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CERAMIC POROUS BODY FOR LACTIC ACID BACTERIUM PICKLE, AND MANUFACTURING METHOD THEREOF
PROBLEM TO BE SOLVED: To provide a pickle container suitable for inhabitation of lactic acid bacterium, in more detail, a ceramic porous body for lactic acid bacterium pickle of which characteristics as an absorbent of the lactic acid bacterium is improved, and manufacturing method thereof.SOLUTION: A method of manufacturing a ceramic porous body includes a first step where Miyazaki clay is dried, pulverized by a pulverizer, followed by sieving with a 500 mesh sieve to obtain a powder having a size of 0.5 mm or smaller, a second step where an organic material is cooled by dipping in liquid nitrogen, followed by pulverizing by a pulverizer, followed by sieving with a 0.5 mm mesh sieve to obtain a powder having a particle size of 0.5 mm or smaller, a third step where Miyazaki clay obtained in the first step and the organic material obtained in the second step are mixed such that a content of the organic material is 10 to 30 mass percent relative to a total mass to obtain a mixture, and a fourth step where the mixture is sintered in a furnace atmosphere of from 1,000°C to 1,100°C.SELECTED DRAWING: Figure 1
【課題】乳酸菌の生息に適した漬物容器、さらに詳しくは、乳酸菌の吸着体としての特性を向上させた乳酸菌漬物用セラミックス多孔体、及びその製造方法を提供する。【解決手段】宮崎県産粘土を乾燥させた後に、粉砕機を用いて粉砕し、0.5mmメッシュの篩にかけ、粒径を0.5mm以下のサイズとする第一の工程と、有機材料を液体窒素に浸して冷却した後、粉砕機を用いて粉砕し、0.5mmメッシュの篩にかけ、粒径を0.5mm以下のサイズとする第二の工程と、第一の工程で得られた宮崎県産粘土と第二の工程で得られた有機材料を、有機材料の含有率が原料の全質量に対して10〜30mass%となるよう混合し混合物を得る第三の工程と、前記混合物を炉内雰囲気1,000℃〜1,100℃で焼成する第四の工程を経て、セラミックス多孔体を製造した。【選択図】図1
CERAMIC POROUS BODY FOR LACTIC ACID BACTERIUM PICKLE, AND MANUFACTURING METHOD THEREOF
PROBLEM TO BE SOLVED: To provide a pickle container suitable for inhabitation of lactic acid bacterium, in more detail, a ceramic porous body for lactic acid bacterium pickle of which characteristics as an absorbent of the lactic acid bacterium is improved, and manufacturing method thereof.SOLUTION: A method of manufacturing a ceramic porous body includes a first step where Miyazaki clay is dried, pulverized by a pulverizer, followed by sieving with a 500 mesh sieve to obtain a powder having a size of 0.5 mm or smaller, a second step where an organic material is cooled by dipping in liquid nitrogen, followed by pulverizing by a pulverizer, followed by sieving with a 0.5 mm mesh sieve to obtain a powder having a particle size of 0.5 mm or smaller, a third step where Miyazaki clay obtained in the first step and the organic material obtained in the second step are mixed such that a content of the organic material is 10 to 30 mass percent relative to a total mass to obtain a mixture, and a fourth step where the mixture is sintered in a furnace atmosphere of from 1,000°C to 1,100°C.SELECTED DRAWING: Figure 1
【課題】乳酸菌の生息に適した漬物容器、さらに詳しくは、乳酸菌の吸着体としての特性を向上させた乳酸菌漬物用セラミックス多孔体、及びその製造方法を提供する。【解決手段】宮崎県産粘土を乾燥させた後に、粉砕機を用いて粉砕し、0.5mmメッシュの篩にかけ、粒径を0.5mm以下のサイズとする第一の工程と、有機材料を液体窒素に浸して冷却した後、粉砕機を用いて粉砕し、0.5mmメッシュの篩にかけ、粒径を0.5mm以下のサイズとする第二の工程と、第一の工程で得られた宮崎県産粘土と第二の工程で得られた有機材料を、有機材料の含有率が原料の全質量に対して10〜30mass%となるよう混合し混合物を得る第三の工程と、前記混合物を炉内雰囲気1,000℃〜1,100℃で焼成する第四の工程を経て、セラミックス多孔体を製造した。【選択図】図1
CERAMIC POROUS BODY FOR LACTIC ACID BACTERIUM PICKLE, AND MANUFACTURING METHOD THEREOF
乳酸菌漬物用セラミックス多孔体、及びその製造方法
TAOKA YOSUKE (author) / KINOSHITA HIROYUKI (author) / SAKAI KENTARO (author) / KIMURA AKIHIKO (author) / KUROKI NORIAKI (author) / KUROKI MICHIYO (author)
2017-08-10
Patent
Electronic Resource
Japanese
IPC:
C04B
Kalk
,
LIME
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