Provided are: a container for chlorine-based liquid bleaching agent composition including a resin composition containing a polyester resin (A), a pigment (B) and a polyamide resin (C), wherein a content of the polyester resin (A) is 90 to 99 mass %, and a mass ratio [(B)/(C)] of the (B) and the (C) is 1/99 to 20/80; and a bleaching agent article including a container having a chlorine-based liquid bleaching agent composition accommodated therein.

Provided are: a container for chlorine-based liquid bleaching agent composition including a resin composition containing a polyester resin (A), a pigment (B) and a polyamide resin (C), wherein a content of the polyester resin (A) is 90 to 99 mass %, and a mass ratio [(B)/(C)] of the (B) and the (C) is 1/99 to 20/80; and a bleaching agent article including a container having a chlorine-based liquid bleaching agent composition accommodated therein.

A chemical dispensing system can include a docking stating that receives a reservoir containing chemical to be dispensed. The reservoir may have a slidable closure covering an opening through which the chemical can be dispensed from the reservoir. The reservoir may be engaged with the docking station so that the slidable closure on the reservoir is operably coupled to a movable element on the docking station. A user can engage the movable element on the docking station to cause a slidable closure on the reservoir to open. As a result, chemical in the reservoir can discharge through the opening uncovered by moving the slidable closure. In this way, the contents of the reservoir may be dispensed without the user coming into physical content with the chemical in the reservoir.

A chemical dispensing system can include a docking stating that receives a reservoir containing chemical to be dispensed. The reservoir may have a slidable closure covering an opening through which the chemical can be dispensed from the reservoir. The reservoir may be engaged with the docking station so that the slidable closure on the reservoir is operably coupled to a movable element on the docking station. A user can engage the movable element on the docking station to cause a slidable closure on the reservoir to open. As a result, chemical in the reservoir can discharge through the opening uncovered by moving the slidable closure. In this way, the contents of the reservoir may be dispensed without the user coming into physical content with the chemical in the reservoir.

Provided is a sulfur dioxide mixture that hardly corrodes metals. A sulfur dioxide mixture contains sulfur dioxide and water. The sulfur dioxide mixture is filled in a filling container in such a manner that a gas phase and a liquid phase exist, and the moisture concentration of the gas phase is from 0.005 mole ppm to less than 5,000 mole ppm.

Provided is a sulfur dioxide mixture that hardly corrodes metals. A sulfur dioxide mixture contains sulfur dioxide and water. The sulfur dioxide mixture is filled in a filling container in such a manner that a gas phase and a liquid phase exist, and the moisture concentration of the gas phase is from 0.005 mole ppm to less than 5,000 mole ppm.

Disclosed is a type of borosilicate glass, the composition of which, based on oxides, contains the following components by weight percentage (wt %): 2.0 wt %-5.0 wt % of TiO.sub.2, 0.25 wt %-2.5 wt % of CeO.sub.2 and 0.25 wt %-3.0 wt % of Y.sub.2O.sub.3, and does not contain any iron compound, such as ferric oxide. The glass has better UV resistance and alkaline resistance properties, and a better light transmission rate, and is particularly suitable for use in the field of pharmaceutical packaging materials.

Disclosed is a type of borosilicate glass, the composition of which, based on oxides, contains the following components by weight percentage (wt %): 2.0 wt %-5.0 wt % of TiO.sub.2, 0.25 wt %-2.5 wt % of CeO.sub.2 and 0.25 wt %-3.0 wt % of Y.sub.2O.sub.3, and does not contain any iron compound, such as ferric oxide. The glass has better UV resistance and alkaline resistance properties, and a better light transmission rate, and is particularly suitable for use in the field of pharmaceutical packaging materials.

A container and a process for the degradation stable storage and transport of a liquid comprising a saturated aliphatic C.sub.6-12 carboxylic acid in which the liquid is covered with an oxygen free or at least heavily oxygen depleted inert gas phase atmosphere above the liquid.

A container and a process for the degradation stable storage and transport of a liquid comprising a saturated aliphatic C.sub.6-12 carboxylic acid in which the liquid is covered with an oxygen free or at least heavily oxygen depleted inert gas phase atmosphere above the liquid.