1 |
非光致成像陶瓷带形成图案的方法 |
CN01122854.7 |
2001-07-11 |
CN1334491A |
2002-02-06 |
J·H·蔡 |
本发明涉及使陶瓷带形成图案的方法,其中将一种光致抗蚀剂层应用于陶瓷带,使得光致抗蚀剂层在图案式曝光和显影后能够为带子起到显影屏蔽的作用。然后该带子经历显影阶段,最终除去带子不需要的部分。该带子含有带酸性或碱性官能侧基的聚合物粘合剂,但不含对光敏感的组分。因此,这种带子可有水加工,但它本身不是光致成像的。然而,当这种带子和显影化学与该带子相反的常规光致抗蚀剂层一起使用时,让光致抗蚀剂层被用作带子的显影屏蔽层。 |
2 |
一种光固化陶瓷修复剂的制备方法 |
CN201610110065.0 |
2016-02-29 |
CN105732120A |
2016-07-06 |
曹亚军 |
本发明公开了一种光固化陶瓷修复剂的制备方法,包括以下步骤:第一步,将两种光固化树脂混合均匀形成混合树脂A;第二步,将蒸馏水和乙醇混合均匀形成混合物B;第三步,选用球形硅微粉为物料C;第四步,选用二氧化硅为物料D;第五步,选用硅烷偶联剂为物料E;第六步,按比例混合物料,形成混合物F;第七步,将混合物F搅拌均匀,再分散形成匀质分散体G;第八步,搅拌匀质分散体G,直至物料出现液固分层;第九步,加热至物料中的乙醇和蒸馏水完全挥发;第十步,加热并搅拌,直至物料呈现透明状,复合材料制作完成。本发明的光固化陶瓷修复剂的制备方法,得到一种快速修复陶瓷制品表面微小瑕疵如针孔、棕眼、缩釉等烧成缺陷的修复剂。 |
3 |
非光致成像陶瓷带形成图案的方法 |
CN01122854.7 |
2001-07-11 |
CN1201204C |
2005-05-11 |
J·H·蔡 |
本发明涉及使陶瓷带形成图案的方法,其中将一种光致抗蚀剂层应用于陶瓷带,使得光致抗蚀剂层在图案式曝光和显影后能够为带子起到显影屏蔽的作用。然后该带子经历显影阶段,最终除去带子不需要的部分。该带子含有带酸性或碱性官能侧基的聚合物粘合剂,但不含对光敏感的组分。因此,这种带子可有水加工,但它本身不是光致成像的。然而,当这种带子和显影化学与该带子相反的常规光致抗蚀剂层一起使用时,让光致抗蚀剂层被用作带子的显影屏蔽层。 |
4 |
SUBSTRATE WITH A PHOTOCATALYTIC COATING |
US12177492 |
2008-07-22 |
US20080292872A1 |
2008-11-27 |
Philippe BOIRE; Xavier Talpaert |
The subject of the invention is a glass-, ceramic- or vitroceramic-based substrate (1) provided on at least part of at least one of its faces with a coating (3) with a photocatalytic property containing at least partially crystalline titanium oxide.It also relates to the applications of such a substrate and to its method of preparation. |
5 |
Substrate with a photocatalytic coating |
US10419872 |
2003-04-22 |
US20030207028A1 |
2003-11-06 |
Philippe
Boire; Xavier
Talpaert |
The subject of the invention is a glass-, ceramic- or vitroceramic-based substrate (1) provided on at least part of at least one of its faces with a coating (3) with a photocatalytic property containing at least partially crystalline titanium oxide. It also relates to the applications of such a substrate and to its method of preparation. |
6 |
Substrate with a photocatalytic coating |
US10116164 |
2002-04-05 |
US20020150681A1 |
2002-10-17 |
Philippe
Boire; Xavier
Talpaert |
The subject of the invention is a glass-, ceramic- or vitroceramic-based substrate (1) provided on at least Part of at least one of its faces with a coating (3) with a photocatalytic property containing at least partially crystalline titanium oxide. It also relates to the applications of such a substrate and to its method of preparation. |
7 |
Substrate with a photocatalytic coating |
US10000503 |
2001-12-04 |
US20020071956A1 |
2002-06-13 |
Philippe
Boire; Xavier
Talpaert |
The subject of the invention is a glass-, ceramic- or vitroceramic-based substrate (1) provided on at least part of at least one of its faces with a coating (3) with a photocatalytic property containing at least partially crystalline titanium oxide. It also relates to the applications of such a substrate and to its method of preparation. |
8 |
Substrate with a photocatalytic coating |
US12177492 |
2008-07-22 |
US07892661B2 |
2011-02-22 |
Philippe Boire; Xavier Talpaert |
The subject of the invention is a glass-, ceramic-vitroceramic based substrate (1) provided on at least part of at least one of its faces with a coating (3) with a photocatalytic property containing at least partially crystalline titanium oxide. It also relates to the applications of such a substrate and to its method of preparation. |
9 |
Substrate with a photocatalytic coating |
US10116164 |
2002-04-05 |
US06846556B2 |
2005-01-25 |
Philippe Boire; Xavier Talpaert |
The subject of the invention is a glass-, ceramic- or vitroceramic-based substrate (1) provided on at least part of at least one of its faces with a coating (3) with a photocatalytic property containing at least partially crystalline titanium oxide.It also relates to the applications of such a substrate and to its method of preparation. |
10 |
Substrate with a photocatalytic coating |
US10856876 |
2004-06-01 |
US20040216487A1 |
2004-11-04 |
Philippe
Boire; Xavier
Talpaert |
The subject of the invention is a glass-, ceramic- or vitroceramic-based substrate (1) provided on at least part of at least one of its faces with a coating (3) with a photocatalytic property containing at least partially crystalline titanium oxide. It also relates to the applications of such a substrate and to its method of preparation. |
11 |
Substrate with a photocatalytic coating |
US10079533 |
2002-02-22 |
US20020119307A1 |
2002-08-29 |
Philippe
Boire; Xavier
Talpaert |
The subject of the invention is a glass-, ceramic- or vitroceramic-based substrate (1) provided on at least part of at least one of its faces with a coating (3) with a photocatalytic property containing at least partially crystalline titanium oxide. It also relates to the applications of such a substrate and to its method of preparation. |
12 |
Substrate with a photocatalytic coating |
US10079483 |
2002-02-22 |
US20020110638A1 |
2002-08-15 |
Philippe
Boire; Xavier
Talpaert |
The subject of the invention is a glass-, ceramic- or vitroceramic-based substrate (1) provided on at least part of at least one of its faces with a coating (3) with a photocatalytic property containing at least partially crystalline titanium oxide. It also relates to the applications of such a substrate and to its method of preparation. |
13 |
Multi-functional material with photocatalytic functions and method of manufacturing same |
US09167326 |
1998-10-07 |
US06210779B1 |
2001-04-03 |
Toshiya Watanabe; Eiichi Kojima; Keiichiro Norimoto; Tamon Kimura; Mitsuyoshi Machida; Makoto Hayakawa; Atsushi Kitamura; Makoto Chikuni; Yoshimitsu Saeki; Tatsuhiko Kuga; Yasushi Nakashima |
Multi-functional materials which have a photocatalytic layer with a photocatalytic function disposed on the surface of a base through an amorphous binder layer 6 interposed therebetween. Photocatalytic particles of the photocatalytic layer are joined together by a surface energy or solid-state sintering. The photocatalytic layer may have a structure in which fine particles fill interstices defined between photocatalytic particles or a structure in which no fine particles fill interstices defined between photocatalytic particles. A metal such as Ag, Pt, or the like may be fixed or not fixed to surfaces of the photocatalytic particles. A lower layer of the photocatalytic layer is embedded in the binder layer such that an intermediate layer is formed between the binder layer and the photocatalytic layer, the intermediate layer including components of the binder and photocatalytic layers in varying concentrations therethrough. |
14 |
Substrate with a photocatalytic coating |
US29855 |
1998-05-28 |
US6103363A |
2000-08-15 |
Philippe Boire; Xavier Talpaert |
The subject of the invention is a glass-, ceramic- or vitroceramic-based substrate (1) provided on at least part of at least one of its faces with a coating (3) with a photocatalytic property containing at least partially crystalline titanium oxide. It also relates to the applications of such a substrate and to its method of preparation. |
15 |
Multi-functional material with photocatalytic functions and method of
manufacturing same |
US167324 |
1998-10-07 |
US6027797A |
2000-02-22 |
Toshiya Watanabe; Eiichi Kojima; Keiichiro Norimoto; Tamon Kimura; Mitsuyoshi Machida; Makoto Hayakawa; Atsushi Kitamura; Makoto Chikuni; Yoshimitsu Saeki; Tatsuhiko Kuga; Yasushi Nakashima |
Multi-functional materials which have a photocatalytic layer with a photocatalytic function disposed on the surface of a base through a binder layer 6 interposed therebetween. Photocatalytic particles of the photocatalytic layer are joined together by a surface energy or solid-state sintering. The photocatalytic layer may have a structure in which fine particles fill interstices defined between photocatalytic particles or a structure in which no fine particles fill interstices defined between photocatalytic particles. A metal such as Ag, Pt, or the like may be fixed or not fixed to surfaces of the photocatalytic particles. |
16 |
Process for forming an image on ceramic substrates |
US930608 |
1997-10-14 |
US5972548A |
1999-10-26 |
Benzion Landa; Peretz Ben-Avraham |
A process for forming high quality colored or multi-colored ceramic images or designs on ceramic surfaces comprising: (a) forming a liquid toner image comprised of polymer based toner particles incorporating a ceramic pigment and a carrier liquid, on an imaging surface; (b) transferring the image to a ceramic surface; and (c) heating the image and the ceramic substrate surface to an elevated temperature at which the ceramic pigment sinter and fuse to the ceramic substrate surface. |
17 |
The substrate with a photocatalytic coating |
JP2005071410 |
2005-03-14 |
JP4414361B2 |
2010-02-10 |
タラパエ,ザビエール; ボワール,フィリップ |
A glass, ceramic or glass-ceramic substrate (1), with a photocatalytic coating (3) of at least partially crystallised titanium oxide, is new. Pref. the crystallised titanium oxide is in anatase and/or rutile form, has a crystallisation degree of at least 25 (pref. 30-80)% and is in the form of crystallites of average size 0.5-60 (pref. 1-50, esp. 10-40) nm. Also claimed are (i) non-soiling and/or non-misting, monolithic, double or laminated glazing incorporating the above substrate; and (ii) processes for prodn. of the above substrate (1) in which the coating is deposited by liq. phase pyrolysis (esp. from a soln. contg. one or more organo-titanium precursors of titanium chelate and/or titanium alcoholate type), by a sol-gel technique (by dip coating, spray coating or laminar coating) from a soln. contg. one or more organo-titanium precursors of titanium alcoholate type or by vapour phase pyrolysis (CVD) from one or more titanium precursors of halide or organo-metallic type. |
18 |
Concrete modifying method and concrete surface structure using the same |
JP2006337610 |
2006-11-15 |
JP2008120663A |
2008-05-29 |
YASUDA SUSUMU |
PROBLEM TO BE SOLVED: To simply and easily modify concrete deteriorated by a dealkalizing reaction or the like.
SOLUTION: A step of removing stain adhered into fine projecting and recessing parts 5 on the surface by jetting 120-170°C hot water 1 with 50-100 kgf/cm
2 discharge pressure on the concrete surface and forming vaterite on the concrete surface 3 by moving a nozzle so that a jetting time to an optional point of the surface may be 5-10 seconds, a step of penetrating a coating agent into the fine projecting and recessing parts on the concrete surface by applying the coating agent on the concrete surface, a step of forming a glass layer containing silicic acid by applying a protecting agent consisting essentially of a siloxane on the surface to which the coating agent is applied and a step of forming an optical active layer on the front-most surface layer of the concrete surface by applying a dispersion of optical semiconductor fine particles on the glass layer are provided.
COPYRIGHT: (C)2008,JPO&INPIT |
19 |
Substrate with photocatalytic coating |
JP2005071719 |
2005-03-14 |
JP2005225758A |
2005-08-25 |
BOIRE PHILIPPE; TALPAERT XAVIER |
<P>PROBLEM TO BE SOLVED: To provide a photocatalytic coating on a substrate showing a significant antifouling function to the substrate and being industrially produced. <P>SOLUTION: The substrate with the coating is glass, ceramic or glass-ceramic provided on at least part of at least one of its faces with a coating having a photocatalytic property and contains at least a partially crystalline anatase-type titanium oxide. The coating is hydrophilic and it has a contact angle with water of smaller than 5° after exposed with light irradiation. The crystalline titanium oxide forms a crystallite having a mean size of 0.5-60 nm. <P>COPYRIGHT: (C)2005,JPO&NCIPI |
20 |
Base material having photocatalyst coating |
JP2005071506 |
2005-03-14 |
JP2005199275A |
2005-07-28 |
BOIRE PHILIPPE; TALPAERT XAVIER |
<P>PROBLEM TO BE SOLVED: To provide a photocatalyst coating on a base material, exhibiting a remarkable anti-staining action to the base material and capable of being industrially produced. <P>SOLUTION: A base material coated is a glass, a ceramic or a glassy ceramic, on at least a part of at least one side of which a coating having a photocatalyst performance is applied, wherein an anatase-type titanium dioxide, that is at least partially crystalline, is contained, a thin layer is arranged between the base material and the coating to form a barrier against a moving of an alkaline metal originated from the base material, and crystalline titanium dioxide shows a form of crystallite having an average size of 0.5-60 nm. <P>COPYRIGHT: (C)2005,JPO&NCIPI |