摘要:
Electrolytic manganese dioxide characterized by having a surface sulfate (SO4) content of smaller than 0.10% by weight and a JIS-pH value, as measured according to JIS K1467, of at least 1.5 but smaller than 3.5, preferably at least 2.1 but smaller than 3.2 is provided. Preferably 3% to 25% in number of the fine particles of the manganese dioxide have a particle diameter of not larger than 1 μm. A battery provided with a cathode made from the electrolytic manganese dioxide as active material exhibits good high-rate discharge characteristics and good resistance to metal corrosion.
摘要:
Electrolytic manganese dioxide characterized by having a surface sulfate (SO4) content of smaller than 0.10% by weight and a JIS-pH value, as measured according to JIS K1467, of at least 1.5 but smaller than 3.5, preferably at least 2.1 but smaller than 3.2 is provided. Preferably 3% to 25% in number of the fine particles of the manganese dioxide have a particle diameter of not larger than 1 μm. A battery provided with a cathode made from the electrolytic manganese dioxide as active material exhibits good high-rate discharge characteristics and good resistance to metal corrosion.
摘要翻译:其特征在于,具有小于0.10重量%的表面硫酸盐(SO 4 S 4)含量和根据JIS K1467测定的JIS-pH值为至少1.5但小于3.5的电解二氧化锰 ,优选为至少2.1但小于3.2。 优选3〜25%的二氧化锰微粒的粒径不大于1μm。 设置有由电解二氧化锰制成的阴极作为活性材料的电池具有良好的高倍率放电特性和良好的金属腐蚀性。
摘要:
An object of the present invention is to provide electrolytic manganese dioxide to be used as a cathode active material for an alkali-manganese dry cell, which has a high alkali potential and is provided with a high reactivity and packing efficiency as a cathode for the cell, and which is excellent in the middle rate discharge characteristic, and electrolytic manganese dioxide excellent in the high rate discharge characteristic and the middle rate discharge characteristic, which will not cause corrosion of metal materials, and a method for its production.In the present invention, electrolytic manganese dioxide having an alkali potential of at least 280 mV and less than 310 mV, and FWHM of at least 2.2° and at most 2.9°, is used. It is preferred that of the electrolytic manganese dioxide, the (110)/(021) peak intensity ratio in the X-ray diffraction peaks is at least 0.50 and at most 0.80, and the (110) interplanar spacing is at least 4.00 Å and at most 4.06 Å. Further, electrolytic manganese dioxide wherein the JIS-pH (JIS K1467) is at least 1.5 and less than 2.6, the sodium content is at least 0.02 wt % and less than 0.10 wt %, the sulfate group content is less than 1.30 wt %, the median diameter is at least 30 μm and at most 50 μm, and the BET specific surface area is at least 20 m2/g and at most 50 m2/g, is preferred.
摘要:
An object of the present invention is to provide electrolytic manganese dioxide to be used as a cathode active material for an alkali-manganese dry cell, which has a high alkali potential and is provided with a high reactivity and packing efficiency as a cathode for the cell, and which is excellent in the middle rate discharge characteristic, and electrolytic manganese dioxide excellent in the high rate discharge characteristic and the middle rate discharge characteristic, which will not cause corrosion of metal materials, and a method for its production.In the present invention, electrolytic manganese dioxide having an alkali potential of at least 280 mV and less than 310 mV, and FWHM of at least 2.2° and at most 2.9°, is used. It is preferred that of the electrolytic manganese dioxide, the (110)/(021) peak intensity ratio in the X-ray diffraction peaks is at least 0.50 and at most 0.80, and the (110) interplanar spacing is at least 4.00 Å and at most 4.06 Å. Further, electrolytic manganese dioxide wherein the JIS-pH (JIS K1467) is at least 1.5 and less than 2.6, the sodium content is at least 0.02 wt % and less than 0.10 wt %, the sulfate group content is less than 1.30 wt %, the median diameter is at least 30 μm and at most 50 μm, and the BET specific surface area is at least 20 m2/g and at most 50 m2/g, is preferred.
摘要:
The present invention is such a plug application and removal device that mist which is generated upon plug removal of a sample container or a reagent container is not peripherally scattered, or is such a sample processing device that mist which is generated upon dispensing of a sample or a reagent into a container is not mixed to another container. A plug application and removal device has a container holding mechanism that holds a container housing liquid inside and applied with a plug, and has a plug application and removal mechanism that removes or applies the plug from/to the container. The plug application and removal device has: a control mechanism for controlling movement of liquid or mist spilled out of the container upon a process of removal or application of the plug by the plug application and removal mechanism.
摘要:
Disclosed are a polysiloxane-modified polyhydroxy polyurethane resin characterized by being derived from a reaction between a 5-membered cyclic carbonate polysiloxane compound represented by the below-described formula (1) and an amine compound, and its production process; and a resin composition, thermal recording medium, imitation leather, thermoplastic polyolefin resin skin material, weather strip material, and weather strip, all of which make use of the resin. wherein A means
摘要:
The automatic analysis system is equipped with a mechanism to transport a sample container having a stopper body, the system comprising: a sample dispensing mechanism that dispenses a predetermined amount of sample accommodated in the sample container; a stopper body removing/mounting mechanism that removes the stopper body from the sample container; a control unit that stores therein association between the sample container and the stopper body of the sample container; the stopper body removing/mounting mechanism that in accordance with the association stored into the control unit, mounts the stopper body back on the sample container containing the sample dispensed by the sample dispensing mechanism; and a stopper body transport mechanism that transports the sample that the stopper body removing/mounting mechanism has removed at a stopper removing position to a stopper mounting position.
摘要:
Disclosed are a polysiloxane-modified polyhydroxy polyurethane resin derived from a reaction between a 5-membered cyclic carbonate compound and an amine-modified polysiloxane compound, and its production process; and a resin composition, thermal recording medium, imitation leather, thermoplastic polyolefin resin skin material, weather strip material, and weather strip, all of which make use of the resin.
摘要:
In order to easily display data on a display device, an MFP connected to a plurality of television conference terminal devices each displaying data stores device information in an HDD for a respective one of the television conference terminal devices, to store a format in which the corresponding terminal device inputs data. The MFP includes a data acquiring portion to acquire data, an output destination accepting portion to accept an output destination of data, a conversion portion, when one of the television conference terminal devices is accepted as an output destination device which is the output destination of data, to convert a format of the acquired data to the format stored corresponding to the output destination device in the device information, and a communication control portion to output the data converted by the conversion portion to the output destination device.
摘要:
In order to form an image without losing a moving image included in a structured document, an MFP, when forming an image, receives print data and a moving image from a PC, stores the moving image in association with second moving image identification information, embeds, in a still image included in the print data, the second moving image identification information for the stored moving image and positional information included in the print data, and forms the still image on a sheet of paper. When reading an image, the MFP 100 reads a still image formed on a sheet of paper (S71), extracts second moving image identification information and positional information from the read still image (S73, S75), acquires a moving image identified by the extracted second moving image identification information (S74), and generates a structured document in which the moving image is associated with the still image in such a manner that the moving image is displayed at a position specified by the positional information in the still image (S89).