{"currentpage":1,"firstResult":0,"maxresult":10,"pagecode":5,"pageindex":{"endPagecode":1,"startPagecode":1},"records":[{"abstractinfo":"涂料涂刷后释放的总挥发性有机物(<span style=\"color:red\">TVOC</span>)是造成室内空气污染的原因之一,水性内墙涂料作为内墙涂料行业发展的趋势和方向,其<span style=\"color:red\">TVOC</span>的释放有待研究,检测时的评价时间点也有待确定.本研究对市场上主要水性内墙涂料产品进行<span style=\"color:red\">TVOC</span>释放量测定,考察其<span style=\"color:red\">TVOC</span>释放水平;利用不同实验室的环境测试舱,研究添加不同成膜助剂水性涂料的<span style=\"color:red\">TVOC</span>释放特性;并通过对不同种类水性内墙涂料<span style=\"color:red\">TVOC</span>释放量的研究,确定利用环境测试舱法评价水性内墙涂料<span style=\"color:red\">TVOC</span>释放量的最佳评价时间点.","authors":[{"authorName":"谢义师","id":"81226b39-0a4a-48e3-b006-9cf1d829188f","originalAuthorName":"谢义师"},{"authorName":"胡晓珍","id":"e3816cb0-b688-407c-ae47-39b367084153","originalAuthorName":"胡晓珍"},{"authorName":"沈学宁","id":"78d2109a-a84f-4088-a0c3-12c725809fe7","originalAuthorName":"沈学宁"},{"authorName":"杨勇","id":"2b69c1cb-7344-418e-b837-7daacf960406","originalAuthorName":"杨勇"},{"authorName":"任彬彬","id":"9f216e50-16aa-4b00-ae49-e94bec81f45f","originalAuthorName":"任彬彬"}],"doi":"","fpage":"38","id":"5b0b0916-8b85-4c93-abd1-be823b554b1b","issue":"1","journal":{"abbrevTitle":"TLGY","coverImgSrc":"journal/img/cover/TLGY.jpg","id":"61","issnPpub":"0253-4312","publisherId":"TLGY","title":"涂料工业   "},"keywords":[{"id":"cb657325-53b1-4ea6-aaf8-e036cd2757b0","keyword":"水性涂料","originalKeyword":"水性涂料"},{"id":"afc849a6-b1d8-4ab1-885a-7f84198c9da0","keyword":"<span style=\"color:red\">TVOC</span>","originalKeyword":"TVOC"},{"id":"62322a45-b935-4dfe-9df9-d77845ad99ee","keyword":"环境测试舱","originalKeyword":"环境测试舱"}],"language":"zh","publisherId":"tlgy201601008","title":"小型环境舱法对水性内墙涂料<span style=\"color:red\">TVOC</span>释放的研究","volume":"46","year":"2016"},{"abstractinfo":"针对国内室内空气质量差,内墙涂料产品<span style=\"color:red\">TVOC</span>释放性能测试标准的空白,研制了60 L小型环境舱应用于室内涂料<span style=\"color:red\">TVOC</span>释放量的检测,舱体性能优良并已通过计量;参考国外标准探讨了利用环境舱模拟室内环境测定内墙涂料<span style=\"color:red\">TVOC</span>释放量的标准方法,通过实验确定了关键参数,并选用不同配方样品以该标准方法进行验证试验.结果证明:该方法可以判断内墙涂料的<span style=\"color:red\">TVOC</span>释放性能的优劣,并具有良好的可操作s性和可靠性,对我国内墙涂料<span style=\"color:red\">TVOC</span>释放量检测标准的建立具有很好的参考价值.同时得出<span style=\"color:red\">TVOC</span>与VOC之间没有确定的相关性.","authors":[{"authorName":"胡晓珍","id":"962a52e2-f266-45f9-a2b4-e6a2b3c90c11","originalAuthorName":"胡晓珍"}],"doi":"","fpage":"47","id":"4d68f47d-4398-465d-9fd7-c87ab078d38f","issue":"5","journal":{"abbrevTitle":"TLGY","coverImgSrc":"journal/img/cover/TLGY.jpg","id":"61","issnPpub":"0253-4312","publisherId":"TLGY","title":"涂料工业   "},"keywords":[{"id":"0046004c-95d3-44fb-a389-7d608dd3b2c4","keyword":"环境舱","originalKeyword":"环境舱"},{"id":"46f6f575-0978-4b3e-a310-a95350468602","keyword":"<span style=\"color:red\">TVOC</span>","originalKeyword":"TVOC"},{"id":"fccea72f-857f-4243-8030-b1914f03bf02","keyword":"释放量","originalKeyword":"释放量"},{"id":"b0893a63-7280-42bc-9548-57262576322a","keyword":"室内空气质量","originalKeyword":"室内空气质量"},{"id":"956196f3-03eb-4d91-8282-3508b3a57719","keyword":"内墙涂料","originalKeyword":"内墙涂料"}],"language":"zh","publisherId":"tlgy201505011","title":"内墙涂料总挥发性有机化合物(<span style=\"color:red\">TVOC</span>)释放量的标准检测方法探讨","volume":"45","year":"2015"},{"abstractinfo":"","authors":[{"authorName":"","id":"701dfb16-d18b-4f02-8c3f-06b821aea175","originalAuthorName":""},{"authorName":"","id":"c024ad8d-f0c9-4a9a-97ee-5aff4315b83a","originalAuthorName":""},{"authorName":"","id":"78314781-0349-45fe-b7d9-a4107da5b9c1","originalAuthorName":""},{"authorName":"","id":"f4aa7210-d439-478f-bb7d-1ae3e8245f79","originalAuthorName":""}],"doi":"10.1007/sl1595-012-0420-8","fpage":"120","id":"360a80e9-b03a-4d9a-82fa-1009514ec57c","issue":"1","journal":{"abbrevTitle":"WHLGDXXBCLKXBYWB","coverImgSrc":"journal/img/cover/20081008102608458.jpg","id":"63","issnPpub":"1000-2413","publisherId":"WHLGDXXBCLKXBYWB","title":"武汉理工大学学报-材料科学版(英文版)"},"keywords":[{"id":"a29e89ac-997c-4279-829a-efef6e1384c9","keyword":"","originalKeyword":""}],"language":"zh","publisherId":"whgydxxb-e201201024","title":"Measurements of Formaldehyde and <span style=\"color:red\">TVOC</span> Emission from Paints and Coating Materials using Small Chamber Method for Building Composites","volume":"","year":"2012"},{"abstractinfo":"为了解儿童住宅室内环境污染现状，于2013—2014年，分别在上海、北京、大连、长沙和武汉，对8—12岁儿童家庭室内空气中甲醛、乙醛和总挥发性有机化合物（ <span style=\"color:red\">TVOC</span>）浓度进行检测．统计分析表明，不同城市住宅室内空气中甲醛、乙醛和<span style=\"color:red\">TVOC</span>浓度存在显著性差异性（P＜0．01），冬春季，大连和北京住宅室内空气中甲醛平均浓度高于上海、长沙和武汉．夏秋季住宅客厅和儿童卧室内空气中甲醛和乙醛浓度均高于冬春季（P＜0．01）．在夏秋季，上海和大连儿童卧室内空气中甲醛浓度超标率分别为15．8％和20％，上海住宅客厅和儿童卧室内空气中乙醛浓度超标率分别为5．3％和10．5％．","authors":[{"authorName":"樊广涛","id":"86f7b984-2b03-420a-929a-dc03d12bd930","originalAuthorName":"樊广涛"},{"authorName":"谢静超","id":"cefa7472-aa54-4ef2-97bd-afabe73cb44c","originalAuthorName":"谢静超"},{"authorName":"吉野博","id":"91db741f-4885-4563-b2ea-57960908a50e","originalAuthorName":"吉野博"},{"authorName":"李振海","id":"bedab160-3cf8-4e77-bdac-0e7375f01236","originalAuthorName":"李振海"},{"authorName":"张会波","id":"d6b7c580-a728-4e4e-b887-0599298404f1","originalAuthorName":"张会波"},{"authorName":"李念平","id":"c1797835-e6b6-4ce9-a1d8-a11fe1de213c","originalAuthorName":"李念平"},{"authorName":"吕阳","id":"7f18c8f8-f36b-4869-9e13-4bd59a6ea891","originalAuthorName":"吕阳"},{"authorName":"朱晟伟","id":"9dcbdfe5-0e04-4535-97b1-df48e5acfbac","originalAuthorName":"朱晟伟"},{"authorName":"刘加平","id":"506aba1d-a43f-4460-994f-781de8d7ce7f","originalAuthorName":"刘加平"}],"doi":"10.7524/j.issn.0254-6108.2015.06.2015030403","fpage":"1215","id":"e05b9aee-4ece-4cfc-b540-be721634f7c0","issue":"6","journal":{"abbrevTitle":"HJHX","coverImgSrc":"journal/img/cover/HJHX.jpg","id":"43","issnPpub":"0254-6108","publisherId":"HJHX","title":"环境化学   "},"keywords":[{"id":"2433c34c-ad12-4b04-8daf-0d58351cac7e","keyword":"住宅","originalKeyword":"住宅"},{"id":"ab864610-d13c-42e9-aeec-f6b3965f7056","keyword":"甲醛","originalKeyword":"甲醛"},{"id":"bbe6342a-4b51-4717-b4c4-b9c31b0e12c1","keyword":"乙醛","originalKeyword":"乙醛"},{"id":"9a5084c1-883e-44d8-bee9-d3d15e124c83","keyword":"总挥发性有机化合物","originalKeyword":"总挥发性有机化合物"}],"language":"zh","publisherId":"hjhx201506025","title":"中国5个城市儿童家庭室内空气中甲醛、乙醛及总挥发性有机化合物浓度调查分析?","volume":"","year":"2015"},{"abstractinfo":"研究北京市室内空气污染特征,以了解新装修居室空气污染状况,并探讨其影响因素,为控制室内空气污染提供科学依据.本研究对2007年1月-2015年12月北京市新装修在12个月以内的390套居民住宅和47个办公场所,共2478个房间进行室内空气中甲醛、总挥发性有机物(<span style=\"color:red\">TVOC</span>),苯及甲苯、二甲苯、氨、氡的检测.结果表明,所有监测房间中,空气中甲醛超标率分别为50.8％,最高浓度超标12.9倍;<span style=\"color:red\">TVOC</span>超标率为76.3％,最高浓度超标55.8倍,苯、甲苯和二甲苯超标率分别为1.8％、22.9％和26.9％,最高浓度分别为超标4.5倍、32.6倍、57.9倍;氨超标率为0.09％,最高浓度超标3.4倍;氡无超标.北京市因装修导致的室内空气污染较为严重,应采取适当的污染防治措施,减少室内环境污染对人体产生的损害.","authors":[{"authorName":"吕天峰","id":"5bcc3425-14ac-48ca-8691-f9f19725c645","originalAuthorName":"吕天峰"},{"authorName":"袁懋","id":"4954d25a-4487-41d8-a466-9ad551b65e88","originalAuthorName":"袁懋"},{"authorName":"吕怡兵","id":"d49dad81-4cd6-41be-9f69-7e14f8c4fcf0","originalAuthorName":"吕怡兵"},{"authorName":"薛荔栋","id":"f0311dfe-b135-49f5-a161-8755a92b3303","originalAuthorName":"薛荔栋"}],"doi":"10.7524/j.issn.0254-6108.2016.10.2016052102","fpage":"2191","id":"17edb422-0e95-4d6e-9c65-f6da66e58471","issue":"10","journal":{"abbrevTitle":"HJHX","coverImgSrc":"journal/img/cover/HJHX.jpg","id":"43","issnPpub":"0254-6108","publisherId":"HJHX","title":"环境化学   "},"keywords":[{"id":"3e15baff-3c47-4a31-9a2b-3e6587226cdb","keyword":"室内装修","originalKeyword":"室内装修"},{"id":"85ec5502-f4a5-40a8-a853-019a218b2c7d","keyword":"室内空气污染","originalKeyword":"室内空气污染"},{"id":"c683783b-c5f7-4c02-9eef-dcaec08745bf","keyword":"防治","originalKeyword":"防治"}],"language":"zh","publisherId":"hjhx201610024","title":"2007-2015年北京市室内环境空气污染状况及防治措施","volume":"35","year":"2016"},{"abstractinfo":"采用硬脂酸和PEG对纳米二氧化钛进行表而修饰,将改性的纳米TiO2以一定的比例加入到成膜物质中制成一系列涂料样晶,然后测定其流变性,甲醛含量,抗菌性能,<span style=\"color:red\">TVOC</span>含量等,并采用X-衍射和透射电子显微镜观察其微观结构,结果表明:表面修饰后的纳米TiO2的晶型和品粒有所改变,制得的复合涂料触变指数TI为2,13和1,67,甲醛降解率达到98%,抗菌圈半径也由原米的0,75 cm提高到了2,4 cm.","authors":[{"authorName":"才红","id":"2dafffd4-61ff-4521-a44e-79519f2207ad","originalAuthorName":"才红"}],"doi":"10.3969/j.issn.0253-4312.2008.12.013","fpage":"45","id":"d2626c12-97e7-4d6d-95ab-60919f7cb241","issue":"12","journal":{"abbrevTitle":"TLGY","coverImgSrc":"journal/img/cover/TLGY.jpg","id":"61","issnPpub":"0253-4312","publisherId":"TLGY","title":"涂料工业   "},"keywords":[{"id":"33591024-dd22-40f6-820e-3f49afc1ec07","keyword":"纳米二氧化钛","originalKeyword":"纳米二氧化钛"},{"id":"80c18ef6-5367-47f0-b85c-6449754a186b","keyword":"流变性","originalKeyword":"流变性"},{"id":"c3f6182e-0ef3-466f-a840-97af2d01d6be","keyword":"降解甲醛","originalKeyword":"降解甲醛"},{"id":"1efe3d6c-bd4b-48a8-aa36-591b867dfb99","keyword":"抗菌性能","originalKeyword":"抗菌性能"},{"id":"a596401e-13e3-4a79-9fe3-94e707706ee3","keyword":"X-衍射","originalKeyword":"X-衍射"}],"language":"zh","publisherId":"tlgy200812013","title":"纳米TiO2的表面改性及其在涂料中的应用","volume":"38","year":"2008"},{"abstractinfo":"通过检测汽车内饰材料在室温(25℃)条件下放置不同时间后的VOC浓度得出VOC的衰减规律.材料中的甲苯、甲醛和乙醛都可以衰减至约20μ g/m3,但呈现衰减速率随不同材料而异.进而分析了甲苯、<span style=\"color:red\">TVOC</span>、甲醛、乙醛等物质的衰减规律差异性:苯类VOC的衰减速率要小于醛类VOC的衰减速率,而醛类中的乙醛衰减速率要大于甲醛的衰减速率.该研究为后续低VOC车用内饰材料的开发以及VOC加速衰减的研究提供参考.","authors":[{"authorName":"杨波","id":"009dfb4e-4b6d-408f-9e11-c7105de1346c","originalAuthorName":"杨波"},{"authorName":"彭莉","id":"05fe8547-d7e3-4023-8dd6-bd5b42f1f93d","originalAuthorName":"彭莉"},{"authorName":"李振华","id":"2d418fca-402a-448a-a2d5-610a05c291bc","originalAuthorName":"李振华"},{"authorName":"罗忠富","id":"def71cdd-9d5c-4282-8f9e-276d0d2fa698","originalAuthorName":"罗忠富"},{"authorName":"姚程","id":"ca58c4f6-0e04-436d-8fac-1ea1d640eacd","originalAuthorName":"姚程"},{"authorName":"吴国锋","id":"9918e123-5a1f-4453-8dbd-5ee9342efccd","originalAuthorName":"吴国锋"},{"authorName":"马金成","id":"f1689c61-412c-41a2-bf76-9c36fcc53892","originalAuthorName":"马金成"}],"doi":"","fpage":"1","id":"2890d0c8-92c7-4e9c-9eac-aa060cc4b34a","issue":"2","journal":{"abbrevTitle":"HCCLLHYYY","coverImgSrc":"journal/img/cover/HCCLLHYYY.jpg","id":"42","issnPpub":"1671-5381","publisherId":"HCCLLHYYY","title":"合成材料老化与应用"},"keywords":[{"id":"7465fb58-ccaa-4194-800c-1478a21d30e2","keyword":"汽车内饰聚丙烯材料","originalKeyword":"汽车内饰聚丙烯材料"},{"id":"75da5357-cda5-4cd9-95ba-39fac5e1f477","keyword":"挥发性有机物(VOC)","originalKeyword":"挥发性有机物(VOC)"},{"id":"12eaa77f-ed6c-4699-abd1-950855e44cbf","keyword":"衰减","originalKeyword":"衰减"}],"language":"zh","publisherId":"hccllhyyy201702001","title":"汽车内饰聚丙烯材料VOC产生和自然衰减研究","volume":"46","year":"2017"},{"abstractinfo":"低浓度、高毒性的挥发性有机化合物(VOC)污染大气,造成\"病态建筑综合症(SBS)\",严重威胁着人们的身体健康.空气中的负离子除有利于人体生理健康以外,还能有效分解空气中的VOC.将一种负离子添加剂添加到墙体涂料中,可以得到一种能有效释放负离子的涂料.本文测试了涂刷负离子添加剂涂料的测试小室中负离子分解总挥发性有机化合物(<span style=\"color:red\">TVOC</span>)及甲醛的性能,结果证明:涂料释放的负离子能有效分解VOC,使室内VOC的浓度在较短时间内满足GB/T-18883-2002的要求.","authors":[{"authorName":"丁云飞","id":"6cd9c378-9d8f-4b2c-81a4-121138df71e1","originalAuthorName":"丁云飞"},{"authorName":"王高飞","id":"fd4b0383-6be3-4a86-9bfb-a62ebd1c37c1","originalAuthorName":"王高飞"},{"authorName":"陈延东","id":"7076cc71-41bd-4767-9fe5-45f7b6be8128","originalAuthorName":"陈延东"},{"authorName":"周毅","id":"4d0dfe82-3b7e-4e31-a12c-d2603fb2eb38","originalAuthorName":"周毅"}],"doi":"10.3969/j.issn.0253-4312.2006.02.013","fpage":"49","id":"3a392f93-7131-4257-b06e-88e5248f4d68","issue":"2","journal":{"abbrevTitle":"TLGY","coverImgSrc":"journal/img/cover/TLGY.jpg","id":"61","issnPpub":"0253-4312","publisherId":"TLGY","title":"涂料工业   "},"keywords":[{"id":"3e555fb5-3872-4903-a1f5-8d5217d7b3d4","keyword":"总挥发性有机化合物","originalKeyword":"总挥发性有机化合物"},{"id":"b21462a7-6e1b-4e3f-9755-42b20ba4e821","keyword":"甲醛","originalKeyword":"甲醛"},{"id":"739cd882-14f0-4586-a0eb-ba803d76d35d","keyword":"负离子","originalKeyword":"负离子"},{"id":"f8a8e04c-9b4a-4cca-af08-3af5dec2690d","keyword":"涂料","originalKeyword":"涂料"},{"id":"0a9de192-6816-45bb-820d-1e208a92f420","keyword":"毒性","originalKeyword":"毒性"}],"language":"zh","publisherId":"tlgy200602013","title":"负离子分解室内有机化合物的测试","volume":"36","year":"2006"}],"totalpage":1,"totalrecord":8}