A method is disclosed. The method includes providing a cleaning member formed from a consumable cleaning material and including a cavity formed by one or more interior walls of the cleaning member, inserting a cleaning member remnant through an aperture of the cavity formed at a first end surface of a first end portion of the cleaning member, providing and holding a fluid in the cavity holding the cleaning member remnant when the first end surface is facing upward, and attaching the cleaning member remnant to the one or more interior walls based on holding the fluid.

The present invention relates to an extruded soap bar composition. It more particularly relates to a soap bar composition which comprises low amount of soap where high amount of water can be incorporated. This is achieved by including selective amount of a mixture of sodium or calcium silicate and an acrylic/acrylate polymer, wherein the soap bar comprises 0.01 to 0.7 wt % of the polymer. The soap bars of the invention are easy to extrude and has acceptable product hardness.

The present invention relates to an extruded soap bar composition. It more particularly relates to a soap bar composition which comprises low amount of soap where high amount of water can be incorporated. This is achieved by including selective amount of a mixture of sodium or calcium silicate and an acrylic/acrylate polymer, wherein the soap bar comprises 0.01 to 0.7 wt % of the polymer. The soap bars of the invention are easy to extrude and has acceptable product hardness.

A personal cleansing soap bar composition is provided, comprising: a soap; an aqueous ethylene acrylic acid copolymer dispersion; a silicone copolymer emulsion with an internal phase viscosity at 25° C. of ≥100×10.sup.6 mm.sup.2/sec; wherein the personal cleansing soap bar is a solid.

The present invention relates to an extruded soap bar composition. It more particularly relates to a soap bar composition which comprises low amount of soap where high amount of water can be incorporated. This is achieved by including selective amount of a mixture of sodium or calcium silicate and an acrylic/acrylate polymer, wherein the soap bar comprises 0.01 to 0.7 wt % of the polymer. The soap bars of the invention are easy to extrude and has acceptable product hardness.

Perfumed latex soap is prepared from the following components in parts by weight: 2-5 parts of natural latex, 5-12 parts of glycerin, 8-10 parts of sodium dodecyl sulfate, 5-10 parts of coconut oil, 6-8 parts of palm oil, 1-3 parts of titanium dioxide, 0.8-1.2 parts of ethylenediamine tetraacetic acid, 0.6-0.8 part of sulfur, and 0.8-1.0 part of radix asparagine essential oil. The perfumed latex soap is mild, safe, and non-irritating and has aroma of the natural latex. In addition, the added radix asparagine essential oil can effectively improve the skin condition of a human body without causing the human body to generate dependence. The temperature of the mixing tank in which the perfumed latex soup is prepared is convenient to adjust and materials in a mixing cylinder can be agitated and sheared during agitating, so that the materials are fully mixed and the quality of a product is improved.

The present invention relates to a soap bar comprising soap, at least one perfume oil, at least one polymer, optionally water, and optionally further known cosmetic ingredients other than the soap, the perfume oil, the polymer and the water, wherein the at least one polymer is a water-soluble polymer, wherein the polymer has a water solubility of at least 0.01 g of polymer in 100 g of water at 20 C. at one or more than one pH value in the range between (4) and (9), and wherein the at least one polymer is selected from the group consisting of a polymer in which more than 20 wt % of the repeating units of the polymer are repeating units derived from at least one ethylenically unsaturated, polymerizable monomer having at least one acid group, and a polymer comprising repeating units derived from N-vinylpyrrolidone, wherein the proportion of these repeating units in the polymer is at least 50 wt %.

A method for managing hard soap bar consumption is disclosed. In one embodiment, a first portion of the hard soap bar surface remains exposed to allow that portion of the soap bar surface to interface with the water as a traditional soap bar, and a second portion of the soap bar surface is configured to receive a hydro-phobic and oleo-phobic coated film that prevents the soap bar material below the film from interacting with the water. The oleo-phobic coating also prevents oil particles (and their associated germs) from attaching to the surface of the membrane. In this embodiment, only the first portion of the soap bar material is interfacing (being used) while the soap bar material below the second portion is not interfacing and thus remains hard and intact. As the soap bar material in the first portion is being used, the membrane along the planar outer perimeter edge is also gradually fading.

A method for managing hard soap bar consumption is disclosed. In one embodiment, a first portion of the hard soap bar surface remains exposed to allow that portion of the soap bar surface to interface with the water as a traditional soap bar, and a second portion of the soap bar surface is configured to receive a hydro-phobic and oleo-phobic coated film that prevents the soap bar material below the film from interacting with the water. The oleo-phobic coating also prevents oil particles (and their associated germs) from attaching to the surface of the membrane. In this embodiment, only the first portion of the soap bar material is interfacing (being used) while the soap bar material below the second portion is not interfacing and thus remains hard and intact. As the soap bar material in the first portion is being used, the membrane along the planar outer perimeter edge is also gradually fading.

A personal cleansing soap bar composition is provided, comprising: a soap; an aqueous ethylene acrylic acid copolymer dispersion; a silicone copolymer emulsion with an internal phase viscosity at 25? C. of ?100?10.sup.6 mm.sup.2/sec; wherein the personal cleansing soap bar is a solid.