41 |
Gel manufacturing equipment |
JP2009167542 |
2009-07-16 |
JP4715951B2 |
2011-07-06 |
勝也 井出; 敬 蛭間 |
|
42 |
Gel manufacturing apparatus |
JP2009167542 |
2009-07-16 |
JP2011020054A |
2011-02-03 |
IDE KATSUYA; HIRUMA TAKASHI |
PROBLEM TO BE SOLVED: To prevent improper ejection caused by the gelation occurring in a nozzle, of a liquid to be ejected flowing into the nozzle of an inkjet head, even if the distance (gap) between an inkjet head and the liquid face of the liquid to be ejected is as close as 0.1 mm to 1 cm.
SOLUTION: The distance (gap) between a nozzle 13 of an inkjet head 12 and a second solvent L2 flowing in a flow path 21 of a flow mechanism 2 is controlled by the thickness of a gap plate 16, and thus the distance (gap) therebetween can easily be controlled. The second solvent L2 is prevented from flowing into the nozzle 13 via a through-hole 17 of the gap plate 16, which is caused by the rolling of the liquid face of the second solvent L2 resulting from the flow thereof, thereby the second solvent L2 is prevented from blocking the nozzle 13. Hence, a first solvent L1 can stably be ejected by a droplet ejection method, and gel G formed by the chemical reaction of the first solvent L1 and the second solvent L2 can stably be obtained.
COPYRIGHT: (C)2011,JPO&INPIT |
43 |
Simultaneous multiple acervation process |
JP2009175641 |
2009-07-28 |
JP2010029188A |
2010-02-12 |
LOH JIMBAY P; HONG YEONG-CHING ALBERT; MA YINQING; CHA ALICE S; KANG IKSOON |
PROBLEM TO BE SOLVED: To provide processes of preparing structured polymer matrices using two or more simultaneous multiple acervation mechanisms.
SOLUTION: The processes of preparing structured polymer matrices include a step of preparing at least one aqueous solution containing one or a plurality of food polymers which the one or plurality of food polymers can receive at least two acervation mechanisms wherein at least two acervation mechanisms are not activated before an activation step, a step of simultaneously activating at least two acervation mechanisms by treating at least one aqueous solution containing the one or plurality of food polymers, and a step of proceeding at least two activated acervation mechanisms till obtaining the structured polymer matrices.
COPYRIGHT: (C)2010,JPO&INPIT |
44 |
Hydrogel microbeads having a secondary layer |
JP2001532584 |
2000-10-03 |
JP2003512393A |
2003-04-02 |
クオング,ダグラス |
(57)【要約】 親水性基質およびその中に混入した活性物質のドロップレットと、基質コアの外面に隣接した二次層を含む基質コアを有するマイクロビーズ。 二次層はイオン複合または基質コア表面に水素結合されていてもよい。 溶液中に懸濁されたマイクロビーズを含む組成物は噴霧可能でありうる。 本発明のマイクロビーズは高低の湿気または水分にマイクロビーズを曝すことにより調節可能でありうる。 |
45 |
Method for producing substantially spherical Riogeru and airgel |
JP50024799 |
1998-05-28 |
JP2002500558A |
2002-01-08 |
フリッツ、シュベルトフェルガー; ヨハネス、ハーテル; ライナルト、フォルバート |
(57)【要約】 本発明は、実質的に球状のリオゲルの製造法であって、ゲル形成成分を混合してリオゾルを形成し、次いでそのリオゾルを、該リオゾル中に知覚できる程度に溶解する媒体中に導入して該ゲルを形成する方法に関する。 本発明はさらに、本発明により製造されたリオゲルをエーロゲルに変換することにより、実質的に球状のエーロゲルを製造する方法にも関する。 |
46 |
Compositions for the detection of electrophilic gases and methods of use thereof |
JP54425598 |
1998-04-16 |
JP2001520746A |
2001-10-30 |
ウォルシュ,ショーン; カイザー,スチュワート,アール.; ベルディッキオ,ロバート,ジェイ. |
(57)【要約】 クロロジフルオロメタンまたは二酸化炭素のような求電子性ガスを検出する組成物を提供し、これはプロトンを該ガスから除去しうる、または同様な求電子方法によりそれらと反応しうるルイス塩基;プロトン化または脱プロトン化による色変化を可視的に指示できる染料;該染料、該塩基、および該ガスのための溶媒;および該染料の色変化を可視的に検出するのに十分に半透明であり、垂直と水平表面に接着性を与えるのに十分な疑似可塑性/揺変性である、これらの成分の全ての非ニュートンゲルを形成できるレオロジー変性剤を含む。 |
47 |
JPH0118007B2 - |
JP9504582 |
1982-06-04 |
JPH0118007B2 |
1989-04-03 |
JERUJII UOICHEKU ZARUJITSUKII; MISHERU PURASASU; JAN EMIIRU ANRI FUARIPUU |
|
48 |
Brine system interfacial viscosification using sulfonated ionomer |
JP7813583 |
1983-05-02 |
JPS58201876A |
1983-11-24 |
DENISU JII PEIFUAA; ROBAATO DEI RANDOBAAGU; TATSUDO OO UOOKAA |
|
49 |
分散液及びヒドロゲル形成方法 |
JP2015526299 |
2014-07-03 |
JPWO2015005219A1 |
2017-03-02 |
鷹行 井本 |
【課題】脂質ジペプチドや脂質トリペプチド等の低分子ゲル化剤として有用な脂質ペプチド型化合物と、より低温で且つより容易に脂質ペプチド型化合物を溶解可能な溶媒とを含有する分散液を提供すること。またより簡便な方法にて、且つより温和な条件(低温)にてヒドロゲルが形成可能であり、また得られたゲルが高い熱安定性を有するゲルとなる分散液及びゲルの形成方法を提供すること。【解決手段】炭素原子数10乃至24の脂肪族基からなる脂質部に、少なくとも2つ以上の同一の又は異なるアミノ酸の繰り返しにより形成されたペプチド部が結合された脂質ペプチド型化合物と、分子内に親水部と疎水部を有し、かつ該親水部がベタイン構造を有する溶解促進剤と水とを含有する分散液及び該分散液を使用するヒドロゲルの製造方法。【選択図】なし |
50 |
Simultaneous multiple Asher coacervation method |
JP2009175641 |
2009-07-28 |
JP5497359B2 |
2014-05-21 |
ピーター ロー ジンベイ; アルバート ホン ヨン−チン; インチン マ; エス.チャ アリス; カン イクスン |
|
51 |
Device for forming droplets, and method for forming droplets |
JP2010165513 |
2010-07-23 |
JP2012024313A |
2012-02-09 |
SUGIURA SHINSUKE; SAOMOTO KENJIRO; TOYOOKA KOJI |
PROBLEM TO BE SOLVED: To stably obtain uniform droplets 21 and embolus particles 25 in large quantities.SOLUTION: A device for forming droplets 1 is provided which includes: a dispersed-phase outlet 101a through which a dispersed-phase material 2, such as an aqueous gelatin solution, is discharged; continuous-phase outlets 111a and 121a through which a continuous-phase material 3, such as oil, is discharged; a confluence part 131 which communicates with the dispersed-phase outlet 101a and the continuous-phase outlets 111a and 121a and in which the dispersed-phase material 2 is caused to flow into the liquid of the continuous-phase material 3 at a given static pressure; and a droplet formation part 132 which is disposed on the downstream side of the confluence part 131 and in which the dispersed-phase material 2 is allowed to become droplets by means of cohesive force. |
52 |
Method of manufacturing functional gel |
JP2010229573 |
2010-10-12 |
JP2011245471A |
2011-12-08 |
MURAKAMI ATSUYOSHI; HANAOKA KOKICHI; OTSUBO RYOICHI |
PROBLEM TO BE SOLVED: To provide a functional gel holding minute bubbles therein.SOLUTION: A prescribed high-pressure gas is sent into a bottom portion of an airtight container 1 from a compressed gas source 2 with a valve of a pipeline 3 opened, with a valve of another pipeline 5 closed and with a valve of an exhaust pipe 6 opened, so that the gas in a gas phase region in the upper part of the airtight container 1 is discharged and the gas phase region is filled with the prescribed gas. Next, the valve of the exhaust pipe 6 is closed, so that the pressure in the gas phase region is made higher. When the pressure in the gas phase region becomes higher, the solubility of the gas also becomes higher and a large amount of the gas is dissolved in water. After this, the valve of the pipeline 5 is opened and the high-pressure water in which the prescribed gas is dissolved up to the saturation solubility under high pressure is supplied to the water packed in another container 4 in advance. As a result, the pressure of the supplied high-pressure water is released in the water in the container 4 and the dissolved gas becomes minute bubbles. Then, a gelling agent is added into the container 4 so that the water (the low-viscosity solution) including minute bubbles is made gelatification. |
53 |
Process for producing hydrogel particles and, it hydrogel particles are produced by and dispersions using the same |
JP2005363557 |
2005-12-16 |
JP4823675B2 |
2011-11-24 |
訓史 上野; 英明 久保; 浩二 峯; 一雄 松山 |
|
54 |
Hydrogel particles |
JP2007150731 |
2007-06-06 |
JP2008303163A |
2008-12-18 |
TAKAGI MICHIYA; MATSUYAMA KAZUO; UENO NORIFUMI; MINE KOJI |
<P>PROBLEM TO BE SOLVED: To obtain new and useful hydrogel particles. <P>SOLUTION: The hydrogel particles form a continuous phase of an uncrosslinked hydrogel and a large number of dispersed phases dispersed in the continuous phase. The large number of the dispersed phases are each a solid phase containing an oily component and have titanium oxide particles dispersed therein. <P>COPYRIGHT: (C)2009,JPO&INPIT |
55 |
Emulsion composition |
JP2000166854 |
2000-06-02 |
JP2005095702A |
2005-04-14 |
NAKANO MITSURU |
PROBLEM TO BE SOLVED: To provide an emulsion composition which is safe and is high in functional stability.
SOLUTION: The emulsion composition is emulsified by means of a method of arranging a structural body in a first passage so as to guide a jet stream of fluid along the first passage and guide the fluid to controlled flow along a new passage, and determining the direction of the first passage and the new passage so as to generate shear force and cavitation in the fluid. The emulsion composition is constituted by compounding one kind or more of oily gelating agent, dipentaerythritol fatty acid ester and glycerol fatty acid ester adipic acid condensate. In addition, the emulsion composition is constituted by compounding one kind or more of glycyrrhizinic acid salt, hydroxy fatty acid, polyglycerol, polyethylene glycol, phenoxyethanol, 1,2 pentanediol, amino acid, peptide, protein, clay mineral, diethoxyethyl succinate, sphingoglycolipid, monoalkenyl glyceryl ether and monoalkenyl glyceryl ether. In addition, α-hydroxy acid is preferably compounded.
COPYRIGHT: (C)2005,JPO&NCIPI |
56 |
Active substance of hydrogel micro within the beads |
JP2001532585 |
2000-10-10 |
JP2003512394A |
2003-04-02 |
クオング,ダグラス |
(57)【要約】 親水性マトリックス内に混入した活性物質の液滴を含むマイクロビーズを用いた活性物質を送達する方法。 マイクロビーズを含む組成物は噴霧可能でありうる。 本発明のマイクロビーズは高低の湿気または水分にマイクロビーズを曝すことにより制御可能でありうる。 |
57 |
Alkoxylated compounds and their use in cosmetic stick formulations |
JP52200694 |
1993-03-29 |
JPH10506656A |
1998-06-30 |
エルミ,ステリオ,ジェイ; スミス,ロナルド,ジェイ |
(57)【要約】 式(A)の新規なフェノール化合物で、式中R
1は8乃至18炭素原子のアルキル置換基、Rはエチル又はプロピル置換基、そしてnは約50乃至200である。 これらの化合物、並びにある他の同様にアルコキシル化された化合物、例えば式(B)の化合物で、式中R
2及びR
3は夫々独立に8乃至15炭素原子、Rはエチル又はプロピル置換基、そしてnは50乃至200の化合物は、ステアリン酸ナトリウムベースのゲルスティック中で透明性を増大し、離液を最小にし、及び/又はゲルの凝固点を増大するために使用され得る。 |
58 |
JPH07503181A - |
JP51336993 |
1993-01-25 |
JPH07503181A |
1995-04-06 |
|
|
59 |
Aerogel containing inorganic oxide not aged and preparation thereof |
JP28804685 |
1985-12-23 |
JPS61155207A |
1986-07-14 |
POORU ARUBAATO IAKOBUTSUCHI; CHIYANGU PINGU CHIENGU; EDOWAADO NERUSON UORUSHIYU |
|
60 |
Water system interfacial viscosification using sulfonated ionomer |
JP7813383 |
1983-05-02 |
JPS58201875A |
1983-11-24 |
DENISU JII PEIFUAA; ROBAATO DEI RANDOBAAGU; TATSUDO OO UOOKAA |
|