Novel wax compositions are provided herein comprising at least about 85 wt. % of linear alpha olefins having a carbon number of at least 18, about 8 wt. % to about 40 wt. % of linear alpha olefins having a carbon number of 20, and about 5 wt. % to about 30 wt. % of linear alpha olefins having a carbon number of at least 30. The present wax compositions yield smooth, one-pour container candle waxes and provide ideal container candle burn performance demonstrated by low sooting behavior and a balanced wax consumption.

Wax compositions are provided with improved properties for various applications, such as coating of composite cellulosic materials, e.g., composite wood material, more specifically oriented strand board. As described herein, wax compositions include a kinematic viscosity measured at 100 C. of 13.1 mm.sup.2/s; and a contact angle on glass of 34.4, which provide enhanced water proofing properties. The wax composition may have a flash point of greater than 450 F. Wax composition are provided with improved properties for candle jars. As described herein, candle jar wax compositions include 150N foots oil and 600N slack wax. The wax composition can include up to about 80% 150N foots oil.

A method of forming a layered candle assembly includes positioning a candle core in a form. A layer of powdered wax is loaded into the form. The powdered wax layer has an outer region and an inner region. Mechanical force is applied to compress the outer region of the powdered wax layer and form an upper interface surface that is substantially non-horizontal. The outer perimeter of the interface surface is visible to an observer in the finished candle assembly. A liquefied fuel substance is poured over the top of the powdered wax layer to form a layer of solid wax. A wick may be added to at a desirable stage in the method of forming the layered candle assembly. The powdered wax and solid wax layers may each have a color or a combination of colors and/or a scent component or a combination of scent components.

The disclosure relates to candles, including multi-wick candles, that contain one more non-ionic emulsifiers. The non-ionic emulsifier(s) can be contained in the candle base formulation and/or in the wick coating formulation. The candles exhibit one or more desirable properties, such as good flame height, good fragrance character, low mineral impurity levels and little or no discoloration.

A method of forming a layered candle assembly includes positioning a candle core in a form. A layer of powdered wax is loaded into the form. The powdered wax layer has an outer region and an inner region. Mechanical force is applied to compress the outer region of the powdered wax layer and form an upper interface surface that is substantially non-horizontal. The outer perimeter of the interface surface is visible to an observer in the finished candle assembly. A liquefied fuel substance is poured over the top of the powdered wax layer to form a layer of solid wax. A wick may be added to at a desirable stage in the method of forming the layered candle assembly. The powdered wax and solid wax layers may each have a color or a combination of colors and/or a scent component or a combination of scent components.

A candle unit including multiple candle characteristics, such as multiple candle colors and/or multiple candle scents. The candle unit is specifically configured and adapted to be invertible/repositionable, such that when the candle unit is in a first orientation, a first characteristic is perceptible, and when the candle unit is in an inverted, second orientation, a second characteristic is perceptible. Thus, the user may effectively change the characteristics of the candle unit simply by inverting/transitioning the candle unit between different operative orientations, as opposed to swapping out the candle unit for a different candle unit.

A candle with shimmering properties has (i) wax; and (ii) light reflective particles dispersed throughout the wax, in the form of a candle base mixture, such that upon lighting the candle base mixture with a flame, at least a portion of the candle base mixture melts from a solid state to a liquid state, forming a pool of molten liquid in which the liquid moves. The light reflective particles highlight the movement of the liquid, such that the movement of the liquid is visible to an observer. A wick may be mounted within the candle base mixture and a container may contain the candle base mixture. A fragrance and/or dye are optional ingredients of the candle.

A wick includes a sheet of wick material. The wick has a height dimension, a width dimension, and a thickness dimension. The height dimension and the width dimension are greater than the thickness dimension. The height dimension extends from the top of the wick to the bottom of the wick as the wick is oriented when provided in a candle. The width dimension and the thickness dimension are perpendicular to the height dimension. The sheet of wick material may be dyed, provided with a visible pattern and/or provided with a plurality of cut-out portions.

Disclosed are candles having a wick, a wax composition, and a gel composition, wherein the wax composition encloses the wick, and the wick is separated from the gel composition. The candle while being burned exhibits one or more desirable properties, such as reduced levels of soot or reduced emissions of volatile organic compounds (VOCs).

Disclosed are candles having a wick, a wax composition, and a gel composition, wherein the wax composition encloses the wick, and the wick is separated from the gel composition. The candle while being burned exhibits one or more desirable properties, such as reduced levels of soot or reduced emissions of volatile organic compounds (VOCs).