{"currentpage":1,"firstResult":0,"maxresult":10,"pagecode":5,"pageindex":{"endPagecode":5,"startPagecode":1},"records":[{"abstractinfo":"论述了影响新老混凝土粘结面粘结强度的因素,以新型磷铝酸盐水泥(PALC)砂浆为修补材料,研究了它与传统硅酸盐水泥(PC)之间的修复性能,通过半边修补和中间修补两种修补方式,测定粘接界面的抗折强度,对抗折界面情况进行比较分析,借助扫描电镜和元素线分析测试,分析了粘接界面区的粘接机理。实验结果表明,以磷铝酸盐水泥为修补材料的界面粘结强度明显高于以传统硅酸盐水泥为修补材料的界面粘结强度,尤其是在修补早期,磷铝酸盐的这种性能更是优越。通过扫描电镜和元素线扫描分析发现,“PALC-POC”界面区域元素含量的变化是连续的,认为界面区域是两侧元素相互扩散进入对方基体,“磷-硅”界面处可能存在化学结合。","authors":[{"authorName":"李虹燕","id":"1ea7bc96-129d-4a73-939d-27cd41175c89","originalAuthorName":"李虹燕"},{"authorName":"丁铸","id":"295f6993-f97e-4ee1-be38-a1f23bb84efc","originalAuthorName":"丁铸"}],"doi":"10.3969/j.issn.1001-9731.2015.12.020","fpage":"12097","id":"fb5c92f7-741d-4144-bb78-f19e065e8889","issue":"12","journal":{"abbrevTitle":"GNCL","coverImgSrc":"journal/img/cover/GNCL.jpg","id":"33","issnPpub":"1001-9731","publisherId":"GNCL","title":"功能材料"},"keywords":[{"id":"42ed93ff-9ba3-4eac-808c-b021617e19c3","keyword":"磷铝酸盐","originalKeyword":"磷铝酸盐"},{"id":"5f80d290-5aba-4b8f-84b7-2af9ddbf2342","keyword":"水泥修复","originalKeyword":"水泥修复"},{"id":"d9803563-7a80-424b-9132-5e832c663674","keyword":"粘接性能","originalKeyword":"粘接性能"},{"id":"88bc8181-cd58-4224-b88e-00dba0f7e9ea","keyword":"粘接机理","originalKeyword":"粘接机理"}],"language":"zh","publisherId":"gncl201512020","title":"磷铝酸盐水泥修复性能的研究?","volume":"","year":"2015"},{"abstractinfo":"以水热法合成了铜磷铝分子筛(Cu-AlPO4-5),并用XRD,ICP,SEM,FT-IR,NH3-TPD,H2-TPR,ESR和N2吸附-脱附等手段对样品进行了表征. 结果表明,所合成的Cu-AlPO4-5分子筛具有AFI拓扑结构,结晶度高,无结晶态杂质; Cu2+进入到分子筛的骨架结构中,并使其Lewis酸和Brnsted酸中心数量增加,弱酸性中心大大增强,强酸性中心消失; 样品中的Cu存在多种形式,以骨架Cu物种为主,还存在有骨架外CuO和双核Cu物种,部分样品具有缺陷结构. Cu-AlPO4-5分子筛中存在着骨架Cu和缺陷结构两种可能的活性中心,对苯液相氧化具有良好的催化性能,苯酚选择性可达96%,收率可达6.9%.","authors":[{"authorName":"任永利","id":"03cade94-8d22-4b2d-8345-372beeb98b8c","originalAuthorName":"任永利"},{"authorName":"刘国柱","id":"710e0fae-d2fa-4048-ad04-6f9e0a76d255","originalAuthorName":"刘国柱"},{"authorName":"王莅","id":"6c6c2e4e-1409-462b-84d5-279c8002978f","originalAuthorName":"王莅"},{"authorName":"米镇涛","id":"f50324ec-59aa-4940-8a03-61a15f472396","originalAuthorName":"米镇涛"}],"doi":"","fpage":"357","id":"33d3852b-eec9-492b-9942-e32836ecc3e8","issue":"5","journal":{"abbrevTitle":"CHXB","coverImgSrc":"journal/img/cover/CHXB.jpg","id":"18","issnPpub":"0253-9837","publisherId":"CHXB","title":"催化学报 "},"keywords":[{"id":"8adf73ab-fb9c-4b20-87ed-7efebad1b095","keyword":"铜","originalKeyword":"铜"},{"id":"51359ef0-66ed-4ee3-a56c-0412eede03d4","keyword":"磷铝酸盐","originalKeyword":"磷铝酸盐"},{"id":"6d12c547-dbfe-456a-9ed8-caceddd71356","keyword":"分子筛","originalKeyword":"分子筛"},{"id":"9a1be9e9-b6f2-4f75-8469-e68729f398ae","keyword":"苯","originalKeyword":"苯"},{"id":"b30577e3-f678-4820-892d-3ee2b2a158b8","keyword":"过氧化氢","originalKeyword":"过氧化氢"},{"id":"448876d1-6e20-452f-ab6b-e0b7ea432789","keyword":"液相氧化","originalKeyword":"液相氧化"},{"id":"a039a2db-e68b-4f15-95b0-4b3dee6e3a03","keyword":"苯酚","originalKeyword":"苯酚"}],"language":"zh","publisherId":"cuihuaxb200405006","title":"铜磷铝分子筛的合成及其对苯液相氧化制苯酚的催化性能","volume":"25","year":"2004"},{"abstractinfo":"通过测定力学性能、离子溶出浓度等耐水性指标,研究了磷铝酸盐水泥的耐水性,并将其耐水性与普通硅酸盐水泥的耐水性进行对比.结果表明:磷铝酸盐水泥具有较普通硅酸盐水泥更为优良的耐水性.同时借助于XRD、SEM、压汞测孔法及ζ-电位等测试技术分析了磷铝酸盐水泥的耐水性机理.","authors":[{"authorName":"任书霞","id":"1c4d4ec5-6329-47ac-aa73-fbb0641a6d1f","originalAuthorName":"任书霞"},{"authorName":"张光磊","id":"2af6d43a-9ed0-4562-bbf2-57938e26f7a8","originalAuthorName":"张光磊"},{"authorName":"李仕群","id":"9fe43ce4-bb78-49ed-bbf4-1dd6e3945d0a","originalAuthorName":"李仕群"},{"authorName":"刘飚","id":"f3f985bc-8ce4-4373-aa4d-0b77577829c3","originalAuthorName":"刘飚"},{"authorName":"胡佳山","id":"656800e5-3ede-4647-9594-a210f7efa96a","originalAuthorName":"胡佳山"}],"doi":"10.3969/j.issn.1001-1625.2007.01.011","fpage":"48","id":"a4ce2ae7-3180-4ea6-a560-b781aab5ad22","issue":"1","journal":{"abbrevTitle":"GSYTB","coverImgSrc":"journal/img/cover/GSYTB.jpg","id":"36","issnPpub":"1001-1625","publisherId":"GSYTB","title":"硅酸盐通报 "},"keywords":[{"id":"7b876f46-7794-4a63-b48e-6b5c728825ee","keyword":"磷铝酸盐水泥","originalKeyword":"磷铝酸盐水泥"},{"id":"3dba76f8-684a-455d-89c5-9cd32da3925b","keyword":"耐水性","originalKeyword":"耐水性"},{"id":"413a1497-b9d6-4ff1-aafe-acaf4728b392","keyword":"机理","originalKeyword":"机理"}],"language":"zh","publisherId":"gsytb200701011","title":"磷铝酸盐水泥耐水性研究","volume":"26","year":"2007"},{"abstractinfo":"以磷铝酸盐水泥和硅酸盐水泥熟料为原料,并掺入石膏和外加剂,磨制复合水泥.根据所设计的试验方案,以净浆抗压强度为考核指标,确定了复合水泥的最佳组成.测定了复合水泥的力学性能,并利用XRD、SEM、IR等测试手段对水化产物进行了分析,讨论了磷铝酸盐水泥增强硅酸盐水泥力学性能的机理.","authors":[{"authorName":"张爱娟","id":"7299fd49-901b-47a0-b6bf-98a00142e9e9","originalAuthorName":"张爱娟"},{"authorName":"苏磊","id":"d69073f6-8675-4f88-a1fc-6be2798468d1","originalAuthorName":"苏磊"},{"authorName":"李仕群","id":"6578b0bf-b898-4c1b-aecb-4d37c7b9a577","originalAuthorName":"李仕群"}],"doi":"10.3969/j.issn.1001-1625.2006.03.034","fpage":"159","id":"d20e69e9-f530-473e-9221-a371619504ca","issue":"3","journal":{"abbrevTitle":"GSYTB","coverImgSrc":"journal/img/cover/GSYTB.jpg","id":"36","issnPpub":"1001-1625","publisherId":"GSYTB","title":"硅酸盐通报 "},"keywords":[{"id":"62a9d3f1-394f-4f53-aad0-69b96670cc94","keyword":"磷铝酸盐水泥","originalKeyword":"磷铝酸盐水泥"},{"id":"acaf67ab-d5c5-4579-9868-fbd2692b0ebc","keyword":"复合水泥","originalKeyword":"复合水泥"},{"id":"10c6b847-ab15-45a6-b086-35ee0ca168af","keyword":"力学性能","originalKeyword":"力学性能"},{"id":"942f974b-a2f6-4ba0-9d47-8d8193f5e689","keyword":"钙硅摩尔比","originalKeyword":"钙硅摩尔比"}],"language":"zh","publisherId":"gsytb200603034","title":"磷铝酸盐水泥增强硅酸盐水泥力学性能的研究","volume":"25","year":"2006"},{"abstractinfo":"用分光光度计等测试技术研究了磷铝酸盐水泥水化时Ca2+,Al3+离子浓度随外加剂掺量不同的变化,并探讨了磷铝酸盐水泥的水化动力学.结果表明:一定掺量的外加剂可调节Ca2+,Al3+离子的析出,改变磷铝酸盐水泥水化加速期的长短,起到了调凝的效果,在磷铝酸盐水泥水化加速期,其水化动力学遵循方程:[1-(1-α)1/3]N=Kt.Ca2+离子的溶出主要受自动催化反应控制,N为1.51~1.67;Al3+离子的溶出则主要受扩散反应控制,N为5.37.","authors":[{"authorName":"任书霞","id":"7112f628-73cb-4857-bf80-7d8092d3d43e","originalAuthorName":"任书霞"},{"authorName":"王英姿","id":"8296d88b-2f28-40db-ab6c-736b2db83005","originalAuthorName":"王英姿"},{"authorName":"李仕群","id":"b62162e9-3cdc-4203-81d7-48281ccaf578","originalAuthorName":"李仕群"},{"authorName":"胡佳山","id":"ba7846e8-ef98-4356-8fc9-c05453e083d3","originalAuthorName":"胡佳山"},{"authorName":"张献","id":"396e73f9-6347-4642-a242-b33a7c109fdb","originalAuthorName":"张献"}],"doi":"10.3969/j.issn.1001-1625.2004.02.001","fpage":"3","id":"2bed824f-bdee-4784-8315-2f28d2e41e02","issue":"2","journal":{"abbrevTitle":"GSYTB","coverImgSrc":"journal/img/cover/GSYTB.jpg","id":"36","issnPpub":"1001-1625","publisherId":"GSYTB","title":"硅酸盐通报 "},"keywords":[{"id":"95c3f12a-a86c-4e87-8909-de49ae609705","keyword":"磷铝酸盐水泥","originalKeyword":"磷铝酸盐水泥"},{"id":"ff862e4e-0461-4856-a4ec-441141829da9","keyword":"外加剂","originalKeyword":"外加剂"},{"id":"6b4209e1-9ea2-413c-8ff3-95927fc6877e","keyword":"水化动力学","originalKeyword":"水化动力学"}],"language":"zh","publisherId":"gsytb200402001","title":"外加剂对磷铝酸盐水泥中钙、铝析出的影响","volume":"23","year":"2004"},{"abstractinfo":"利用磷石膏分解率高的特点,将预先煅烧后分别达到73.82%和80.15%分解率的磷石膏与矾土和石灰石进行配料烧制贝利特硫铝酸盐熟料,探讨部分分解磷石膏用于制备贝利特硫铝酸盐水泥的可行性.理论计算结果表明,当磷石膏分解率达到80.15%,SO2可以达到有实用价值的收集浓度;试验结果表明,利用部分分解的磷石膏制备的贝利特硫铝酸盐水泥早期水化放热量偏低,硬度也略微低于天然石膏制备的贝利特硫铝酸盐水泥的硬度,但对早期强度无明显的不利影响.可以认为,部分分解磷石膏可以用于制备贝利特硫铝酸盐水泥.","authors":[{"authorName":"刘娜","id":"57503f9e-8185-4321-9006-64903fc99444","originalAuthorName":"刘娜"},{"authorName":"陈晴","id":"47195dde-8c6a-4548-878f-6e1f12d5b3b7","originalAuthorName":"陈晴"},{"authorName":"党玉栋","id":"0a7a9f64-8bf1-496f-baff-4b58e9cb2165","originalAuthorName":"党玉栋"},{"authorName":"李凤玲","id":"b254db9b-0ef8-469e-9a33-7589be84de4c","originalAuthorName":"李凤玲"},{"authorName":"张健","id":"3bc8656e-c61e-4772-ad80-70ee2b513c17","originalAuthorName":"张健"},{"authorName":"李昕成","id":"0a852420-eb3f-4e74-aa33-9dc53a69ed5a","originalAuthorName":"李昕成"},{"authorName":"钱觉时","id":"e07b052a-4db7-47bc-9e1c-afc4874cabc0","originalAuthorName":"钱觉时"}],"doi":"","fpage":"3763","id":"08d2f25e-3bd4-45a1-881a-97a7cdc536a2","issue":"11","journal":{"abbrevTitle":"GSYTB","coverImgSrc":"journal/img/cover/GSYTB.jpg","id":"36","issnPpub":"1001-1625","publisherId":"GSYTB","title":"硅酸盐通报 "},"keywords":[{"id":"04c82c80-5275-456a-9067-b5ca30759f56","keyword":"磷石膏","originalKeyword":"磷石膏"},{"id":"53e1ed37-e5d4-4f89-b4fe-2676a8154440","keyword":"部分分解","originalKeyword":"部分分解"},{"id":"74fbe71d-340b-4bcc-9c52-81054118b28c","keyword":"贝利特","originalKeyword":"贝利特"},{"id":"f9b3b8c4-abab-4c5b-b396-27def942d1c7","keyword":"硫铝酸盐水泥","originalKeyword":"硫铝酸盐水泥"}],"language":"zh","publisherId":"gsytb201611047","title":"磷石膏部分分解制备贝利特硫铝酸盐水泥的探究","volume":"35","year":"2016"},{"abstractinfo":"本文尝试用云南当地不同企业产生磷石膏替代天然石膏作为原料,烧制贝利特-硫铝酸盐水泥.研究结果表明:在烧成温度为1250℃,保温时间为150 min,外掺石膏量为12%的条件下,可以烧制得到初凝时间约30 min,终凝时间约60 min,28 d抗压强度在49 MPa左右的贝利特-硫铝酸盐水泥.用磷石膏烧制成的贝利特硫铝酸盐水泥与用普通石膏烧制的贝利特硫铝酸盐水泥性质几乎相同,甚至在强度发展上还要优于后者.用未经水洗处理磷石膏烧制水泥的凝结时间比用经水洗处理过磷石膏烧制的贝利特-硫铝酸盐水泥凝结时间都要短.","authors":[{"authorName":"张浩","id":"76603d2e-81cc-45c6-af7a-a219b82cf89c","originalAuthorName":"张浩"},{"authorName":"李辉","id":"fb8227df-5c80-48b1-a174-d3557a3cc06f","originalAuthorName":"李辉"}],"doi":"","fpage":"1567","id":"45181834-521f-467e-afcf-ca678d39c666","issue":"6","journal":{"abbrevTitle":"GSYTB","coverImgSrc":"journal/img/cover/GSYTB.jpg","id":"36","issnPpub":"1001-1625","publisherId":"GSYTB","title":"硅酸盐通报 "},"keywords":[{"id":"aeecfe39-3b63-449e-8797-4a363ffe88de","keyword":"磷石膏","originalKeyword":"磷石膏"},{"id":"76e2c4c4-7406-400a-b40b-0dcc7e54452c","keyword":"贝利特-硫铝酸盐水泥","originalKeyword":"贝利特-硫铝酸盐水泥"},{"id":"3c44623e-9ca3-48f6-8b75-ba74b4302714","keyword":"凝结时间","originalKeyword":"凝结时间"},{"id":"4a3c22eb-c266-4074-810c-070482074f19","keyword":"抗压强度","originalKeyword":"抗压强度"}],"language":"zh","publisherId":"gsytb201406055","title":"用磷石膏制备贝利特-硫铝酸盐水泥","volume":"33","year":"2014"},{"abstractinfo":"主要研究了复合磷铝酸盐-硅酸盐熟水泥新拌和硬化浆体早期水化行为以及外加剂(NB)掺量对相应参数的影响,并与52.5级硅酸盐水泥浆体的相应行为进行了比较.测定了外加剂(NB)掺量对净浆和砂浆1d和3d强度,分析了新拌和硬化磨细浆体悬浮溶液的pH值、ζ电位和离子电导(K);并运用分光光度法和比尔定律研究了浆体中[Ca2+]和[AlO4]5-溶出浓度的规律同时用XRD半定量分析了浆体早期的水化程度.硬化浆体粉末悬浮液的ζ电位、离子电导(K),[Ca2+]和[AlO4]5-离子的溶出浓度的研究结果综合表明:外加剂掺量为水泥的0.15%~0.21%范围内时各早期水化行为呈现出最佳值:复合水泥浆体1d,3d和7d中Alite的水化程度较硅酸盐水泥浆体相应龄期分别提高了35%,33%和49%;净浆和砂浆1d抗压强度较同龄期硅酸盐水泥浆体分别增长了3%~15%和10%~17%;3天净浆强度增长了9%~19%;与此同时,浆体溶液的pH值维持在11.6~11.75;与此同时,复合浆体的凝结时间随外加剂掺量有所增长,但仍在国标范围内,而且终凝时间较PC短.复合水泥新拌浆体悬浮液的[Ca2+]的比浓度和溶液离子电导分析表明:复合水泥诱导期出现的时间较PC的缩短了1倍,并且加速期较PC约提早2h出现;而且诱导期和加速期之间,溶液中[Ca2+]浓度差明显小于PC的.这意味复合水泥加速期到来所需要的活化能比PC低;同时比PC较低的离子电导表明更多的大尺寸基团[AlO4]5-和[PO4]3-的存在,减缓了Ca2+的过度快速迁移,使其有充足的时间与OH-,[AlO4]5-和[PO4]3-结合生成水化产物.","authors":[{"authorName":"李仕群","id":"8f2ca668-162b-40b0-ab13-137c94a4b765","originalAuthorName":"李仕群"},{"authorName":"苏磊","id":"d0042ff5-db8f-4407-a128-b00279843ba8","originalAuthorName":"苏磊"},{"authorName":"翟国芳","id":"74114665-0563-4ab4-938b-2c38db95be0c","originalAuthorName":"翟国芳"},{"authorName":"衣朝华","id":"799e2873-ab7d-4059-93c5-f67a9f7b4dc6","originalAuthorName":"衣朝华"},{"authorName":"刘飚","id":"471716d2-1ccf-45ae-86c7-68e1de2cbdc2","originalAuthorName":"刘飚"},{"authorName":"胡佳山","id":"af925394-4083-4a55-b4c8-f595cc578a5e","originalAuthorName":"胡佳山"}],"doi":"10.3969/j.issn.1001-1625.2005.01.005","fpage":"20","id":"cd7c6f52-dd2d-4e70-929f-8cecb1d6a323","issue":"1","journal":{"abbrevTitle":"GSYTB","coverImgSrc":"journal/img/cover/GSYTB.jpg","id":"36","issnPpub":"1001-1625","publisherId":"GSYTB","title":"硅酸盐通报 "},"keywords":[{"id":"d32d7234-1fdf-400c-abe0-12dc92df620e","keyword":"复合磷铝酸盐-硅酸盐水泥","originalKeyword":"复合磷铝酸盐-硅酸盐水泥"},{"id":"caae1a60-4967-4070-85f6-140a158c0867","keyword":"早期水化特性","originalKeyword":"早期水化特性"},{"id":"7df33f7c-8c84-4245-9731-325f4463dd41","keyword":"外加剂","originalKeyword":"外加剂"},{"id":"02b046f9-7402-4450-adec-7a48e59a82b6","keyword":"浆体悬浮液","originalKeyword":"浆体悬浮液"}],"language":"zh","publisherId":"gsytb200501005","title":"复合磷铝酸盐-硅酸盐水泥的早期水化行为","volume":"24","year":"2005"},{"abstractinfo":"采用工业原料配制出具有良好耐高温性能的水硬性磷铝酸盐耐火水泥,研究了该水泥的高温体积收缩和抗压强度.结果表明,水泥中主要的耐高温相有新三元化合物L相、二元化合物CXP以及CA2,在1500℃,其抗压强度可高达60.7MPa.借助XRD和SEM分析了磷铝酸盐水泥的耐高温机理.","authors":[{"authorName":"李仕群","id":"bc61c338-6df0-4333-b9e6-6d8171bbee85","originalAuthorName":"李仕群"},{"authorName":"胡佳山","id":"95375bb3-c5e1-4564-8077-064b4d2cf1c5","originalAuthorName":"胡佳山"},{"authorName":"王琦","id":"34a5c33b-679f-4687-be93-26aaaa798b1a","originalAuthorName":"王琦"},{"authorName":"刘飚","id":"81ef3069-14b8-4a80-b0e7-2d3e67188932","originalAuthorName":"刘飚"},{"authorName":"周韬","id":"e91d52f5-6f99-42cc-b756-4b6d5002796d","originalAuthorName":"周韬"}],"doi":"10.3969/j.issn.1001-1625.2001.04.010","fpage":"45","id":"e6e37307-70dd-477c-9593-6eceaefbcf55","issue":"4","journal":{"abbrevTitle":"GSYTB","coverImgSrc":"journal/img/cover/GSYTB.jpg","id":"36","issnPpub":"1001-1625","publisherId":"GSYTB","title":"硅酸盐通报 "},"keywords":[{"id":"39328f98-0548-4bbf-aa41-76f4be9ce38a","keyword":"水硬性磷铝酸盐水泥","originalKeyword":"水硬性磷铝酸盐水泥"},{"id":"c13fcdfe-a303-4747-9803-2e7b6c8769b3","keyword":"高温性能","originalKeyword":"高温性能"},{"id":"0c6815b5-ea61-4f0b-8b24-13924cf6130e","keyword":"耐火机理","originalKeyword":"耐火机理"}],"language":"zh","publisherId":"gsytb200104010","title":"磷铝酸盐水泥耐高温性能的初步研究","volume":"20","year":"2001"},{"abstractinfo":"主要研究了纳米碳管对磷铝酸盐复合水泥增韧作用及对其力学性能的影响.结果表明:在用化学试剂通过溶胶-凝胶法制备的磷铝酸盐复合水泥中掺入质量分数为0.4%的纳米碳管,水泥浆体1 d,28 d的劈裂强度分别比同龄期未掺纳米碳管的试样提高24.24%,14.38%,抗弯强度1 d,28 d比同龄期未掺纳米碳管试样提高了60.09%、29.42%.掺纳米碳管试样1 d的断裂韧性提高了51.30%.SEM图像分析发现纳米碳管随机的分布在水泥基体中,与水泥基料产生较好的结合,基料水化和水化产物的形成及结晶过程中产生的应力可以通过增韧材料与基料间的界面吸收,同时可以有效地阻止裂纹的扩展,从而导致复合水泥的增强增韧.","authors":[{"authorName":"衣朝华","id":"5b8f9b11-9d9c-41bc-b320-6ee482ba16ef","originalAuthorName":"衣朝华"},{"authorName":"赵发伟","id":"bdeadcfa-99f7-4d41-ba6f-47a690ca774f","originalAuthorName":"赵发伟"},{"authorName":"李仕群","id":"90a21cd7-86e3-4b8d-85d3-128f259b2beb","originalAuthorName":"李仕群"},{"authorName":"苏磊","id":"a440b277-c88b-472d-8bda-a2ddc9974af9","originalAuthorName":"苏磊"},{"authorName":"苏啸","id":"4b02d07c-5d58-4b40-8d4f-f187d2b479ec","originalAuthorName":"苏啸"}],"doi":"10.3969/j.issn.1001-1625.2006.02.018","fpage":"70","id":"94ccd449-e1f1-4fc8-a954-5e663ea5a9eb","issue":"2","journal":{"abbrevTitle":"GSYTB","coverImgSrc":"journal/img/cover/GSYTB.jpg","id":"36","issnPpub":"1001-1625","publisherId":"GSYTB","title":"硅酸盐通报 "},"keywords":[{"id":"189bc9b2-5c78-49c0-abc5-9f8c89201191","keyword":"纳米碳管","originalKeyword":"纳米碳管"},{"id":"2215bbf4-9b75-4fe4-839a-380e286aa4b9","keyword":"磷铝酸盐复合水泥","originalKeyword":"磷铝酸盐复合水泥"},{"id":"f0313fd1-d33f-4172-b179-30e2adb4ad33","keyword":"力学性能","originalKeyword":"力学性能"}],"language":"zh","publisherId":"gsytb200602018","title":"纳米碳管对磷铝酸盐复合水泥性能的影响","volume":"25","year":"2006"}],"totalpage":1623,"totalrecord":16224}