摘要:
An oil-in-water emulsified sunscreen cosmetic which contains: (A) Containing the following three types of surfactants (A-1)-(A-3); (A-1) A POE stearic ester having a POE mole number of 20-120; (A-2) sorbitan tristearate; and (A-3) glyceryl stearate having a HLB of 5-8; (B) bis-ethylhexyloxyphenolmethoxyphenyltriazine and/or tert-butylmethoxybenzoylmethane, oil soluble ultraviolet absorbents, solid at room temperatures; (C) ethylhexyl methoxycinnamate and/or octocrylene, oil soluble ultraviolet absorbents, liquid at room temperature; (D) phenylbenzimidazolesulfonic acid, a water soluble ultraviolet absorbent; and (E) a higher alcohol having 14-24 carbon atoms.
摘要:
The object of the present invention is to provide an oil-in-water emulsified sunscreen cosmetic that is superior in stability and the sensation during use. This object is achieved by providing an oil-in-water emulsified sunscreen cosmetic that satisfies all of the following conditions (A), (B), (C), (D), and (E):(A) Containing the following three types of surfactants (A-1)-(A-3) in the amount of 1-6 wt % of the total amount of the cosmetic (A-1) A POE stearic ester having a POE mole number of 20-120 (A-2) Sorbitan tristearate (A-3) Glyceryl stearate having a HLB of 5-8 (B) Containing the following oil soluble ultraviolet absorbent, which is solid at room temperature, in the amount of 0.01-5 wt % of the total amount of the cosmetic Bis-ethylhexyloxyphenolmethoxyphenyltriazine and/or tert-butylmethoxybenzoylmethane (C) Containing the following oil soluble ultraviolet absorbent, which is liquid at room temperature, in the amount of 1-14 wt % of the total amount of the cosmetic Ethylhexyl methoxycinnamate and/or octocrylene (D) Containing the following water soluble ultraviolet absorbent in the amount of 0.1-5 wt % of the total amount of the cosmetic Phenylbenzimidazolesulfonic acid (E) Containing higher alcohol having 14-24 carbon atoms
摘要:
The purpose of the present invention is to provide an oil-in-alcohol emulsified composition that the oil phase is uniformly and stably dispersed into an outer phase which is mainly comprised of a lower alcohol. Accordingly, the oil-in-alcohol emulsified composition of the present invention comprising: (a) an oily component, (b) a lower alcohol, (c) water, and (d) an emulsifier which comprising one or more of polyether-modified silicones represented by the following general formula (1), ##STR1## �In the formula: A is a polyalkylene group shown as the general formula: --C.sub.3 H.sub.6 O(C.sub.2 H.sub.4 O).sub.a (C.sub.3 H.sub.6 O).sub.b R' (where R' is a group selected from the group of a hydrogen atom, an acyl group, and alkyl groups having a carbon number of 1 to 4, where a is an integer of 5 to 50, and where b is an integer of 5 to 50.); R is a methyl group or a phenyl group; m is an integer of 50 to 1,000; and n is an integer of 1 to 40.!.
摘要:
Exposure apparatus are disclosed that can control, to high precision, exposure doses on a photosensitive substrate of a mask pattern defined on a reflective mask as the pattern is being exposed on the substrate using a projection-optical system. An exemplary apparatus includes a first illumination sensor for detecting light that is incident on a reflective mask from an illumination system and a second illumination sensor for detecting light that has propagated from the illumination system to a reference reflective surface on the reflective mask, reflected from the reference reflective surface, and arrived at an image surface of the projection-optical system. Calibration of the first sensor is performed based on detection data obtained by the first sensor and detection data obtained by the second sensor. Exposure of the substrate is controlled based on the detection data obtained by the calibrated first sensor.
摘要:
A functional element-mounted module can be decreased in size and requires no costly and special members for a light transition member. A substrate is used, on which an optical functional element having an optical function part and bonding pads therearound is mounted by wire bonding, with an upper face of the element upward. A bank to dam a liquid sealing resin is provided around the optical functional element on the substrate, and the liquid sealing resin is dropped and filled between the optical functional element and the bank such that the bonding pads and partial gold wires for the wire bonding are exposed. A package-component member having a hole corresponding to the optical functional element is abutted to the bank such that the hole is opposed to the function part of the functional element. Thereby, the package-component member is contacted to the liquid sealing resin. The package-component member is fixed to the substrate by curing the liquid sealing resin, and the bank is cut away.
摘要:
A functional element-mounted module can be decreased in size and requires no costly and special members for a light transition member. A substrate is used, on which an optical functional element having an optical function part and bonding pads therearound is mounted by wire bonding, with an upper face of the element upward. A bank to dam a liquid sealing resin is provided around the optical functional element on the substrate, and the liquid sealing resin is dropped and filled between the optical functional element and the bank such that the bonding pads and partial gold wires for the wire bonding are exposed. A package-component member having a hole corresponding to the optical functional element is abutted to the bank such that the hole is opposed to the function part of the functional element. Thereby, the package-component member is contacted to the liquid sealing resin. The package-component member is fixed to the substrate by curing the liquid sealing resin, and the bank is cut away.
摘要:
A functional element-mounted module can be decreased in size and requires no costly and special members for a light transition member. A substrate is used, on which an optical functional element having an optical function part and bonding pads therearound is mounted by wire bonding, with an upper face of the element upward. A bank to dam a liquid sealing resin is provided around the optical functional element on the substrate, and the liquid sealing resin is dropped and filled between the optical functional element and the bank such that the bonding pads and partial gold wires for the wire bonding are exposed. A package-component member having a hole corresponding to the optical functional element is abutted to the bank such that the hole is opposed to the function part of the functional element. Thereby, the package-component member is contacted to the liquid sealing resin. The package-component member is fixed to the substrate by curing the liquid sealing resin, and the bank is cut away.
摘要:
Produce high-function water useful for consumption as healthy drinking water or in the production of health supplements, cosmetic products, food preservatives, freshness-keeping agents for food, insect repellents or deodorizers, wherein such water contains micro-dispersed ultra-fine gold particles and a small amount of dissolved gold and is produced by constructing in the upper section of a high-pressure water tank a combustion chamber equipped with an injector nozzle for oxygen-hydrogen mixture gas, an ignition device and a gold-rod or gold-wire feeder, igniting the injector nozzle for oxygen-hydrogen mixture gas using the ignition device in the combustion chamber to melt and evaporate the gold rod or wire supplied from the feeder or water in which gold foil was dispersed beforehand and to allow the produced gold vapor to contact high-pressure water, and thereby causing the produced ultra-fine gold particles to float and disperse in water.
摘要:
Exposure apparatus are disclosed that can control, to high precision, exposure doses on a photosensitive substrate of a mask pattern defined on a reflective mask as the pattern is being exposed on the substrate using a projection-optical system. An exemplary apparatus includes a first illumination sensor for detecting light that is incident on a reflective mask from an illumination system and a second illumination sensor for detecting light that has propagated from the illumination system to a reference reflective surface on the reflective mask, reflected from the reference reflective surface, and arrived at an image surface of the projection-optical system. Calibration of the first sensor is performed based on detection data obtained by the first sensor and detection data obtained by the second sensor. Exposure of the substrate is controlled based on the detection data obtained by the calibrated first sensor.
摘要:
The present invention provides a goods trace information storing method comprising the steps of: acquiring identification information from an RFID (Radio Frequency Identifier) tag in each distribution level by an identification information read mechanism, and acquiring physical property information of goods, where the RFID tag is attached, by a physical quantity measurement mechanism; a comparison determination mechanism's comparing the physical property information with predetermined threshold information and outputting determination information comprising information for indicating whether or not the physical property information is out of a range of the threshold information; and a registration mechanism's making the acquired identification information, physical property information, and determination information correspond to information for identifying the information group, including information for specifying an acquisition time and an acquired distribution level, and storing them in a memory mechanism.