{"currentpage":1,"firstResult":0,"maxresult":10,"pagecode":5,"pageindex":{"endPagecode":5,"startPagecode":1},"records":[{"abstractinfo":"探讨了等离子体影响扩压叶栅性能的机理,提出了一种考虑等离子体能量注入、可较全面评价等离子体改善叶栅流动所带来收益的损失评价方法。研究表明,等离子体可有效控制栅内流动分离、减小尾迹掺混,30kV电压下叶栅总压及能量损失分别减小12.3%和9.6%,同时等离子体也增加了壁面附近摩擦损失,分离区前施加流动控制时其效果变弱;等离子体影响叶栅流动的机制可归结为诱导作用区上游流体加速降压、在作用区内构造局部顺压力梯度以及增加电极附近的气流速度。","authors":[{"authorName":"刘华坪","id":"3a0b5651-0003-481e-9412-8f476bd44eb2","originalAuthorName":"刘华坪"},{"authorName":"陈焕龙","id":"f20ee17c-9284-4ca3-b9e2-4d04c47d78f1","originalAuthorName":"陈焕龙"},{"authorName":"陈浮","id":"7e979425-6f3a-4871-9f30-b5260a756b8f","originalAuthorName":"陈浮"},{"authorName":"俞建阳","id":"1a0f5126-dee8-4e5c-87cf-ea7c7aac5016","originalAuthorName":"俞建阳"}],"doi":"","fpage":"1299","id":"a2b83ab6-c146-4dde-b33a-44da20811eb8","issue":"8","journal":{"abbrevTitle":"GCRWLXB","coverImgSrc":"journal/img/cover/GCRWLXB.jpg","id":"32","issnPpub":"0253-231X","publisherId":"GCRWLXB","title":"工程热物理学报 "},"keywords":[{"id":"14c92c91-24a2-4f71-b095-cf5a5e3806a3","keyword":"等离子","originalKeyword":"等离子"},{"id":"6b840f23-93b9-4446-ad48-201e28dcdb29","keyword":"扩压叶栅","originalKeyword":"扩压叶栅"},{"id":"ca451db6-5dbe-4582-95d4-81e2bd332346","keyword":"流动分离","originalKeyword":"流动分离"},{"id":"c99755b5-8564-4f82-bd5e-c39805634314","keyword":"损失评价方法","originalKeyword":"损失评价方法"}],"language":"zh","publisherId":"gcrwlxb201108010","title":"等离子体对大折转角扩压叶栅性能的影响研究","volume":"32","year":"2011"},{"abstractinfo":"整体叶盘能够显著提高航空发动机性能.整体叶盘的质量是其在航空发动机中推广应用的重要因素.而组织均匀性是影响整体叶盘内在质量的关键因素之一.本文应用锻件内热力参数均匀性建立了基于Taguchi方法的损失函数,探索整体叶盘组织均匀性数值评价方法.应用所建立的损失函数以及TC11合金整体叶盘的锻造过程有限元数值模拟结果,对TC11合金整体叶盘组织均匀性进行了数值评价,并进行了实验验证.","authors":[{"authorName":"杨艳慧","id":"f4085ae4-7766-4f56-a750-2637ca664192","originalAuthorName":"杨艳慧"},{"authorName":"刘东","id":"1c36fd9a-69b1-4d8c-ab76-4431e2c581e1","originalAuthorName":"刘东"},{"authorName":"罗子健","id":"e7078105-beb4-4a4c-a8d7-51969d60fd72","originalAuthorName":"罗子健"}],"doi":"","fpage":"565","id":"5496ea53-fcb9-4510-9043-86c5e34dfdd5","issue":"4","journal":{"abbrevTitle":"XYJSCLYGC","coverImgSrc":"journal/img/cover/XYJSCLYGC.jpg","id":"69","issnPpub":"1002-185X","publisherId":"XYJSCLYGC","title":"稀有金属材料与工程"},"keywords":[{"id":"d671d3e6-5a12-4fff-b1b5-ee7b00f0b58d","keyword":"整体叶盘","originalKeyword":"整体叶盘"},{"id":"2e9920d0-d13b-4335-9d8f-420b6c07e4b2","keyword":"数值模拟","originalKeyword":"数值模拟"},{"id":"a06b95f7-71e8-42df-b53a-d45b17432a4f","keyword":"损失函数","originalKeyword":"损失函数"},{"id":"5f4f641a-ac44-4198-adb8-0068758347b2","keyword":"组织均匀性","originalKeyword":"组织均匀性"},{"id":"2aee1e68-70de-4b58-be97-73dd5cdbeb60","keyword":"Taguchi方法","originalKeyword":"Taguchi方法"}],"language":"zh","publisherId":"xyjsclygc201104001","title":"应用基于Taguchi方法建立的损失函数评价TC11整体叶盘锻件内组织均匀性","volume":"40","year":"2011"},{"abstractinfo":"鱼雷罐车在铁水运输过程中的温降严重影响产品质量和生产成本.目前对于鱼雷罐车运输过程温降的研究方法以模拟为主.本论文综述了前人对鱼雷罐车热损失影响因素的分析,总结了鱼雷罐车热损失的控制方法,并提出建立更加完整高效的在线控制模型是未来研究的主要方向.","authors":[{"authorName":"刘诗薇","id":"1e0449a4-7038-46d7-adea-5d978ae7e9da","originalAuthorName":"刘诗薇"},{"authorName":"于景坤","id":"149613d8-c756-43f1-97bc-1a2c288a137d","originalAuthorName":"于景坤"},{"authorName":"颜正国","id":"ba4193e5-beee-446c-a417-219aa30d8a91","originalAuthorName":"颜正国"},{"authorName":"刘涛","id":"09b41371-69c0-4d19-9886-1a352b8a2421","originalAuthorName":"刘涛"}],"doi":"10.3969/j.issn.1671-6620.2010.03.001","fpage":"159","id":"e5f3c506-15c7-4c8a-81e4-5764138b3141","issue":"3","journal":{"abbrevTitle":"CLYYJXB","coverImgSrc":"journal/img/cover/CLYYJXB.jpg","id":"17","issnPpub":"1671-6620","publisherId":"CLYYJXB","title":"材料与冶金学报"},"keywords":[{"id":"1d30f5d1-ce6a-41a9-b904-2b9305df8523","keyword":"鱼雷罐车","originalKeyword":"鱼雷罐车"},{"id":"d18826e0-6abd-40b0-bdb2-20a07b62c938","keyword":"热损失","originalKeyword":"热损失"},{"id":"23812b62-0f62-476b-aac0-160517b0ba24","keyword":"耐火材料","originalKeyword":"耐火材料"}],"language":"zh","publisherId":"clyyjxb201003001","title":"鱼雷罐车热量损失的影响因素及控制方法","volume":"09","year":"2010"},{"abstractinfo":"初步探讨了水泥行业清洁生产定量化评价方法和评价指标,进行了定量评价.以某水泥企业清洁生产评价为例提出了该企业清洁生产审核重点确定的建议.","authors":[{"authorName":"李富平","id":"68725584-0933-4f5a-bf30-5dc0b2d35a12","originalAuthorName":"李富平"},{"authorName":"吴自民","id":"f21ca99f-dce9-4337-822a-f7111bd160db","originalAuthorName":"吴自民"},{"authorName":"李良玉","id":"e4bd0ec2-d05c-4af4-9383-219fc59b2a16","originalAuthorName":"李良玉"},{"authorName":"鲁明星","id":"85608d29-7c80-4b66-a577-a0af1a39e484","originalAuthorName":"鲁明星"}],"doi":"10.3969/j.issn.1001-1625.2007.02.022","fpage":"320","id":"9079577e-578c-4899-8e61-6c11cf04796c","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":"0864f92e-2e75-4250-b92d-00a29158de3b","keyword":"清洁生产评价","originalKeyword":"清洁生产评价"},{"id":"96935370-50d5-4500-be08-c9e459da1ac8","keyword":"水泥行业","originalKeyword":"水泥行业"},{"id":"26a69fbc-976e-47a7-9356-219ef70f3094","keyword":"清洁生产审核","originalKeyword":"清洁生产审核"}],"language":"zh","publisherId":"gsytb200702022","title":"水泥行业清洁生产评价方法初探","volume":"26","year":"2007"},{"abstractinfo":"对采矿方法的经济评价方法进行了讨论,并建立了经济评价采矿方法的数学模型,为企业选择最佳效益的采矿方法提供了依据.","authors":[{"authorName":"宋喜国","id":"46b6cfcf-42bd-4f1a-9e03-e37a55f5b4e9","originalAuthorName":"宋喜国"},{"authorName":"贺所明","id":"04e9692b-1f4a-4113-b3b9-6bda7572b66e","originalAuthorName":"贺所明"}],"doi":"10.3969/j.issn.1001-1277.2004.09.008","fpage":"24","id":"f27dd413-b926-41df-a527-01e636ff7ab7","issue":"9","journal":{"abbrevTitle":"HJ","coverImgSrc":"journal/img/cover/HJ.jpg","id":"44","issnPpub":"1001-1277","publisherId":"HJ","title":"黄金"},"keywords":[{"id":"03733fae-24b6-4e05-8c7d-de0e0612647b","keyword":"采矿方法","originalKeyword":"采矿方法"},{"id":"3a307d52-aee8-416c-afc8-5d0e5e6cec0d","keyword":"经济评价","originalKeyword":"经济评价"},{"id":"b77dadc8-e2a0-4930-89ae-2815146b7f40","keyword":"矿块收入","originalKeyword":"矿块收入"},{"id":"ae17e5be-9964-46ba-88ed-130793f89221","keyword":"矿块成本","originalKeyword":"矿块成本"}],"language":"zh","publisherId":"huangj200409008","title":"采矿方法的经济评价","volume":"25","year":"2004"},{"abstractinfo":"为了减小可调导叶端壁间隙引起泄露损失,在导叶两端分别增加一个圆盘,圆盘分别嵌入到机匣和轮毂内,导叶附近的机匣和轮毂设计为同心球面,圆盘在流道内的表面分别与机匣和轮毂共球面,同时导叶的旋转轴过球心,保证了导叶旋转时流道保持一致.通过数值模拟的方法对比分析了导叶两端增加圆盘设计与导叶两端无间隙和全间隙时涡轮的性能,结果表明:导叶两端增加圆盘设计可明显减小可调导叶端壁间隙引起的泄露损失,提高涡轮的性能.","authors":[{"authorName":"潘波","id":"5dc00b50-87be-4a92-ae6e-c9c126c4ff30","originalAuthorName":"潘波"},{"authorName":"陶海亮","id":"96e07534-90f5-4894-a67f-c633905afce2","originalAuthorName":"陶海亮"},{"authorName":"赵洪雷","id":"8cd05bad-82a2-4641-855c-92e66c132c75","originalAuthorName":"赵洪雷"},{"authorName":"谭春青","id":"62874651-e1ea-41dc-aa72-35ad6c5d8162","originalAuthorName":"谭春青"}],"doi":"","fpage":"618","id":"9be38240-72a6-4631-9289-9f9724a7a0e1","issue":"4","journal":{"abbrevTitle":"GCRWLXB","coverImgSrc":"journal/img/cover/GCRWLXB.jpg","id":"32","issnPpub":"0253-231X","publisherId":"GCRWLXB","title":"工程热物理学报 "},"keywords":[{"id":"e0bfe68a-f7fd-482b-a37d-eb1c667b5487","keyword":"可调导叶","originalKeyword":"可调导叶"},{"id":"07667bdb-21da-460d-a6e9-480a0e9e3296","keyword":"泄漏损失","originalKeyword":"泄漏损失"},{"id":"3d8ed9a2-ad1b-48d4-99e9-767123da380d","keyword":"涡轮","originalKeyword":"涡轮"}],"language":"zh","publisherId":"gcrwlxb201304008","title":"可调导叶端壁间隙泄漏损失控制方法研究","volume":"34","year":"2013"},{"abstractinfo":"运用价值工程的理论和定量评价的方法,介绍了一种简便、直观而科学的选择材料及其热处理方案的方法.","authors":[{"authorName":"郭俊杰","id":"45bbd3d6-ce75-4fd3-aed9-08cb56e5ab9f","originalAuthorName":"郭俊杰"}],"doi":"10.3969/j.issn.1003-1545.2000.03.013","fpage":"43","id":"b84eb95a-94d0-4e84-a772-5fa94ca31fac","issue":"3","journal":{"abbrevTitle":"CLKFYYY","coverImgSrc":"journal/img/cover/CLKFYYY.jpg","id":"10","issnPpub":"1003-1545","publisherId":"CLKFYYY","title":"材料开发与应用"},"keywords":[{"id":"652dc24b-31cc-45e8-877b-6b078600e961","keyword":"选材","originalKeyword":"选材"},{"id":"5f4490f7-b3d9-45ca-9158-7c21fafa0d30","keyword":"热处理","originalKeyword":"热处理"},{"id":"050fbaf6-2393-469c-b039-41633b912bff","keyword":"价值工程","originalKeyword":"价值工程"},{"id":"615ac6ad-9d24-4f47-a144-0cc412b3f4c7","keyword":"定量评价","originalKeyword":"定量评价"}],"language":"zh","publisherId":"clkfyyy200003013","title":"定量评价选择材料的方法","volume":"15","year":"2000"},{"abstractinfo":"膜的生物污染是目前影响膜性能的一种主要污染类型,生物污染是膜污染中最难清洗和控制的.通过构建抗菌性表面抑制生物污染,成为抑制膜生物污染形成的有效手段,目前有很多评价膜抗菌性的方法,但尚没有一个规范统一的评价方法去评价膜的抗菌性能,本文详细阐述了目前应用较多的抑菌圈法、贴膜法、浸渍培养法、扫描电镜法、荧光显微镜法、生物污染强化实验等评价方法,并提出应建立一种科学、合理、容易操作的标准抗菌性测试方法.","authors":[{"authorName":"于慧","id":"ef837afb-3443-46c0-bfb9-0c755aeefef6","originalAuthorName":"于慧"},{"authorName":"张梦","id":"2f7fa0ff-4d48-4ccd-9125-50fe64d34522","originalAuthorName":"张梦"},{"authorName":"宋杰","id":"4da3c7b3-4a8c-4fb0-9350-6361b5defb0e","originalAuthorName":"宋杰"},{"authorName":"李强","id":"2ab40389-0908-4833-bd15-103747ab6933","originalAuthorName":"李强"},{"authorName":"吴非洋","id":"10d8d6cc-9cb2-41c0-a24c-bdfb83202df4","originalAuthorName":"吴非洋"},{"authorName":"潘献辉","id":"5a3ec411-f32a-453f-9e88-7f7aae90c404","originalAuthorName":"潘献辉"}],"doi":"10.16159/j.cnki.issn1007-8924.2015.04.021","fpage":"123","id":"6a1413ae-6940-429b-86a4-82149cff77ba","issue":"4","journal":{"abbrevTitle":"MKXYJS","coverImgSrc":"journal/img/cover/MKXYJS.jpg","id":"54","issnPpub":"1007-8924","publisherId":"MKXYJS","title":"膜科学与技术 "},"keywords":[{"id":"df065f81-df35-4ee8-8808-4bdd7d08ef53","keyword":"膜","originalKeyword":"膜"},{"id":"3992e8eb-efc8-45b5-abaa-ce16f9307647","keyword":"抗菌性","originalKeyword":"抗菌性"},{"id":"af924032-a530-430b-af46-9bb7a8da4790","keyword":"抑菌圈法","originalKeyword":"抑菌圈法"},{"id":"4594ac48-8764-4f2f-9bd9-0b76e6e4f532","keyword":"贴膜法","originalKeyword":"贴膜法"},{"id":"f0bca6f7-f684-44ed-ae2a-ddc1a1ac7e75","keyword":"浸渍培养法","originalKeyword":"浸渍培养法"},{"id":"22e98152-e4bf-41bf-b3ed-3488a023211c","keyword":"电镜观察法","originalKeyword":"电镜观察法"},{"id":"1e7a40b0-016c-4e6b-806a-7c61dbb5cf93","keyword":"荧光显微镜法","originalKeyword":"荧光显微镜法"}],"language":"zh","publisherId":"mkxyjs201504021","title":"膜抗菌性评价方法概述","volume":"35","year":"2015"},{"abstractinfo":"单晶表面加工损伤是衡量工艺水平以及单晶片质量的一个主要参数.综述对单晶表面加工损伤进行分析评价的各种方法,对各种分析方法的基本原理、主要特点及应用做了概要介绍.由于单晶表面损伤以及表面残余应力存在一定的梯度及各种表征方法的作用机理、作用深度不尽相同,因此不同的评价方法对同一样品的分析往往会出现差异.根据不同的分析目的,给出了选择分析手段的建议.","authors":[{"authorName":"彭晶","id":"ae7e5a92-19bb-4e37-a376-d1245b03dd79","originalAuthorName":"彭晶"},{"authorName":"包生祥","id":"0f2689ba-88ce-47cf-b860-35114503723d","originalAuthorName":"包生祥"},{"authorName":"马丽丽","id":"614382d8-c989-426b-9ccc-f3488477deda","originalAuthorName":"马丽丽"}],"doi":"","fpage":"101","id":"ca6f1b43-a0db-4903-b0ab-3f11f9ca9ee9","issue":"9","journal":{"abbrevTitle":"CLDB","coverImgSrc":"journal/img/cover/CLDB.jpg","id":"8","issnPpub":"1005-023X","publisherId":"CLDB","title":"材料导报"},"keywords":[{"id":"b79c048e-2b6b-4931-b0e7-57aae9af1690","keyword":"单晶","originalKeyword":"单晶"},{"id":"b961692a-7f45-4f04-8acc-b24f6c035907","keyword":"表面损伤层","originalKeyword":"表面损伤层"},{"id":"77390251-2273-4ec3-9a8c-5fc45f8a592f","keyword":"分析评价","originalKeyword":"分析评价"}],"language":"zh","publisherId":"cldb200609027","title":"单晶表面加工损伤的评价方法","volume":"20","year":"2006"},{"abstractinfo":"对覆铜板导热性能评价方法进行了比较,提出了一种通过模拟发热元件贴装在线路板进行导热型覆铜板热阻测量的新方法.实验测试表明,该方法原理简单,易于操作,而且测试精度较高,是对覆铜板性能测试方法的一个补充,具有较大的推广应用价值.","authors":[{"authorName":"韩讲周","id":"27b3426a-90ee-466c-9e49-aa8d7d55bf0f","originalAuthorName":"韩讲周"},{"authorName":"宁铎","id":"9a1a2d9e-bfc7-4b85-aa27-e2729732f422","originalAuthorName":"宁铎"}],"doi":"10.3969/j.issn.1009-9239.2006.06.018","fpage":"62","id":"baf18b4f-66d5-4600-9d77-93d0f9a22719","issue":"6","journal":{"abbrevTitle":"JYCL","coverImgSrc":"journal/img/cover/JYCL.jpg","id":"50","issnPpub":"1009-9239","publisherId":"JYCL","title":"绝缘材料"},"keywords":[{"id":"455b5ad0-a1bf-4fef-9275-e6cf6163b84c","keyword":"覆铜板","originalKeyword":"覆铜板"},{"id":"b7df0a42-6c6f-4986-b035-454e79ba171c","keyword":"热阻","originalKeyword":"热阻"},{"id":"bd90fc6d-470d-479e-83e1-faf411d8ea3e","keyword":"测量","originalKeyword":"测量"}],"language":"zh","publisherId":"jycltx200606018","title":"覆铜板导热性评价方法","volume":"39","year":"2006"}],"totalpage":5886,"totalrecord":58855}