool to room temperature with slow stirring.

Silicon Furniture Polish

Formula No. 1

Silicone Fluid	2.2
Oxidized
Microcrystalline Wax	3.6
Mineral Spirits	94.2

No. 2

Microcrystalline Wax	5.0
Silicone "DC-200"	0.5
"Ethomeen" 18/12 Acetate	3.0
Mineral Spirits	10.0
Water	81.5

Heat the wax, silicone, mineral spirits and "Ethomeen" 18/12 acetate until the wax melts. Add the water to the wax very slowly at first with stirring. Then add the remainder of the water while continuing agitation. This formulation dries with a good gloss which upon buffing takes on a high luster.

Wax Paste Polish

Formula No. 1

Carnauba Wax	30.0
Beeswax	30.0
Naphtha	50.0
Triethanolamine	4.3
Stearic Acid	8.0
Water	65.0

No. 2

Carnauba Wax	30.0
Beeswax	30.0
Naphtha	50.0
Monoethanolamine	1.9
Stearic Acid	8.0
Water	65.0

No. 3

Carnauba Wax	30.0
Beeswax	30.0
Naphtha	50.0
Morpholine	2.6
Stearic Acid	8.0
Water	65.0

Liquid Cream Wax Polish

Formula No. 1

Carnauba Wax	12.0
Beeswax	6.0
Naphtha	70.0
Triethanolamine	4.8
Stearic Acid	8.0
Water	180.0

No. 2

Carnauba Wax	12.0
Beeswax	6.0
Naphtha	70.0
Monoethanolamine	2.1
Stearic Acid	8.0
Water	180.0

No. 3

Carnauba Wax	14.0
Beeswax	4.0
Naphtha	25.0
Monoethanolamine	2.0
Stearic Acid	8.0
Water	240.0

No. 4

Carnauba Wax	12.0
Beeswax	6.0
Naphtha	70.0
Morpholine	3.0
Stearic Acid	8.0
Water	180.0

Automobile Polish

Formula No. 1

Carnauba Wax	9.0
Beeswax	8.0
Naphtha	75.0
Triethanolamine	2.7
Stearic Acid	7.0
Water	75.0

No. 2

Carnauba Wax	9.0
Beeswax	8.0
Naphtha	75.0
Monoethanolamine	1.2
Stearic Acid	7.0
Water	75.0

No. 3

Carnauba Wax	9.0
Beeswax	8.0
Naphtha	75.0
Morpholine	1.7
Stearic Acid	7.0
Water	75.0

A steam-or hot-water-jacketed kettle is preferred for making wax polishes, as a satisfactory temperature must be maintained to prevent caking of the wax along the sides of the kettle and to avoid discoloration by overheating the wax. A paddle-type, hand-operated stirrer or a low-speed, large-bladed propeller is also suggested for successful operation. Since morpholine has a flash point of 100°F., it should no be added to the mixture in the presence of open flames. If the wax is melted by means of a gas burner, the gas should be turned off during the addition of the morpholine.

Melt the waxes and stearic acid, add the amine, and maintain the temperature at about 90°C. Add the naphtha slowly and stir until a clear solution is obtained and the temperature is 90 to 95°C. Avoid the use of open flames.

The method of adding the abrasive depends on the type used. An oil-absorbing abrasive, such as tripoli, should be well mixed with the hot naphtha solution of waxes just before the water is added. An abrasive that absorbs water, such as bentonite, is best stirred into the finished emulsion.

Heat the water to boiling, add it to the naphtha solution, and stir vigorously until a good emulsion is obtained. Continue stirring slowly until the emulsion has cooled to room temperature. The proportions of waxes can be changed as desired, depending on the ease of polishing required and the hardness of the final film. A high-melting hydrocarbon wax can be used in place of all or part of the beeswax with good results. When the primary use of the automobile polish is for polishing rather than as a cleaning and polishing combination, it will be more satisfactory without an abrasive.

Liquid Floor Polish

Formula No. 1

"Estawax" 20	4.5
Paraffin Wax
(140°F. AMP)	7-6
Stoddard Solvent	89

No. 2

"Estawax" 25	4-5
Paraffin Wax
(140°F. AMP)	7-6
Stoddard Solvent	89

Heat the solvent to 180°F. and add the molten waxes. Cool with stirring and pour into containers at 100 to 140°F. Do not stir rapidly when the mixture approaches the pouring temperaure. Rapid agitation will affect the crystal formation adversely and may cause separation of the solvent.

Water-Emulsion Floor Waxes

Formula No. 1

a	"Duroxon" J-324	39.0
	"Shanco" 300 Resin	39.0
	Prime Yellow Carnauba Wax	29.0
	Oleic Acid	11.0
	Morpholine	7.5
	Borax	4.5
	Potassium Hydroxide	0.4
	Water	To 12% solids
	Add the melted wax to water.
b	"Durez" 15546
	12% Ammonia cut
	Mix 80 parts of a with 20 parts of b.

No. 2

a	"Duroxon" J-324	39.0
	"Shanco" 300 Resin	39.0
	"Duroxon" H-110	29.0
	Oleic Acid	5.0
	Morpholine	11.0
	Borax	4.5
	Potassium Hydroxide	0.4
	Water	To 12% solids
b	"Durez" 15546
	12% Ammonia cut
	Mix 80 parts of a with 20 parts of b.

No. 3

a	"Duroxon" J-324	20.0
	Oleic Acid	2.0
	3-Methoxy propylamine	1.5
	Water	To 13% solids
b	"Ludox" Reduced to 13% solids
c	Manila Loba C Resin Dispersion 13%
	Mix 50 parts of a with 25 parts of each b and c.

No. 4

"Duroxon" J-324	20
"Shanco" 300 Resin	20
Oleic Acid	4
Morpholline	6
Water	To 15% solids

No. 5

"Duroxon" H-110	20
"Durez" 219 Resin	20
2-Amino 2-Methyl
I-Propanol	6
Water	To 13% solids

No. 6

a	"Duroxon" H-110	12.0
	Oleic Acid	2.4
	Morpholine	1.6
	Water	To 15% solids
b	"Ubatol" 2001	50
	Water	50

Add the melted wax to the water. Mix 60 parts of a with 40 parts of b.

No. 7

a	"Duroxon" H-110	50
	Morpholine	6
	Water	To 12% solids

Liquid Solvent Wax

Formula No. 1

"Duroxon " R-21	5
Paraffin Wax
(126/130°F. AMP)	5
Mineral Spirits or	90
Mineral Spirits and	80
Turpentine	10
Gel -point : Less than -4°F.

No. 2

"Duroxon" R-21	3.4
"FT" Wax 300	3.3
Paraffin Wax
(126/130°F. AMP)	3.3
Mineral Spirits	90.0
Gel -point : Less than -4°F.

No. 3

"Duroxon" R-21	10
Mineral Spirits	90
Gel -point : Less than -4°F.

No. 4

Gel -point : Less than 14°F.

"Duroxon" R-21	5
Paraffin Wax
(126/130°F. AMP)	5
Mineral Spirits	50
Turpentine	40

No. 5

"Duroxon" R-21	7.5
Paraffin Wax
(126/130°F. AMP)	7.5
Mineral Spirits or	85.0
Mineral Spirits and	75.0
Turpentine	10.0
Gel -point : 29°F.

No. 6

Turpentine 25.0Gel Point: 32°F.

"Duroxon" R-21	7.5
Paraffin Wax
(126/130°F. AMP)	7.5
Mineral Spirits	60.0

No. 7

"Duroxon" R-21	5
"FT" Wax 300	5
Paraffin Wax
(126/130°F. AMP)	5
Mineral Spirits	85
Gel-Point : 35.6°F.

No. 8

"Duroxon" R-21	7.5
Paraffin Wax
(126/130°F. AMP)	7.5
Mineral Spirits	50.0
Turpentine	35.0
Gel Point: 39.5°F.

No. 9

"Duroxon" R-21	10
Paraffin Wax
126/130°F. AMP)	10
Mineral Spirits	80
Gel Point: 39.5°F.

No. 10

"Duroxon" R-21	5
"FT" Wax 300	5
Paraffin Wax
(126/130°F. AMP)	5
Mineral Spirits	75
Turpentine	10
Gel Point: 41°F.

No. 11

"Duroxon" R-21	7.5
Paraffin	Wax
126/130°F. AMP)	7.5
Silicone Oil (350 cstks.)	2.0
Mineral Spirits	83.0

No. 12

"Duroxon" R-21	3.5
Silicone Oil (350 cstks.)	3.5
Stoddard Solvent	20.0
Mineral Spirits	73.0

The Waxes are melted together at a temperature of 212 to 225° F. While agitating strongly, the mineral spirit, respectively the blend of mineral spirit and turpentine is slowly added in a steady stream. Then the heat is shut off and agitation is continued while cooling the mass to room temperature.

Where "FT" Wax 300 is part of the formula, the waxes are heated in the presence of approximately 20 to 30% of the total quantity of solvent until a clear solution results. For this purpose temperatures of approximately 200 to 212°F. are recommended. Only when such a clear solution is achieved. the balance of solvent is added. This procedure can be recommended as a matter of general practice in order to prevent any separation of wax components or premature crystallization.

No. 13

"Duroxon" E-321	5
Paraffin Wax
(126/130°F. AMP)	5
Mineral Spirits	90

Products with a higher viscosity can be obtained by adding "Duroxon" J-324 to the composition.

No. 14

"Duroxon" E-321	5
"Duroxon" J-324	1
Paraffin Wax
(126/130°F. AMP)	4
Mineral Spirits	90

A further viscosity increase can be obtained without change of solids content if, in the place of mineral spirits fresh spirits of gum turpentine is used. When blends of turpentine and mineral spirits are used, the viscosity depends on the proportion of turpentine.

	No.15	No.16	No.17	No.18
"Duroxon" E-321	8	7	10	9
"Duroxon" J-324	_	1	_	1
Paraffin Wax
(126/130°F. AMP)	7	7	10	10
Mineral Spirits	85	85	80	80

No. 19

"Duroxon" E-321	9
Microcrystalline Wax
(150/160°F).	1
Paraffin Wax
(126/130°F. AMP)	10
Mineral Spirits	80

Small quantities of nonionic emulsifiers may be added to liquid solvent wax formulations. Such emulsifiers prevent agglomeration of crystalline particles and improve gel-formation. Emulsifiers of the type "Igepal" CO-880, 'Emulphor" ON-870, "Hoechst" 2106, "Atlas" G-3960, and others suitable for this purpose. They are melted together with the waxes.

The liquid wax dispersions described in the preceding paragraphs may be prepared according to the following procedure : Heat the waxes until a clear melt results. For this, a temperature of 212 to 230°F. is recommended. Then start the agitation and add the solvent in a steady stream, making sure that the temperature never drops below 185°F. Where limitations in plant equipment do not permit the melting of the waxes at the temperatures indicated, the melt with the solvent should be held at 185 to 190°F. with agitation for a certain length of time in order to assure complete solution of the highest melting wax components and any polyethylene in the formula. This step will also prevent premature crystallization of a part of the wax components which would later which would later result in separation and settling. After cooling the wax to room temperature with constant agitation, it may be passed through a homogenizer for further increasing its smoothness.

Floor Polish Paste

"Duroxon" R-11	6
"Durmont" 500 Refined
Montan Wax	4
Carnauba Wax No.	3
North Country	4
Paraffin Wax
143/150°F. Fully Refined	11
Mineral Spirits	75

The waxes and paraffin are melted together and then the slightly prewarmed solvent is added with good stirring. Solution should be complete, Otherwise, reheat slightly. Then cool with agitation to a temperature of 110 to 115°F. and pour into cans.

Automobile Cleaner-Polish

"Duroxon" R-11	10.0
"Durmont" 500	5.0
Carnauba Wax No.	3
North Country	5.0
Silicone Oil 350 centistokes	5.0
"Snow Floss"	10.8
No. 292 Air Floated
Cream Tripoli	1.2
Mineral Spirits	63.0

Melt the waxes ; in a separate container the silicone oil is mixed with the mineral spirits and heated to approximately 120° F. This solution is added slowly with agitation to the wax melt. Solution must be complete, otherwise, reheat slightly. Then, while agitating, add the "Snow Floss" and the Tripoli. Cool the solution to 120° F. with continued agitation. Then pour in to cans and allow to cool undisturbed.

Bright Drying Floor Wax

Emulsion

Formula No. 1

a	"Duroxon" J-324	150
	Oleic Acid	10
	Morpholine	17
	Monethanolamine	3
	Water	To make 1000
	(Appx. 16% solids)
b	"Shanco" L-1001	160
	Ammonia (28%)	36
	Water	804

Final Composition

a	85 parts (by volume)
b	15 parts (by volume)

This product can be readily made by conventional procedures. When the " water-to-wax" method of manufacture is used, it can be modified by reducing the amount of amine (morpholine and monethanolamine) recommended for a. It is also possible to employ other leveling resins than the recommended "Shanco" L-100.

No. 2

a	"Duroxon" J-324	100.0
	Oleic Acid	14.0
	Morpholine	14.3
	Monethanolamine	3.1
	Water	To make 712.0
	(16% solids)
b	"Ubatol" U-2003 @ 40%	100.0
	Plasticizer KP-140	2.6
	Dibatyl Phthalate	3.3
	Water	46.6
c	"Durez" 15546 resin	140.0
	Ammonia (28%)	21.8
	Water	838.2

Final composition (Add in the order listed)

a	36.5
Water	26.0
b	23.5
c	14.0

It is recommended that a be prepared by the "wax-to-water" method. This emulsion should be almost completely transparent. Best leveling is usually obtained after the final composition has been allowed to stand undisturbed for at least 24 hours.

Silicone Polishing Cloth

German Patent 941,309

a	Methylpolysiloxane Oil	12
	Isopropanol	6
	Triethylamine	7
	Oleic Acid	1
b	Cresol Soap Solution (1%)	175

Mix a and pour into b. Impregate soft cotton cloth with above for 15 minutes ; squeeze and dry.

Mineral Oil Emulsion Polish

Mineral Oil (Light)	40.0
"Ethofat" 60/15	2.5
"Ethofat" 60/20	2.5
Water	55.0

Dissolve the "Ethofat" 60/15 and "Ethofat" 60/20 in the mineral oil using heat if necessary. The water is then added to the oil with agitation.

Aerosol Polish

"A-C" Polyethylene 629	3.0
Silicone ("Dow" DC-200, 50 CS)	1.8
Naphtha	50.2
"Genetron" 12	45.0

Melt the "A-C" polyethylene 629, add the silicone and bring to 230°F. Heat naphtha to 158-176°F. and add slowly keeping temperature at 185 to 194°F.( solution should be clear and homogenous). Continue agitation and cool to room temperature, charge to aerosol containers, cool, and pressure fill with "Genetron".

To apply, spray light coat on clean surface and buff to high gloss.

Aerosol Waxless Polish

Lauric Isopropylamide	0.5
Methylene Chloride	25.0
Trichlorompnofluoromethane	25.0
Difluorodichloromethane	50.0
Dimethylpolysiloxane	2.0

Auto Cleaner Polish

"A-C" Polyethylene 629	13.0
Silicone ("Dow" DC-200, 500 CS)	8.0
Stearic Acid	7.0
Morpholine	1.7
Water	150.0
Naphtha	100.0
J.M. "Snow. Floss"	20.0

Melt the "A-C" Polyethylene and stearic acid together and add the silicone Cool to 221 to 230°F, and add the morpholine. Heat the naphtha to 158 to 176°F. and add slowly with stirring, holding the temperature at 185 to 194°F. (solution should be clear and homogeneous). Add the water (185 to 194°F.) with moderate agitation. Finally add the "Snow Floss" and cool with agitation to room temperature. To apply, rub in well to assure removal of surface film, allow to dry and wipe off.

Ball Bearing Polish

Spindle Oil	15-35
Kerosene	15-35
Stearin	2-5
Graphite Powder	1-3
Emery Powder M-14	24-7

Metal Polish

Formula	No. 1	No. 2
Polyethylene glycol 1500	35	50
"Tergitol" Nonionic NPX	3	3
Citric Acid	5	-
Sodium Chloride	5	-
Bentonite	8	9
"MultiCel" 000	19	21
Water	25	29

Stir polyethyleneglycol 1500, water, and "Tergitol" nonionic NPX until a clear solution is obtaind. If polish No. 1 is being formulated, add the citric acid and sodium chloride and stir until dissolved. Then, for both polishes, add the "MultiCell" 000 and the bentonite and stir until a smooth paste is obtained.

No. 3

"Carbowax" Polyethyleneglycol 1500	35
"Tergitol" Anionic 7	3
Citric Acid	5
Sodium Chloride	5
Bentonite	8
"MultiCel" 000	19
Water	25

Mix "Carbowax", water, and anionic, and stir until a clear solution is obtained. Add the citric acid and sodium chloride and stir until dissolved. Then add the "MultiCel" 000 and the bentonite and stir until a smooth paste is obtained.

Chemical Polishing of Steel Japanese Patent 2817

Hydrogen Peroxide (30%)	4
Hydrofluoric Acid	4
Hydrochloric Acid (d. 1.1 S)	1

Immerse steel for 10 minutes, then wash with water.

Chemical Polishing of Aluminium Japanese Patent 2962

Phosphoric Acid	100 cc.
Potassium Nitrate	5-20 g.
Copper Sulfate	0.05-1 g.

Alkaline Aluminum Cleaner

Anhydrous Sodium Metasilicate	30
Alkyl Aryl Sodium Sulfonate (85%)	10
Trisodium Phosphate Dodecahydrate	35
Soda Ash	20
Tetrasodium Pyrophosphate Anhydrous	5

Metal Cleaner

Sodium Metasilicate, Pentahydrate	34.5
Sodium Phosphate, Monobasic	12.0
Trisodium Phosphate, Dodecahydrate	33.5
"Tergitol" Nonionic NPX	5.2
Sodium Alkyl Aryl Sulfonate	14.8

Silver Cleaner

"Tergitol" Nonionic NPX	6.5
"Carbowax" Polyethyleneglycol 400	4.0
Ammonium Carbonate	2.6
"Ivory" Soap	1.5
Chalk	6.5
"MultiCel" 000	26.4
Water	52.5

Dissolve the soap in part of the water, heating to obtain solution. Add the rest of the water and cool to room temperature. Add the ammonium carbonate, stir until dissolved, and then stir in nonionic NPX and "Carbowax" polyethyleneglycol 400. Add the abrasives and stir until throughly mixed and a smooth paste is obtained. The polish will become somewhat stiffer on standing several days. The amount of abrasives can be varied to obtain the desired viscosity.

Silver Polish (Dip)

Thiourea	8.0
Hydrochloric Acid	1.0
Wetting Agent	0.3

Paste Polish

Formula	No. 1	No. 2	No. 3	No. 4
"Epolene" N.	20	20	18	15
Paraffin Wax	8	4	4	8
Beeswax	-	4	4	-
Carnauba	-	-	2	5
"DC-200" (silicone oil)	2	2	-	-
Turpentine	30	-	-	-
"Amsco" 46 spirits	-	40	32	-
VM&P naphtha	20	-	-	-
"Solvesso" 100	-	30	40	32
"Stoddard" solvent	20	-	-	40

In the preparation of these polishes, the waxes and solvents are heated to approximately 200°F. or until a clear solution is obtained. The mixture is then cooled with agitation until the first sign of cloudiness after which the mixture is poured into a container and allowed to solidify. It has been found that homogenization of the muxture just after the first sign of cloudiness tends to give a much smoother paste.

No. 5

"A-C" Polyethylene 629	15
Carnauba wax	5
Paraffin Wax	5
Turpentine	25
Naphtha	50

Melt the "A-C" Polyethylene and the waxes together and cool to 212°F. Heat the turpentine to 122 to 140°F. and add to the melt with stirring. Heat the naphtha to 122 to 140°F. and add with stirring. Continue agitation until the polish cools to 131°F. and pour into container.

Apply in an even film and buff to a high gloss.

Antislaking Buffing Composition

Formula No. 1

Vienna Lime	65
Stearic Acid	15
Acidless Tallow	15
N-Tallow Trimethyldiamine	5

No. 2

Vienna Lime	77
Stearic Acid	14
Acidless Tallow	6
N-Tallow-N, N', N'-Tris
(hydroxyethyl) trimethylene diamine	3

Lime Buffing Composition

Lime	70-80
Stearic Acid	10-20
Petrolatum	1-6
Tallow	2-5
Tertiary Amine	0.1-5

Abrasive Vehicle (Oil)

Diesel Oil	82.99
Lard Oil	12.97
Sodium Dodecylbenzene Sulfonate	2.04
#1 cup Grease	2.00

Razor Strop Compound

Sodium Benzoate	10 ft. oz.
Water	10 ft. oz.
Gum Arabic	2 oz.

Insecticidal Floor Wax

Formula No. 1

(For Ants)

a	Carnauba Wax or Blend	45.0
	Technical Chlordane	2.5
	"Carbitol"	7.0
	"Tween" 80	12.0
	Water	410.0
b	Standard Shellac or
	Resin Dispersion	94.0

No. 2

(For Flies)

n	Carnuaba Wax or Blend	45.0
	98% DDT	2.5
	Butyl "Cellosolve"	7.0
	"Tween" 80	12.0
	Water	410.0
b	Shellac Dispersion	94.0

No. 3

(For Bugs)

a	Carnauba Wax or Blend	40.0
	Beeswax	5.0
	95% Lindane	2.5
	"Carbitol"	7.0
	"Tween" 80	12.0
	Water	410.0
b	Shellac Dispersion	94.0
	Opaque-White Nonrubbing

Floor Wax

In preparing opaque-white nonrubbing carnauba wax dispersions, use light-colored ingredients, a minimum amount of dispersing agents, and a mutual solvent.

Formula No. 1

Carnauba Wax No. 1	47.5
White Oleic Acid	4.0
Soap Flakes	3.3
"Carbitol"	7.1
Triethanolamine	2.0
Water	411.1

No. 2

Carnauba Wax No. 1	47.3
White Oleic Acid	4.0
Soap Flakes	3.3
Butyl "Cellosolve"	7.0
Triethanolamine	2.0
Water	411.4

No. 3

Carnauba Wax No. 1	47.3
White Oleic Acid	6.0
Butyl "Cellosolve"	7.0
Morphloline	3.7
Water	411.0

No. 4

Carnauba Wax No. 1	47.3
White Oleic Acid	6.0
Butyl "Cellosolve"	7.0
2- Amino 2-Methyl 1- Propanol	3.3
Water	411.4

No. 5

Carnauba Wax No.1	47.5
Butyl "Cellosolve"	7.1
"Tween" 80	9.5
Water	410.9

No. 6

Carnauba Wax No. 1	35.6
"Mekon" Y-20	11.9
Butyl "Cellosolve"	7.1
"Tween" 80	9.5
Water	411.0

No. 7

Carnauba Wax No. 1	35.6
Bleached Beeswax	11.9
Butyl "Cellosolve"	7.1
"Tween" 80	9.5
Water	411.0

No. 8

Carnauba Wax No. 1	35.6
"Mekon"Y-20	8.0
Bleached Beeswax	4.0
"Carbitol"	7.0
"Tween" 80	9.5
Water	411.0

Wax dispersions are prepared by adding boiled water, containing the amine (if used) to the melted wax mixed with the other ingredients. Where soap flakes are used, they are dispersed in the melted wax before the water solution is added.

Floor-Wax Emulsion

Formula No. 1

"Chlorowax" 70	17.0
"Crown" Wax 23	66.0
Oleic Acid	8.3
Morpholine	9.0
Water	730.0

Melt the waxes together and add the oleic acid and morpholine with stirring. Maintain the gel at 200 to 210°F. and add hot water at 205 to 210°F., slowly at first, with rapid stirring. After the gel inverts to an oil-in-water emulsion, you may add the water more rapidly. After half the water has been added, discontinue the heat and cool the batch as rapidly as possible while the remainder of the water is added at room temperature, with slow agitation.

No. 2

"Chlorowax" 70	7.7
Carnauba Wax	5.8
"Crown" Wax 23	64.0
Oleic Acid	7.7
Triethanolamine	9.7
Borax	5.2
Water	730.0

Use the procedure given under formula 1, but add the borax, dissolved in 25 lb. of boiling water slowly to the mixture of waxes and emulsifier.

Nonrubbing Floor Wax

Formula No. 1

North-Country Carnauba Wax No. 3	4.65
"Cardis" 319 Wax	4.65
"Triton" X-100	1.50
Morpholine	0.85
Water	88.35

Melt and mix the waxes in a steam-jacketed kettle (or in a water bath, etc.), add the "Triton" and stir in until dissolved ; then mix in the morpholine ; slowly add boiling water, a small portion at a time homogeneously absorbed, with constant agitation, until the first formed water-in-oil emulsion suddenly inverts to oil-in-water. Then add the balance of the water more rapidly, with agitation. Let cool.

If making up a small amount, e.g., 5 gal. or less, hand stirring is sufficient for the agitation, but mechanical agitation is still to be preferred.

The final one third or one quarter of the water can be added cold and mixed in.

After the prepartion is made up to volume, it is not necessary to continue the agitation while cooling.

Resin or shellac solutions (10 to 20%) can be stirred in hot or cold, as is the common practice with water-emulsion floor waxes.

No. 2

"Cardis" 314	55.0
"Durez" 219	25.0
Refined Carnauba Wax No. 3	25.0
Oleic Acid	15.0
Morpholine	5.0
Borax	8.0
Caustic Potash	0.4
Water	To make 1000.0
Shellac-Substitute Solution	250.0

Melt the "Cardis", "Durez", carnauba wax, and oleic acid ; cool to 210° F. Then add the morpholine and stir 10 minutes at 210°F. Add the borax and caustic potash dissolved in 30 ml. boiling water and stir 10 minutes.

Pour the hot wax blend into the total volume of water at 210°F. under strong agitation. cool, adjust the pH at 8.5 to 9.0 with ammonia, if necessary, and add the shellac substitute solution (12% "Durez" 15546) in water.

The finished emulsion shows perfect water resistance, very good gloss, leveling, and wetting properties. The heat stability is very good. The freezing stability is fair and can be improved to perfection by using 3 g. of 2-amino 2-methyl propanol in addition to the indicated 5 g. morpholine. The water resistance of the last formulation is good for practical purposes.

No. 3

"Cardis" One	60.0
"Durez" 219	40.0
"Warco" 180 White	20.0
Oleic Acid	8.0
Morpholine	9.0
Borax	8.0
Caustic Potash	0.4
Water	To make 1000.0
Shellac-Substitute Solution	250.0

Melt the "Cardis" One, "Durez," " Warco," and oleic acid and cool to 210°F. Add the morpholine and stir 10 minutes at 210°F. Add the borax and caustic potash, dissoved in 30 ml. boiling water, and stir 10 minutes. Pour the hot wax blend into the total volume of water at 210°F. under strong agitation ; cool, adjust the pH at 8.5 to 9.0 with ammonia, if necessary, and add the shellac-substitute solution (12% " Durez" 15546 in water).

No. 4

"Cardis"314	57.0
"Durez" 219	48.0
Oleic Acid	10.0
Morpholine	5.0
Borax	8.0
Caustic Potash	0.4
Water	To make 1000.0
Shellac-substitute solution
("Durez" 15546, 12% Solids)	250.0

Melt the "Cardis", "Durez" and oleic acid and cool to 210° F. Add the morpholine and stir 10 minutes at 210° F. Add the borax and caustic potash, dissoved in 30 ml. boiling water, and stir 10 minutes at 210° F. Pour the hot wax blend in to the total volume of water at 210°F. under strong agitation, cool, adjust the p H at 8.5 to 9.0 with ammonia water and add the " Durez" 15546 solution of 12% solid content, or as desired.

No. 5

"Cardis" One	50.0
"Durez" 219	40.0
"Warco" 180 White	30.0
Morpholine	3.0
Soap	12.0
Caustic Potash	0.4
Water	To make 1000.0
Shellac-Substitute Solution	250.0

Melt the "Cardis" One, "Durez", and "Warco" and cool to 210°F. Add the morpholine and stir 10 minutes at 210°F. Add the soap flakes and caustic potash dissolved in 40 ml. boiling water and stir 10 minutes.

Pour the hot wax blend into the total volume of water at 210°F. under strong agitation, cool, adjust the pH at 8.5 to 9.0 with ammonia, if necessary, and add the shellac-substitute solution (12% "Durez" 15546 in water).

No. 6

"Cardis" One	50.0
"Durez" 219	40.0
"Warco" 180 White	30.0
Oleic Acid	8.0
Morpholine	9.0
Borax	8.0
Caustic Potash	0.4
Water	To make 1000.0
Shellac-Substitute solution	250.0

Melt the "Cardis" One, "Durez," "Warco", and oleic acid and cool to 210°F.

Add the morpholine and stir 10 minutes at 210° F. Add the borax and caustic potash, dissolved in 30 ml. boiling water, and stir 10 minutes.

Pour the hot wax blend into the total volume of water at 210° F., under strong agitation, cool, adjust the pH at 8.5 to 9.0 with ammonia, if necessary, and add the shellac-substitute solution (12% "Durez" 15546 in water.)

The finished emulsion shows very good water ressistance, gloss, and leveling properties. The films are highly scuff and wear resistant.

Water-Emulsion Paste Waxes

Formula No. 1

a	"FT" Wax" 200	12
	"Duroxon Acid C-60-A	12
	Stearic Acid	5
	"Lorol" 28	3
	Mineral Spirits	15
b	Water at 212°F.	49
	Triethanolamine	3
	Borax	1

No. 2

"Duroxon" H-110	10
"Duroxon" C-60-A	10
"Alrosol" B	1
Morpholine	4
Water	75

Pour hot water into the melted wax.

Liquid Solvent Waxes

Formula No. 1

"Duroxon" R-21	5
"FT Wax" 300	5
Paraffin Wax (M.P. 133-135°F.)	5
Mineral Spirits	85

No. 2

"Duroxon" R-11	6.5
Mineral Spirits	93.5

Solvent-Type Paste Waxes and shoe Polishes

Formula No. 1

"Duroxon" R-11	6
Crude Carnauba Wax No. 3NC	4
Beeswax	1
Crude Paraffin Wax (M.P. 143-150°F.)	19
Turpentine	35
Mineral Spirits	35
Pouring Temperature : 120 to 130°F.

No. 2

"Duroxon" J-324	10
"FT Wax" 300	10
Paraffin Wax (M.P. 133-135°F.)	10
Mineral Spirits	70

Stable Wax- Solvent Floor Polish

Formula No. 1

Carnauba Wax	6
Petrolatum	12
Beeswax	12
Turpentine	70

No. 2

Carnauba Wax	6
Petrolatum	12
Beeswax	12
Turpentine	65
"Aroclor" 1242	5

No. 3

Carnauba Wax	6
Petrolatum	12
Beeswax	12
Turpentine	60
"Aroclor" 1242	10

After preparation, the products are poured, while liquid, into glass bottles and placed in storage.

Liquid Solvent Floor Wax

"Duroxon" R-21	3.4
White "FT Wax" 300	3.3
Paraffin Wax (M.P. 133-135°F.)	3.3
Mineral Spirits	90.0

Melt the waxes with 20% of the solvent ; then stir in the heated solvent; finally cool, with agitation, to room temperature. This remains fluid at low temperatures.

Buffing Compound

Silica Sand (200 Mesh)	75
Polyglycol Distearate	20
Beeswax	2
Sodium Bicarbonate	3
Tartaric Acid	6

The articles buffed with this compound are immersed in water, acidified with hydrochloric or sulfuric acid, to complete cleaning.

Metal Abrasive

Alumina	74
Stearic Acid	26
Heat and mix until uniform.

Paste Wax Polish (Auto Wax)

Carnauba Wax	10.0
Candelilla Wax	5.0
Yellow Ozokerite	9.5
Yellow Beeswax	8.5
Stearic Acid	.5
Pine Oil	5
Wood Turpentine	2.0
Kerosene	44.0
Mineral Spirits	20.0

(Floor and Furniture Wax)

Carnauba Wax	4.0
Candelilla Wax	2.0
Yellow Ozokerite	3.0
Yellow Beeswax	3.0
Paraffin WAX	10.0
Pine Oil	1.0
Wood Turpentine	10.7
Mineral Spirits	55.1
VM&P Naphtha	11.2

Melt waxes in steam bath or steam-jacketed kettle. Add solvents and heat until clear, if necessary. Cut off heat and cool to about 130 °F. Pour into containers and allow to solidity uncovered.

Liquid Wax Polish

Bleached Montan Wax	5
Ozokerite	2
Paraffin Wax	6
Carnauba Wax	2
Turpentine	80
Diglycol Oleate	3

Melt waxes at 100°C. and then cool to 85° C. Add turpentine and diglycol oleate. Stir till cold.

Auto Polish

Formula No. 1

A.Paraffin Wax	55
Candelilla Wax	20
Durocer	20
Rezo Wax B	55
B.Turpentine	45
Naphtha	205

Melt A at 90°C. until uniform and then add B.

No. 2

Carnauba Wax (No.3 Refined)	6.67 oz
Oleic Acid	0.52 oz.
Potassium Hydroxide	.13 oz
Japan Wax	.27 oz.
Triethanolamine	.31 oz.
Powdered Borax	.13oz.
Ammonia (26°). in 3.5 oz. Water	100 drops
Water	26 oz.
Shellac Solution in 5 ¼ oz. Water	5 3/8 oz.
Booster Solution in 5 ¼ oz. Water	2 ¾ oz.
Water	21 oz.

The booster is made by adding 5 oz. Casein to 1 qt. water, mixing with a solution of ½ oz. potassium hydroxide in 2 oz. hot water, then adding 1 oz. of strong ammonia, 0,8 oz. of zinc sulfate in 2 oz. of boiling water, and finally ¼ oz. of yellow pine oil. The mixture is stirred until thick and 10 oz. cold water added. By omitting the final water (21 oz.), a no-rub floor polish is obtained. The emulsion is maintained by the potassium hydroxide and oleic acid, which form soap.

No. 3

Water	16.35
Soap	4.05
Glycerin	6.75
Kerosene	19.30
Dibutyl Phthalate	3.55
Abrasive	50.00

Windshield Glass Polish and Cleaner

U.S. Patent 2,296,097 Feldspar	12
Calcium Carbonate	8
Sodium Bicarbonate	¾
Bentonite	3

Add sufficient water to make a thin cream before applying

Glass Polish

Boil about four ounces of comminuted castile soap in about one cup of water, pour the solution into 6.25 pounds of whiting, together with 1.5 ounces of aqueous ammonia, one ounce of olive oil and 0.5 ounce of oil of sassafras. The mass is mixed and kneaded until it has a relatively stiff moldable consistency.

Oven Polish

Ozokerite	38
Paraffin Wax	513
Lampblack	175
Graphite	600
Carnauba Wax	10
Benzine	800

Silver Polish

Soap Flakes	10
Hot Water	200
Santomerse S	20
Tetrasodium Pyrophosphate	5
Swift's Carton Glue	50
Sodium Thiosulfate	50
Snow Floss (Diatomaceous Earth)	40
Polish for Gold and Soft Metals Soap	20-25
Coconut Oil	1
Precipitated Chalk	25
Kieselguh	8
Glycerin	40-45
Lemenone {Artificial Lemon Oil)	1

The kieselguhr and chalk serve as abrasives, the Lemenone as a perfume, the oil to impart a certain amount of sheen to the metal, and the glycerin as a lubricating dispersing medium.

Metal Polishing Cloth

Stir a suspension of 100g. of calcium carbonate, 40 g. of kieselguhr, and 8 g. of rouge in 1 lt. of water and impregnate the cloths. Press out the excess liquid and dry the cloths at about 120°F. Then immerse the cloths in a hot 10 per cent solution of hard soap. Squeeze out excess fluid and dry again.

Chromium Polish

Powdered Soap	3
Hot Water	53
Distilled Olein	5
Ammonia (10%)	3
Denatured Alcohol	16
Tripoli	20

The ingredients should be mixed in the order given.

Leather Polish

Carnauba Wax	40
Montan Wax	60
Paraffin Wax	80
Heat until molten and add a solution of :
Oil Soluble Dye	4
Molten Stearic Acid	15
Add molten mass slowly with good stirring to:
Turpentine	300
Allow to cool before using.

Liquid Leather Polish

Crude Montan Wax	10
Carnauba Wax	3
Candelilla Wax	3
Ozokerite	1
Paraffin Wax	5
Diglycol Oleate	25
Water	70
Turpentine	90
Dye color	5

Paste Leather Polish

Bleached Montan Wax	10
Crude Montan Wax	5
Candelilla Wax	4
Carnauba Wax	2
Paraffin Wax	5
Diglycol Stearate	3
Water	50
Turpentine	70
Oil Soluble Color	5

Shoe Polish Paste

(For Tubing)

Candelilla Wax	50
Stroba Wax	25
Glyceryl Monostearate	30
or Diglycol Stearate Varsol	250
Water	225
Melt waxes; cool to 90°C.-add Varsol and
Water at 90°C.

Wax Shoe Polish

Durocer	20
Rezo Wax B	25
Paraffin Wax	55
Candelilla Wax	20
Turpentine	45
Sovasol # 4	205
Melt and mix.

This makes a paste which gives a good shine. The solvent does not squeeze out when the mass is pressed and the mixture makes a firm jell. It should be poured at 90°C.

Colorless Shoe Polish

Durocer (Synthetic Wax)	11 oz.
Candelilla Wax	11 oz.
Paraffin Wax	80 oz.
Sovasol # 4	175 fl. oz.
Warm together and mix.

This produces a firm jell, on cooling, which polishes readily, is homogeneous and is not tacky.

Shoe Creams

Shoe creams are essentially emulsions of wax and a wax solvent in water, the stability of which is maintained by a small amount of soap. Two typical commercial neutral shoe creams suitable for use on very fine leather contain the following ingredients :

Formula No. 1

Carnauba Wax	6
Paraffin Wax	4
Turpentine	15
Water	70
Hard (ordinary) Soap	5

No. 2

Carnauba Wax	10
Paraffin Wax	10
Turpentine	15
Water	47
Soft (Potash) Soap	3

The waxes are melted together and mixed with the turpentine. The solution is then poured slowly into a boiling solution of the soap in water, meantime stirring vigorously to produce a stable emulsion. Stir until nearly ready to set and run into a container.

No. 3

Paraffin Wax	700
Carnauba Wax	500
Montan Wax, Crude	400
Nigrosine Base	100
Candelilla Wax	100
Shellac Wax	100
Ozokerite	100
Turpentine	8000

No. 4

1.	Candelilla Wax	25
2.	Stroba Wax	12 ½
3.	Diglycol Stearate S	15
4.	Toluol	125
5.	Water (Boiling)	112½

Warm 1, 2, and 3 until melted. Keep temperature at 90 - 100°C. and add 4. Add 5 slowly with good mixing and continue mixing until temperature falls to 40°C. then pour into tubes.

Furniture Polish

Formula No. 1

Spindle (Mineral) Oil	20
Chinawood Oil	10
Varnolene	60
Trigamine Stearate	13
Denatured Alcohol	4
Ammonia	1
Water	120
Mix well with a high-speed stirrer.

This makes a stable milky emulsion which polishes easily

No. 2

Water	400
Albasol AR (Emulsifier)	5
Powdered Bentonite	2.5
Gum Karaya	2.5
Formalin (40%)	3
Methyl Salicylate	0.5
Pine Oil	1.5

"Two-Tone" Furniture Polish

A
Varsol (Mineral Spirits)	100
Stove Oil (Kerosene)	55
Turpentine	15
Boiled Linseed Oil	1/10
Amyl Acetate	½
Soudan Orange	To color
B
Water	100
Methanol	45
Glycerol	10
Acetic Acid	5
Tomato Red	To color

Equal volumes of solutions A and B are placed in the bottles. This give two liquid layers of attractively contrasting colors. If too little linseed oil is used the two layers separate too quickly after shaking. If too much linseed oil is taken the polish dries dull.

Shake well and apply with a clean cloth.

Liquid Furniture and Floor Polish

Carnauba Wax	3.0
Glyco Wax A	3.0
Candelilla Wax	2.8
Paraffin Wax	3.3
Linseed Oil Soap	.1
Wood Turpentine	12.5
Mineral Spirits	65.1
VM&P Naphtha	10.2

Put turpentine, mineral spirits, and naphtha in container and mix with high speed mixer. Add linseed oil soap. Melt waxes and add slowly. Mix until cold.

Floor Wax Remover

Morpholine Oleate	0.1
Water	99.9

Apply hot and leave on for three minutes. Scrub lightly to loosen wax and wash away.

Bright Drying Floor Polish (Emulsion) (Rubless)

Formula No. 1

A

Candelilla Wax	12.5
Heat to 200°F.
B
Triethenolamine	1.8
Linolenic Acid	1.7
Borax	1.0
Water	83.0

Heat to boiling Pour A into B stirring well

No. 2

"Fine Melt" Congo	120
Caustic Soda	3
Morpholine	12
Water	500
Water	100
Carnauba Wax	20
Stearic Acid	6
Triethanolamine	3
Water	100
Water	400

To 500 parts of water, add 3 parts of sodium hydroxide and 12 parts of morpholine. Heat this solution to 85 - 90°C. Using continued stirring, add the "fine melt" Congo slowly, taking about 15-20 minutes to add the entire amount. It is very important that the resin be ground to powder size.

Hold at 85 -90°C. for ½ hour, during which time 100 parts of water are added. The resin should now be completely dissolved.

In a separate container, melt together the carnauba wax and the stearic acid, and add slowly to the Congo mixture, always continuously stirring. Then add the triethanolamine and about 100 parts of hot water slowly, keeping the temperature around 80°C. The remaining 400 parts of water are added more quickly and the polish is allowed to cool to room temperature; water is added to compensate for evaporation loss, and the polish is then filtered.

This polish exhibits excellent gloss, good leveling properties, and very good water resistance.

No. 3

A polish with slightly loss gloss and water resistance than No.2

"Fine Melt" Congo	120
Caustic Soda	5
Morpholine	6
Water	500
Water	100
Carnauba Wax	20
Stearic Acid	6
Triethanolamine	3
Water	100
Water	400
Same method as in No. 2.

The use of a protective colloid like casein is found to increase compatibility as well as the drying time of Congo polishes. The stock casein solution is prepared according to the following formula:

Casein	500
Water	2360
Borax	75
Pine Oil	10
Phenol	5

The casein is soaked in 1900-2000 parts of water at room temperature for ½ hour, with stirring. The mixture is then gradually heated. When the temperature reaches 52-55°C., the borax is added either as a solid or dissolved in about 150 cc. of water. Heating is continued and the solution completed by holding the batch at about 75°C.for ½ hour, with stirring. Heat is removed, the phenol and pine oil are stirred into the solution, and the remainder of the water is added. When cooled sufficiently, additional water is added to make up for evaporation losses.

The casein solution is incorporated in the polish just after the addition of the resin and after the temperature has been held at 85-90°C for ½ hour.

No. 4

"Fine Melt" Congo	120
Caustic Soda	3
Morpholine	12
Casein Solution	60
Water	500
Water	100
Carnauba Wax	20
Stearic Acid	6
Morpholine	3
Water	100
Water	400
Same methods as in No.2.

By increasing the amount of morpholine to dissolve the resin, the gloss of a polish is increased.

No. 5

"Fine Melt" Congo	120
Caustic Soda	10
Triton W-30	5
Casein Solution	60
Water	500
Water	100
Carnauba Wax	20
Stearic Acid	6
Morpholine	3
Water	100
Water	400
Same method as in No.1

This polish has very good gloss and leveling properties but shows a decrease in water resistance as compared to the other polishes prepared with morpholine. Triton W-30 is leveling and wetting agent. Any similar agents may be used in its place.

No. 6

"Fine Melt" Congo	120
Caustic Soda	3
Morpholine	24
Casein	60
Water	500
Water	100
Carnauba Wax	30
Stearic Acid	7
Morpholine	3
Water	100
Water	400
Same method as in No. 2

The slight increase in carnauba wax helps greatly in improving the drying time of this polish.

Floor Wax

Formula No. 1

Paraffin wax	80
Ozokerite	45
Acrawax C	35
Carnauba Wax	25
Benzine	500
Turpentine	300

No. 2

Yellow beeswax	180
Paraffin Wax	45
Turpentine	135
Benzine	180

No. 3

Paraffin Wax	600
Ozokerite	60
Bleached Montan Wax	20
Benzine	900
Turpentine	300
Pine Needle Oil	20

Diamond abrasive

A shaped compact of diamond dust and copper powder is sintered by immersion at 800°C.in a bath of :

Sodium Chloride	1
Calcium Chloride	2

The absorbed salts are washed out of the pores by water after cooling

Synthetic Abrasive

Abrasive granules (Moh hardness 7.5-8.5) are made by fusing a mixture of the following for 1 hour at 1205°, cooling, and crushing the melt.

Garnet Dust	200
Borax	10
Kaolin	10

Auto Rubbing Compound

This paste rubbing compound is used for rubbing down fresh coats of lacquer or synthetic enamel. Apply with a damp cloth or waste. Rub until perfectly smooth and free from dirt specks, orange peel, etc.

Air Floated Rose Tripoli	33½
Thin Mineral Oil	61¼
Kerosene	1¾
Pine oil	1
Oleic Acid	3½
Triethanolamine	1¾
Water	22

Put water and triethanolamine into pan of a dough mixer. Premix mineral oil, kerosene, pine oil, and oleic acid and add slowly, with good stirring. Then work in the Tripoli until a smooth and uniform paste is obtained.

Buffing Compounds

A
Double Pressed Stearic Acid	366
Avirol WS (Wetting Agent)	22
Pyrophyllite, 200 mesh	336
Air Floated Tripoli	336

Apply "A" to all except the edge of the "coloring" wheel, using that dry edge as a wiper section.

Should the work require an even higher luster, then add a touch of red rouge, "B," to the dry edge of the wheel.

B.
Double Pressed Stearic Acid	180
Avirol Ws	20
No. 00 Red Iron Oxide	800

For spinning work the brass colored red with "A" and "B" cannot be surpassed in luster and freedom from scratches by the use of a "lime" composition.

If, on some non-spinning jobs, or nickel plate,"lime" rouge is desired, formula "C" is suggested:

C.

Double Pressed Stearic Acid	200
Tallow Stearin	30
Avirol WS	20
Calcined Dolomite	750
For "coloring" chromium:
D
Double Pressed Stearic Acid	120
Tallow Stearin	30
Avirol Ws	20
Levigated Aluminum	830

When an intermediate quality finish is required at a minimum cost and without a "cutting down" operation, a "cut and color" composition similar to "E" has proven very satisfactory.

E
Double Pressed Stearic Acid	310
Tallow Stearin	15
Avirol Ws	20
Double Ground Tripoli	680
F

This compound is applied to hardwood novelties on a buffing wheel or in a tumbling barrel. It a applied directly over the stained wood, and produces a high-luster, very smooth finish. It gives the luster of a resin finish with the slip and feel of a wax finish.

Candelilla Wax	30 lb.
Paraffin Wax	25 lb.
Yellow Beeswax	5 lb.
Diatomaceous Silica	2 lb.
Mineral Spirits	50 lb.
Oil Soluble Orange Dye	5/16 oz.
Triethanolamine	5 oz.
Trihydroxyethanyolamine Stearate	12 lb
Water	65 lb.
Resin Solution	31 lb.
Ammonium Hydroxide (28%)	3 lb.

Put water, triethanolamine, and trihydroxyethylamine stearate in a steam-jacketed kettle and bring to 200.F. Melt waxes in another steam-jacketed kettle, stir in dye, silica and mineral spirits and bring to 200°F. Add this mixture to the water solution slowly, with vigorous stirring. Pre-mix resin solution and ammonia and add to the above solution. Cut off steam and stir occasionally until cold to prevent stratification. It will solidify to a smooth, soft paste. Yield 215 lbs.

Cream Buffing Wax

This compound is used with flexible-shaft mechanical buffers to produce a high polish on automobile finishes. It is non-scratching and leaves a protective wax film. The material is a heavy liquid cream emulsion, which is very stable.

Carnauba Wax	4
Yellow Beeswax	1¼
Yellow Ozokerite Wax	¾
Paraffin Wax	2
Mineral Spirits	18¾
Diatomaceous Silica	2¾
Water	164½
Trihydroxyethylamine Stearate	6

Put water in steam-jacketed kettle, add stearate, and heat to 165.F. Melt waxes and mineral spirits to 165.F. in water bath and stir in silica. Then add hot wax solution to water solution slowly with vigorous agitation. Mix occasionally until cold.

Au