A clothing aroma-enhancing bead composition and a method for preparing same are provided. The clothing aroma-enhancing bead composition includes the following raw materials in percentage by weight: 60-95% of sugar granules, 1.0-20% of liquid essence, and 0.5-20% of silica. The clothing aroma-enhancing bead composition takes the sugar granules as a core, and surfaces of the sugar granules are coated with the liquid essence and the silica. The clothing aroma-enhancing bead composition is attractive in appearance, good in solubility, and simple in production process.

Disclosed are an environmentally-friendly glass composition for laundry detergents and washing supplements, and a method for manufacturing a glass powder thereof, wherein the glass composition is a borate glass containing large amounts of K.sub.2O and Na.sub.2O and a small amount of SiO.sub.2, and the elution properties of ions are maximized, thus enabling the production of a high concentration of elution water. As a result, the present invention uses to advantage the low chemical durability of borate glass, which is a major disadvantage of borate glass, and thereby maximizes the elution properties of the glass to form a large amount of OH.sup.? ions and B(OH).sub.4.sup.? ions within a short period of time, and thus can exhibit excellent washing power during the washing of laundry.

Disclosed are an environmentally-friendly glass composition for laundry detergents and washing supplements, and a method for manufacturing a glass powder thereof, wherein the glass composition is a borate glass containing large amounts of K.sub.2O and Na.sub.2O and a small amount of SiO.sub.2, and the elution properties of ions are maximized, thus enabling the production of a high concentration of elution water. As a result, the present invention uses to advantage the low chemical durability of borate glass, which is a major disadvantage of borate glass, and thereby maximizes the elution properties of the glass to form a large amount of OH.sup.? ions and B(OH).sub.4.sup.? ions within a short period of time, and thus can exhibit excellent washing power during the washing of laundry.

A treatment liquid for a semiconductor device includes an alkanolamine; a hydroxylamine; an organic solvent; Ca; Fe; and Na, wherein the content of the alkanolamine in the treatment liquid is 0.1% to 5% by mass, the content of the hydroxylamine in the treatment liquid is 0.1% to 30% by mass, and each of the mass ratio of Ca, Fe, and Na with respect to the content of the alkanolamine and the hydroxylamine in the treatment liquid is 10.sup.12 to 10.sup.4.

A treatment liquid for a semiconductor device includes an alkanolamine; a hydroxylamine; an organic solvent; Ca; Fe; and Na, wherein the content of the alkanolamine in the treatment liquid is 0.1% to 5% by mass, the content of the hydroxylamine in the treatment liquid is 0.1% to 30% by mass, and each of the mass ratio of Ca, Fe, and Na with respect to the content of the alkanolamine and the hydroxylamine in the treatment liquid is 10.sup.12 to 10.sup.4.

Methods, compositions, and kit(s) for removing corrosion or scale from a metal or a non-metal article are disclosed. In a first stage of the method, an article exhibiting corrosion can be exposed to an acid wash composition including a first acid component having one or more of HCl, Phosphoric Acid, Oxalic Acid, a second acid inhibitor/surfactant component including ethoxylated alkyl mercaptan, and a third thixotropic gelling agent component including Talc or Fumed silica, sufficient to cause gelling of the acid wash composition. In a second stage of the method performed subsequent to the first stage, the article can be exposed to an acid neutralizing composition comprising bicarbonate, borax, isopropyl alcohol and water.

Methods, compositions, and kit(s) for removing corrosion or scale from a metal or a non-metal article are disclosed. In a first stage of the method, an article exhibiting corrosion can be exposed to an acid wash composition including a first acid component having one or more of HCl, Phosphoric Acid, Oxalic Acid, a second acid inhibitor/surfactant component including ethoxylated alkyl mercaptan, and a third thixotropic gelling agent component including Talc or Fumed silica, sufficient to cause gelling of the acid wash composition. In a second stage of the method performed subsequent to the first stage, the article can be exposed to an acid neutralizing composition comprising bicarbonate, borax, isopropyl alcohol and water.

A treatment liquid for a semiconductor device includes an alkanolamine; a hydroxylamine; an organic solvent; Ca; Fe; and Na, wherein the content of the alkanolamine in the treatment liquid is 0.1% to 5% by mass, the content of the hydroxylamine in the treatment liquid is 0.1% to 30% by mass, and each of the mass ratio of Ca, Fe, and Na with respect to the content of the alkanolamine and the hydroxylamine in the treatment liquid is 10.sup.?12 to 10.sup.?4.

A treatment liquid for a semiconductor device includes an alkanolamine; a hydroxylamine; an organic solvent; Ca; Fe; and Na, wherein the content of the alkanolamine in the treatment liquid is 0.1% to 5% by mass, the content of the hydroxylamine in the treatment liquid is 0.1% to 30% by mass, and each of the mass ratio of Ca, Fe, and Na with respect to the content of the alkanolamine and the hydroxylamine in the treatment liquid is 10.sup.?12 to 10.sup.?4.

A stain removal product formulation and method utilizing a dry, portable product. The dry, portable removal product preferably contains specially treated ingredients, including a composition of microporous silica and alumina tetrahedra and combined with aluminum dioctahedral phyllosilicales family of minerals, ingredients may vary depending on the type of stain to treat, for example, for stains having an oil. grease or fat base. Due to the nature of stains and their varied content the product formulation may also include a combination of other dry ingredients such as clays, minerals, baking soda, com stareh, flour or other dry ingredients. Optional ingredients which may be added including dry coloring and/or dry fragrance components. The dry product formulation is provided in a powder, granule or flake form in moisture resistant packages and kits.