| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 81 | 一种抗渗抗冻性混凝土 | CN201610750099.6 | 2016-08-29 | CN106380140A | 2017-02-08 | 贾军 |
| 本发明公开了一种抗渗抗冻性混凝土,所述混凝土其原料包括以下组分:硅酸盐水泥、粗砂、中粗砂、碎石、水、硅粉、明矾石、熟石灰、氧化镁粉末、煤灰粉、AEA-高强熟料、石膏、减水剂、引气剂、聚乙烯醇纤维、玻璃纤维、碳纤维、硅氧烷、石蜡、亚硝酸盐、苯甲酸钠。本发明所述抗渗抗冻性混凝土其组分合理,功能协同,具有良好的抗渗性、抗冻性、抗腐蚀性、和易性等优点。 | ||||||
| 82 | 一种石棉瓦及其制备方法 | CN201610748396.7 | 2016-08-29 | CN106365565A | 2017-02-01 | 刘建国 |
| 本发明提供了一种石棉瓦,以重量份数计,由以下组分组成:水泥45-55份;砂子35-45份;石棉纤维15-25份;纤维素纤维4-8份;双组份聚氨酯8-12份;石灰石6-12份;碳化硅粉5-10份;煤矸石5-10份;增粘剂2-3份;减水剂0.5-1份;水40-80份;本发明通过合理的选取石棉瓦的组分,通过各组分相互之间的良好配伍,使得本发明制备得到的石棉瓦具有强度高、防火、防潮、防腐、防寒、保温、耐热、隔音、绝缘等优点,且制备方法简单,易于生产。 | ||||||
| 83 | 一种钢渣建筑垃圾免烧砖及其制备方法 | CN201610651718.6 | 2016-08-10 | CN106145883A | 2016-11-23 | 杨卓舒; 段晓; 张军华; 马春羽; 史红彬; 蔡世楷 |
| 本发明公开了属于建筑材料制备技术领域的一种钢渣建筑垃圾免烧砖及其制备方法。它由如下重量份数的组份构成:钢渣100份、碱性激发剂5‑20份、水20‑40份、建筑垃圾400‑1000份、耐碱纤维0.1‑0.5份。本发明采用钢渣和建筑垃圾作为制备免烧砖的原材料,具有价格低廉,来源广泛的特点,并且钢渣的使用量大、利用率高,实现变废为宝。该发明制备的免烧砖具有质量轻,抗冲击高,韧性强,收缩率低,抗疲劳性好,抗碳化能力强,耐久性好等特点。 | ||||||
| 84 | 一种用于沥青路面的温敏型抗冻材料及其制备方法 | CN201510168812.1 | 2015-04-10 | CN104829157B | 2016-08-17 | 王昆 |
| 为了解决沥青路面中传统抗冻材料在高温季节时释放过快的问题,本发明提供一种用于沥青路面的温敏型抗冻材料及其制备方法,采用温敏型大分子有机物代替传统缓释剂,包膜在具有抗冻防结冰作用的氯化物颗粒表面,再通过筛分和干燥工艺而制成用于沥青路面温敏型抗冻材料。本发明能够根据外界的温度自动响应和控制抗冻材料中盐化物的释放温度,冬季氯化物正常释放,其它相对高温季节极少或者减少释放,从而有效的增加盐化物在沥青路面中抗冻作用年限,延长抗冻材料的使用寿命。 | ||||||
| 85 | 秸秆植物轻质空心条板及制作方法 | CN201510951099.8 | 2015-12-19 | CN105503099A | 2016-04-20 | 屈振彬; 张佰岁 |
| 本发明涉及一种秸秆植物轻质空心条板及制作方法。秸秆植物轻质空心条板,主要用做建筑的内隔墙板,特别适于村镇建筑,多、高层民用住宅。秸秆的利用减少了其焚烧给空气带来的污染,极利于环保,其面密度小、质轻,施工简便、抗裂、耐冻融,隔声性优良。产品性价比高,是其他类型空心条板不可比拟的。本发明其组成包括:基料700、秸秆植物纤维86、膨胀蛭石115、硅粉52、粉煤灰43、复合改性剂1.7、聚丙烯纤维1.3、防腐剂1.4,所述的基料是快硬硫铝酸盐水泥,添加经粉碎、憎水、干燥处理过的1mm~10mm长度的所述的秸秆植物碎纤维和粒径为0.5mm~2mm的所述的膨胀蛭石。本发明用于秸秆植物轻质空心条板。 | ||||||
| 86 | 一种防堵塞耐冻透水混凝土路面砖及制作方法 | CN201510683842.6 | 2015-10-20 | CN105386379A | 2016-03-09 | 张炯; 崔新壮; 卞辉; 王慧; 李莉; 黄丹; 汤潍泽 |
| 本发明涉及一种防堵塞耐冻透水混凝土路面砖。主要包括防堵塞面层和基层,防堵塞面层位于基层上方;所述防堵塞面层的物质组分及配比如下,均为重量份:水泥80-100,粗砂310-360,硅灰7-11,VAE乳液6-10,水25-35,减水剂0.8-1.2;所述基层的物质组分及配比如下,均为重量份:水泥90-110,石子220-260,粗砂70-110,硅灰8-12,VAE乳液8-12,聚乙烯纤维0.1-0.4,水25-35和减水剂0.8-1.2。本发明所提供的混凝土砖,通过设计新的物质组分,具有较好的透水抗冻融效果,且不易堵塞。 | ||||||
| 87 | 一种用于沥青路面的温敏型抗冻材料及其制备方法 | CN201510168812.1 | 2015-04-10 | CN104829157A | 2015-08-12 | 王昆 |
| 为了解决沥青路面中传统抗冻材料在高温季节时释放过快的问题,本发明提供一种用于沥青路面的温敏型抗冻材料及其制备方法,采用温敏型大分子有机物代替传统缓释剂,包膜在具有抗冻防结冰作用的氯化物颗粒表面,再通过筛分和干燥工艺而制成用于沥青路面温敏型抗冻材料。本发明能够根据外界的温度自动响应和控制抗冻材料中盐化物的释放温度,冬季氯化物正常释放,其它相对高温季节极少或者减少释放,从而有效的增加盐化物在沥青路面中抗冻作用年限,延长抗冻材料的使用寿命。 | ||||||
| 88 | 混凝土超早强剂 | CN200710190542.X | 2007-11-30 | CN101200354B | 2010-06-23 | 宫长义; 王惠明; 李建华; 陈晓龙 |
| 本发明公开了一种混凝土超早强剂,其特征在于:以重量百分比计,包括以下组分,无机盐类早强组分35%~55%,有机物类早强组分5%~10%,减水组分15%~25%,其中,所述无机盐类早强组分由硫酸盐、碳酸盐、硝酸盐、亚硝酸盐中的至少2种复配而成;所述有机物类早强组分选自甲酸钙、乙酸钠、草酸钙、三乙醇胺、三异丙醇胺以及尿素中的一种;所述减水组分选自萘磺酸系、三聚氰胺系和聚羧酸系高效减水剂中的一种。本发明使混凝土在冬季低温情况下可以较快地凝结硬化,使混凝土的早期强度有较大提高,同时又保证了后期强度。 | ||||||
| 89 | 碾压混凝土坝坝面防渗材料及其施工工艺 | CN93108637.X | 1993-07-17 | CN1081429A | 1994-02-02 | 杨天生; 王足献; 韩云屏 |
| 一种用于碾压混凝土坝坝面防渗的防渗材料,其特点是胶凝材料组分的重量百分比为:聚丙烯酸树脂乳液5~10%,水泥95~90%。还可添加第三组分硅灰。其施工参数为:水胶比0.4~0.6,灌注压力≤0.5MPa,流动度1.5~3.5min。具有防渗效果好,抗裂、抗冻、耐强酸强碱腐蚀,价格低,施工工艺简单的优点,可作为碾压混凝土坝坝面防渗以及水工建筑物和港工建筑物常态混凝土的防渗、防腐、防炭化保护涂层。 | ||||||
| 90 | 혹한기용 외단열 몰탈 및 이를 이용한 외단열 시스템 시공 방법 | KR1020130006118 | 2013-01-18 | KR101617067B1 | 2016-05-02 | 지승욱; 이응기; 최철준; 김명희; 김지문; 전병주 |
| 영하의온도에서도동결되는것을방지할수 있을뿐만아니라강도를향상시킬수 있는혹한기용외단열몰탈및 이를구비하는외단열시스템에대하여개시한다. 본발명에따른혹한기용외단열몰탈은포틀랜드시멘트 : 27 ~ 30 중량%, 알루미나시멘트 : 1 ~ 3 중량%, 조강시멘트 : 1 ~ 3 중량%, 규사 : 40 ~ 50 중량%, 탄산칼슘 : 12 ~ 16 중량%, 폴리머바인더 : 5 ~ 7 중량%, 시멘트경화가속제 : 0.2 ~ 0.8 중량%, 시멘트경화가속보조제 : 0.3 ~ 0.7 중량%, 메틸셀룰로우즈(methyl cellulose) : 0.15 ~ 0.25 중량% 및메틸에틸셀룰로우즈(methyl ethyl cellulose) : 0.1 ~ 0.2 중량%를포함하는것을특징으로한다. | ||||||
| 91 | 자동변속기용 변속조작장치 | KR1020080082440 | 2008-08-22 | KR100969068B1 | 2010-07-09 | 김은식 |
| 본 발명은 구조가 간단하여 원가절감을 도모할 수 있고, 변속노브의 운동공간을 작게 하여 레이아웃의 설정이 유리해지며, 운전자가 변속노브를 손으로 잡고서 단지 회전시키면 변속이 원활하게 이루어져 변속 조작이 힘들이지 않고 용이해져서 운전피로를 경감시킬 수 있을 뿐만 아니라 상품성도 향상시킬 수 있도록 한 자동변속기용 변속조작장치를 제공하기 위해, 회전가능하게 설치된 다이얼노브와, 이 다이얼노브의 회전운동을 전달받아 유압을 발생시켜 자동변속기의 인히비트 스위치를 조작하는 유압장치를 구비한다. 다이얼노브, 유압실린더, 회전축, 솔레노이드 | ||||||
| 92 | Exterior insulation mortar for cold weather and method for constructing exterior insulation system using same | US14761621 | 2013-12-03 | US09650782B2 | 2017-05-16 | Seung Wook Ji; Eung Kee Lee; Chul June Choi; Myeong Hee Kim; Ji Mun Kim; Byung Joo Jeon |
| Disclosed are an exterior insulation mortar for cold weather which may prevent freezing and improve strength at temperatures below 0° C., and an exterior insulation system using the same. | ||||||
| 93 | Process to produce a durable concrete at hot ambient conditions | US14425949 | 2013-09-23 | US09328019B2 | 2016-05-03 | Wolfram Franke |
| The invention relates to the use of calcium nitrate for producing a cementitious composition and/or a cementitious solid at high ambient temperatures. The invention is directed to ensuring sufficient hydration by a limitation of the maximum hydration temperature. | ||||||
| 94 | Cementitious Material for Cold Weather Applications | US13803316 | 2013-03-14 | US20140121302A1 | 2014-05-01 | Joshua V. Brien |
| Disclosed is a cementitious material that possesses favorable adhesion and compressive strength properties and is suitable for cold weather applications. Disclosed also are methods for the manufacture and use of the material. | ||||||
| 95 | Solid gas migration control additives based on latex powders for cementing applications | US11965255 | 2007-12-27 | US08020618B2 | 2011-09-20 | Barlet-Gouedard Véronique; Ermel Michel; Daniel Sylvie |
| Solid latex powders are employed as additives to control gas migration during the cementation of subterranean wells. Preferably, the latex additives are based on vinyl-acetate or styrene-butadiene based polymers. The additives are particularly useful in low-temperature applications. Methods to prepare cement slurries comprising the latex additives, and methods pertaining to the cementation of subterranean wells are also presented. | ||||||
| 96 | Inorganic board and a method for the manufacturing thereof | US11661719 | 2005-08-29 | US07828892B2 | 2010-11-09 | Kazuo Utagaki; Tatsuya Tsugawa; Yoshitaka Doi |
| The object of the present invention is to provide an inorganic board whose dimensional stability, anti-freezing and fusing properties, and the like are much improved.To attain this object, an inorganic board is manufactured using a method comprising: preparing a raw material slurry by the dispersing of a cementitious material, silica-containing material, woody reinforcement, and mica in water, forming a papered mat by sheet forming the raw material slurry, pressing the papered mat, and curing the pressed papered mat in an autoclave at a temperature higher than 150° C., wherein the mass ratio of the cementitious inorganic material and silica-containing material is set to be in the range of between 35:65 and 45:55, to promote the curing reaction of the inorganic board and improve its dimensional stability and anti-freezing and fusing properties. | ||||||
| 97 | Cements for use across formations containing gas hydrates | US11385416 | 2006-03-21 | US07373982B2 | 2008-05-20 | Ali Shinta |
| A method of servicing a wellbore in a subterranean formation, comprising preparing a cement composition comprising water, a cementitious material, and a gas hydrate inhibitor, and placing the cement composition in the wellbore. A cement composition comprising water, a cementitious material, and a gas hydrate inhibitor. | ||||||
| 98 | Inorganic Board and a Method for the Manufacturing Thereof | US11661719 | 2005-08-29 | US20070245930A1 | 2007-10-25 | Kazuo Utagaki; Tatsuya Tsugawa; Yoshitaka Doi |
| The object of the present invention is to provide an inorganic board whose dimensional stability, anti-freezing and fusing properties, and the like are much improved. To attain this object, an inorganic board is manufactured using a method comprising: preparing a raw material slurry by the dispersing of a cementitious material, silica-containing material, woody reinforcement, and mica in water, forming a papered mat by sheet forming the raw material slurry, pressing the papered mat, and curing the pressed papered mat in an autoclave at a temperature higher than 150° C., wherein the mass ratio of the cementitious inorganic material and silica-containing material is set to be in the range of between 35:65 and 45:55, to promote the curing reaction of the inorganic board and improve its dimensional stability and anti-freezing and fusing properties. | ||||||
| 99 | Environmentally acceptable well cement fluid loss control additives, compositions and methods | US10135492 | 2002-04-30 | US06730636B2 | 2004-05-04 | Jan Pieter Vijn; Bach Dao; Mohand Melbouci |
| Environmentally acceptable well cement fluid loss control additives, cement compositions including the additives and methods of using the compositions are provided. The environmentally acceptable fluid loss control additives are comprised of ethoxylated hydroxyethylcellulose having a reduced molecular weight. | ||||||
| 100 | Environmentally acceptable well cement fluid loss control additives, compositions, and methods | US10135753 | 2002-04-30 | US06626992B2 | 2003-09-30 | Jan Pieter Vijn; Bach Dao; Mohand Melbouci |
| Environmentally acceptable well cement fluid loss control additives, cement compositions including the additives and methods of using the compositions are provided. The environmentally acceptable fluid loss control additives are comprised of ethoxylated hydroxyethylcellulose having a reduced molecular weight. | ||||||
QQ群二维码
意见反馈
意见反馈