公开(公告)号：WO2016077550A1

公开(公告)日：2016-05-19

申请号：PCT/US2015/060328

申请日：2015-11-12

Applicant: UNIVERSITY OF HOUSTON SYSTEM

Inventor： CURRAN, Seamus ,  LIAO, Kang-Shyang ,  ALLEY, Nigel ,  HALDAR, Amrita ,  WANG, Alexander

IPC: D06M13/00 ,  D06M11/00

CPC classification number: D06M13/513 ,  C09D5/00 ,  D06M13/503 ,  D06M13/507 ,  D06M15/643 ,  D06M23/10 ,  D06M2200/01 ,  D06M2200/12

Abstract: A process of fabricating the waterproof coating may include selecting a textile material substrate, utilizing a sol-gel comprising a silane or silane derivative and metal oxide precursor to coat the substrate, and optionally coating the substrate with a hydrophobic chemical agent and/or other chemical agents to create a surface with nanoscopic or microscopic features. The process may utilize an all solution process or controlled environment for fabricating a fluorine-free waterproof coating that prevent wetting or staining of a substrate, or may utilize a controlled environment. The composition coatings for treating textile materials improve soil-resistance and stain-resistance of the textile materials while the compositions contain no fluorine-based chemicals. In addition, the composite solution may impart additional properties such as physical strength to the textile whilst retaining the original appearance.

Abstract translation: 制造防水涂层的方法可以包括选择纺织材料基材，利用包含硅烷或硅烷衍生物和金属氧化物前体的溶胶 - 凝胶涂覆基材，以及任选地用疏水化学试剂和/或其它化学品涂覆基材 用纳米尺度或微观特征创建表面的试剂。 该方法可以利用全溶液方法或受控环境来制造防止基底润湿或染色的无氟防水涂层，或者可以利用受控的环境。 用于处理纺织材料的组合物涂料改善纺织材料的抗污性和抗污性，而组合物不含氟基化学品。 此外，复合溶液可以赋予纺织品附加的物理强度，同时保持原始外观。

公开(公告)号：EP3218540A1

公开(公告)日：2017-09-20

申请号：EP15858506.7

申请日：2015-11-12

Applicant: The University Of Houston System

Inventor： CURRAN, Seamus ,  LIAO, Kang-Shyang ,  ALLEY, Nigel ,  HALDAR, Amrita ,  WANG, Alexander

IPC: D06M13/00 ,  D06M11/00

CPC classification number: D06M13/513 ,  C09D5/00 ,  D06M13/503 ,  D06M13/507 ,  D06M15/643 ,  D06M23/10 ,  D06M2200/01 ,  D06M2200/12

Abstract: A process of fabricating the waterproof coating may include selecting a textile material substrate, utilizing a sol-gel comprising a silane or silane derivative and metal oxide precursor to coat the substrate, and optionally coating the substrate with a hydrophobic chemical agent and/or other chemical agents to create a surface with nanoscopic or microscopic features. The process may utilize an all solution process or controlled environment for fabricating a fluorine-free waterproof coating that prevent wetting or staining of a substrate, or may utilize a controlled environment. The composition coatings for treating textile materials improve soil-resistance and stain-resistance of the textile materials while the compositions contain no fluorine-based chemicals. In addition, the composite solution may impart additional properties such as physical strength to the textile whilst retaining the original appearance.

Abstract translation: 制造防水涂层的方法可包括选择纺织材料基材，利用包含硅烷或硅烷衍生物和金属氧化物前体的溶胶 - 凝胶涂布基材，并任选用疏水性化学试剂和/或其他化学品涂布基材 代理来创建具有纳米级或微观特征的表面。 该过程可以利用全溶解过程或受控环境来制造防止基材润湿或着色的无氟防水涂层，或者可以利用受控环境。 用于处理纺织材料的组合物涂层提高了纺织材料的耐污性和耐污染性，而组合物不含氟基化学品。 另外，复合溶液可赋予织物额外的性能，例如物理强度，同时保持原始外观。

公开(公告)号：EP3218438A1

公开(公告)日：2017-09-20

申请号：EP15858577.8

申请日：2015-11-12

Applicant: The University Of Houston System

Inventor： CURRAN, Seamus ,  LIAO, Kang-Shyang ,  ALLEY, Nigel ,  HALDAR, Amrita ,  WANG, Alexander

IPC: C09D5/00 ,  C09D7/14 ,  C09D183/00

CPC classification number: C09D5/00 ,  B05D3/007 ,  C04B41/4922 ,  C04B2111/27 ,  C08K5/5419 ,  C08K5/5435 ,  C09D5/14 ,  C09D7/80 ,  C09D15/00 ,  C09D183/04

Abstract: A process for manufacturing the composition coating may include selecting a wood or masonry material substrate and utilizing a sol-gel comprising a silane or silane derivative and metal oxide precursor to coat the substrate. The process may utilize an all solution process or controlled environment for manufacturing a composition coating that prevent wetting and/or staining of a substrate. The composition coatings for treating wood or masonry materials improves weather-resistance, microbial resistance, stain-resistance and fungal-resistance of the materials. The reduced permeability of the resulting masonry materials can also delay or inhibit degradation caused by permeation of ions such as chlorides and sulfates. In addition, a stain comprising the composite solution and pigments may impart additional property to wood or masonry materials whilst retaining or improving the original appearance, particularly for the visibility and contrast of the wood grain as seen after the application of the coating.

Abstract translation: 用于制造组合物涂层的方法可以包括选择木材或砖石材料基材并利用包含硅烷或硅烷衍生物和金属氧化物前体的溶胶 - 凝胶涂布基材。 该工艺可以利用全部溶液工艺或受控环境来制造防止基材润湿和/或着色的组合物涂层。 用于处理木材或砖石材料的组合物涂层提高了材料的耐候性，耐微生物性，耐沾污性和抗真菌性。 所得砌筑材料的渗透性降低也可延迟或抑制离子如氯化物和硫酸盐渗透所引起的降解。 此外，包含复合溶液和颜料的污渍可以赋予木材或砖石材料附加的性能，同时保留或改善原始外观，特别是对于涂覆涂层后可见的木纹的可见度和对比度。

公开(公告)号：WO2016161250A2

公开(公告)日：2016-10-06

申请号：PCT/US2016/025498

申请日：2016-04-01

Applicant: UNIVERSITY OF HOUSTON SYSTEM

Inventor： CURRAN, Seamus ,  LIAO, Kang-Shyang ,  ALLEY, Nigel ,  HALDAR, Amrita ,  MAHARJAN, Surendra

IPC: B27K5/04 ,  F26B5/16 ,  B27K3/50

CPC classification number: B27K5/04 ,  B27K3/08 ,  B27K3/50 ,  B27K2240/10 ,  F26B3/04 ,  F26B2210/16

Abstract: The new methods for treating green wood discuss herein speed up air drying of common green wood, including both softwood and hardwood. This method involves treating and altering the green wood with a base solution, and subjecting the wood to an air drying process. The new methods require less time to dry the green wood to a desired water content. In addition, other additives may be included in the base solution such as miscibility solvent(s), preservative(s), solubilizer(s)/stabilizer(s), chelating agent(s), bonding agent(s), pigment(s), UV protective, anti- oxidant, anti-fungal, anti-microbial and/or anti-insect chemical(s). The base solution may also slow down the wood deterioration caused by physical, chemical and biological sources under ambient conditions.

Abstract translation: 这里讨论的处理绿色木材的新方法加快了常见绿色木材的风干，包括软木和硬木。 这种方法涉及用碱溶液处理和改变绿色木材，并对木材进行空气干燥处理。 新方法需要较少的时间将绿色木材干燥至所需的含水量。 另外，基础溶液中可包含其它添加剂，例如混溶性溶剂，防腐剂，增溶剂/稳定剂，螯合剂，粘合剂，颜料（s） ），防紫外线，抗氧化剂，抗真菌，抗微生物和/或抗昆虫化学品。 基础解决方案还可以减缓环境条件下由物理，化学和生物源引起的木材变质。

公开(公告)号：WO2016077573A1

公开(公告)日：2016-05-19

申请号：PCT/US2015/060361

申请日：2015-11-12

Applicant: UNIVERSITY OF HOUSTON SYSTEM

Inventor： CURRAN, Seamus ,  LIAO, Kang-Shyang ,  ALLEY, Nigel ,  HALDAR, Amrita ,  WANG, Alexander

IPC: C09D5/00 ,  C09D7/14 ,  C09D183/00

CPC classification number: C09D5/00 ,  B05D3/007 ,  C04B41/4922 ,  C04B2111/27 ,  C08K5/5419 ,  C08K5/5435 ,  C09D5/14 ,  C09D7/80 ,  C09D15/00 ,  C09D183/04

Abstract: A process for manufacturing the composition coating may include selecting a wood or masonry material substrate and utilizing a sol-gel comprising a silane or silane derivative and metal oxide precursor to coat the substrate. The process may utilize an all solution process or controlled environment for manufacturing a composition coating that prevent wetting and/or staining of a substrate,. The composition coatings for treating wood or masonry materials improves weather-resistance, microbial resistance, stain-resistance and fungal-resistance of the materials. The reduced permeability of the resulting masonry materials can also delay or inhibit degradation caused by permeation of ions such as chlorides and sulfates. In addition, a stain comprising the composite solution and pigments may impart additional property to wood or masonry materials whilst retaining or improving the original appearance, particularly for the visibility and contrast of the wood grain as seen after the application of the coating.

Abstract translation: 用于制造组合物涂层的方法可以包括选择木材或砖石材料基材，并且使用包含硅烷或硅烷衍生物和金属氧化物前体的溶胶 - 凝胶涂覆该基材。 该方法可以利用全溶液方法或控制环境来制造防止底物润湿和/或染色的组合物涂层。 用于处理木材或砖石材料的组合物涂料提高了材料的耐候性，微生物抗性，耐污染性和真菌抗性。 所得到的砖石材料的渗透性降低也可以延迟或抑制由离子如氯化物和硫酸盐渗透引起的降解。 此外，包含复合溶液和颜料的污渍可以赋予木材或砖石材料附加的性能，同时保持或改善原始外观，特别是对于施加涂层后所看到的木纹的可见度和对比度。

公开(公告)号：WO2016028844A1

公开(公告)日：2016-02-25

申请号：PCT/US2015/045806

申请日：2015-08-19

Applicant: UNIVERSITY OF HOUSTON SYSTEM

Inventor： CURRAN, Seamus ,  ALLEY, Nigel ,  LIAO, Kang-shyang ,  HALDAR, Amrita ,  MCALPIN, Jennifer ,  MCELHENNY, Brian

IPC: B32B17/00 ,  B32B17/10

CPC classification number: C03C17/007 ,  C03C17/009 ,  C03C17/32 ,  C03C2217/29 ,  C03C2217/445 ,  C03C2217/465 ,  C03C2217/475 ,  C03C2218/112

Abstract: Compositions and methods for improved materials and material laminates with graphitic or inorganic/organic nanomaterials are presented. Graphitic or inorganic/organic nanomaterials, such as carbon nanotubes, carbon nanofibers, graphenes or graphene oxides, are introduced into an aqueous composition as fillers to provide a graphitic or inorganic/organic nanocomposite. Such composition may be used as laminates to improve adhesion between a film and a layer of material or between layers of materials and to increase not only strength properties, but also to provide other desired properties such as electronic properties, UV absorbing/blocking, optical- limiting, anti-reflective, fire-retardant, conducting, anti-microbial properties or pigmentation to say material. By tailoring the composite formulations with multiple graphitic or organic/inorganic nanomaterials, the resulting materials laminates become multifunctional and can be used for a variety of applications.

Abstract translation: 提出了用石墨或无机/有机纳米材料改进材料和材料层压材料的组合物和方法。 将石墨或无机/有机纳米材料（例如碳纳米管，碳纳米纤维，石墨烯或石墨烯氧化物）作为填料引入含水组合物中以提供石墨或无机/有机纳米复合材料。 这种组合物可以用作层压材料以改善膜与材料层之间或材料层之间的粘合性，并且不仅增加强度性能，而且可以提供其它所需的性能，例如电子性能，UV吸收/阻挡， 限制性，抗反射性，阻燃性，导电性，抗微生物性或色素沉淀物质。 通过用多种石墨或有机/无机纳米材料调整复合配方，所得到的材料层压体变得多功能，并可用于各种应用。