{"currentpage":1,"firstResult":0,"maxresult":10,"pagecode":5,"pageindex":{"endPagecode":5,"startPagecode":1},"records":[{"abstractinfo":"本文详细介绍了在微波频段,高阻硅衬底上的超导共面波导谐振腔的研究,包括设计方法、制备流程、实验测量和数据分析,并且对NbN和Nb两种材料进行了实验对比.由于超导体中动态电感的存在,我们还对两种超导材料在不同厚度的情况下进行了测量,并且与理论计算结果进行了比较.","authors":[{"authorName":"康壮","id":"0e1d3fae-3f19-463b-b3fb-6412ba0bbfa8","originalAuthorName":"康壮"},{"authorName":"杜之璨","id":"e2da36e5-8551-4c8b-908f-e570c6db9b4e","originalAuthorName":"杜之璨"},{"authorName":"孙国柱","id":"6aea3798-70ba-4f97-83e5-84d515c8f7fd","originalAuthorName":"孙国柱"},{"authorName":"曹春海","id":"52e562ef-d515-419d-bd01-f890942f4a96","originalAuthorName":"曹春海"},{"authorName":"房玉荣","id":"e752318a-e660-4b4b-b7e4-792559f8e6fb","originalAuthorName":"房玉荣"},{"authorName":"顾敏","id":"e197ffc0-eddf-4145-9f21-10645d16bd6c","originalAuthorName":"顾敏"},{"authorName":"翟计全","id":"055acf8a-a3ee-482d-929d-fbab296df7d6","originalAuthorName":"翟计全"},{"authorName":"吴培亨","id":"5cfdf2e5-9450-4959-8e6c-03d7d66a061e","originalAuthorName":"吴培亨"}],"doi":"","fpage":"109","id":"48fbac48-da62-4280-a183-219a85ae3937","issue":"2","journal":{"abbrevTitle":"DWWLXB","coverImgSrc":"journal/img/cover/DWWLXB.jpg","id":"19","issnPpub":"1000-3258","publisherId":"DWWLXB","title":"低温物理学报 "},"keywords":[{"id":"d3cdd412-c7f1-4a43-bad3-ac206052387b","keyword":"共面波导谐振腔","originalKeyword":"共面波导谐振腔"},{"id":"a96055e9-b9b6-48a1-99c6-2a51f67762bd","keyword":"超导","originalKeyword":"超导"},{"id":"c3a74edc-17af-4496-b492-edeeb45f41ff","keyword":"动态电感","originalKeyword":"动态电感"},{"id":"2605208d-df29-4bb3-b342-b67220092684","keyword":"微波","originalKeyword":"微波"}],"language":"zh","publisherId":"dwwlxb201302005","title":"基于高阻硅衬底的超导共面波导谐振腔及其动态电感分析","volume":"35","year":"2013"},{"abstractinfo":"采用喷射共沉积方法制备了6013Al/SiCp/Gr 混杂金属基复合材料(MMC),研究了其阻尼性能.结果表明:该材料在150~200℃有一温度内耗峰,随频率增加该峰峰位向高温移动.升降温测得该内耗峰的激活能分别为2.21eV和1.27eV,且降温测试时出现的内耗峰与升温测试时的内耗峰相比,峰位显著向低温移动,峰高降低.分析认为,该峰为非线性弛豫型内耗峰,它是在热与应力的双重作用下,由位错拖曳点缺陷运动所致,符合位错诱生阻尼机制.","authors":[{"authorName":"顾敏","id":"c553f15a-c22e-47d7-91b0-02dbac8a5377","originalAuthorName":"顾敏"},{"authorName":"顾金海","id":"7f0a80a9-f95c-45db-a8f9-2cac5dbf93fd","originalAuthorName":"顾金海"},{"authorName":"沈宁福","id":"0290b895-1927-47dd-b087-395923d61ed5","originalAuthorName":"沈宁福"},{"authorName":"王西科","id":"cf1a6ac6-9be0-4b01-a19d-fcdd3c9d2f27","originalAuthorName":"王西科"},{"authorName":"张迎元","id":"b5a7a0be-0b1e-4a31-bd41-9375c0bf38a2","originalAuthorName":"张迎元"},{"authorName":"顾明元","id":"5049fbec-4330-446c-8aaf-e2201147d25e","originalAuthorName":"顾明元"},{"authorName":"乐永康","id":"f7a602c5-9204-45dc-ba69-504fbebc31cb","originalAuthorName":"乐永康"}],"doi":"10.3969/j.issn.1005-5053.2003.01.006","fpage":"24","id":"05695139-f32e-4b83-9b6d-2604c98543c0","issue":"1","journal":{"abbrevTitle":"HKCLXB","coverImgSrc":"journal/img/cover/HKCLXB.jpg","id":"41","issnPpub":"1005-5053","publisherId":"HKCLXB","title":"航空材料学报"},"keywords":[{"id":"ef97758f-1c47-4964-a70c-c63ea454cbdf","keyword":"喷射沉积","originalKeyword":"喷射沉积"},{"id":"0ff5bd40-b786-4038-8291-cefdd264b8e4","keyword":"6013Al/SiCp/Gr混杂复合材料","originalKeyword":"6013Al/SiCp/Gr混杂复合材料"},{"id":"7ca19bdc-9b3f-4f95-af74-ab977c71bcc2","keyword":"内耗峰","originalKeyword":"内耗峰"}],"language":"zh","publisherId":"hkclxb200301006","title":"高阻尼6013Al/SiCp/Gr复合材料中的内耗峰及其阻尼机制","volume":"23","year":"2003"},{"abstractinfo":"通过对3种齿轮钢20CrNi2Mo、17CrNiMo6、20CrMnMo进行渗碳及热处理,研究了不同渗碳时间后3种钢的表面碳含量及热处理前后的渗层硬度和组织。结果表明:3种钢的合金系数从高到低依次为20CrMnMo钢、17CrNiMo6钢、20CrNi2Mo钢,合金系数越大,相同渗碳条件下表面碳含量越高;高温回火前3种渗碳层的表面硬度均在45HRC以上,回火后均有所降低;高温回火前渗碳层的组织为马氏体、残余奥氏体等非平衡态混合组织。","authors":[{"authorName":"高金柱","id":"e614fa96-8230-4269-924d-1e67599549c4","originalAuthorName":"高金柱"},{"authorName":"顾敏","id":"235b1c77-f71d-4211-87fc-b02cc1c5a176","originalAuthorName":"顾敏"},{"authorName":"王爱香","id":"c4973970-65f1-483d-8d92-caf8c14397b9","originalAuthorName":"王爱香"},{"authorName":"许鸿翔","id":"cf7dcc11-5bb6-4f01-931d-b629c22a6ce8","originalAuthorName":"许鸿翔"},{"authorName":"赵少甫","id":"a8222e77-f712-4d17-9c93-51c35379e5da","originalAuthorName":"赵少甫"}],"doi":"","fpage":"49","id":"1b77aab2-206b-48cd-824b-03adfad16ae1","issue":"2","journal":{"abbrevTitle":"JXGCCL","coverImgSrc":"journal/img/cover/JXGCCL.jpg","id":"45","issnPpub":"1000-3738","publisherId":"JXGCCL","title":"机械工程材料"},"keywords":[{"id":"65e96e6f-5557-4365-b54b-ca8b920e0108","keyword":"齿轮钢","originalKeyword":"齿轮钢"},{"id":"1cdc3900-e928-4971-ad43-caf5fb97a7af","keyword":"渗碳","originalKeyword":"渗碳"},{"id":"fb68c69b-1318-46b1-a8b5-960d7421c575","keyword":"热处理","originalKeyword":"热处理"}],"language":"zh","publisherId":"jxgccl201202012","title":"常用典型齿轮钢渗碳层的组织与性能","volume":"36","year":"2012"},{"abstractinfo":"采用喷射共沉积方法制备了6061Al/SiCp/Gr混杂金属基复合材料(MMC),研究了其阻尼性能.结果表明:该材料在150℃附近有一温度内耗峰,且随频率增加该峰峰位向高温移动,峰高降低.通过Arrhenius方程测得内耗峰的激活能为1.17eV.分析认为,该峰具有弛豫特性,它是在热与应力的双重作用下,有位错拖曳点缺陷运动所致,符合位错诱生阻尼机制.","authors":[{"authorName":"顾敏","id":"b3783617-1113-4205-8c63-40b4352d3b6d","originalAuthorName":"顾敏"},{"authorName":"顾金海","id":"e04bd36b-382a-4edb-aaaa-7384c830da98","originalAuthorName":"顾金海"},{"authorName":"王西科","id":"85b1df24-401b-4865-8a54-0fa2295f30c5","originalAuthorName":"王西科"},{"authorName":"沈宁福","id":"d6758392-3c86-4a0e-85e2-e6c7fe20ac9a","originalAuthorName":"沈宁福"},{"authorName":"张迎元","id":"0053ce4c-c8f8-4cbd-8724-4512404d06cd","originalAuthorName":"张迎元"},{"authorName":"乐永康","id":"a99acd1a-9c65-427e-996e-736f320be74b","originalAuthorName":"乐永康"}],"doi":"10.3969/j.issn.1673-2812.2002.03.003","fpage":"321","id":"3bcd7e7c-7688-4299-a125-b122f89960d0","issue":"3","journal":{"abbrevTitle":"CLKXYGCXB","coverImgSrc":"journal/img/cover/CLKXYGCXB.jpg","id":"13","issnPpub":"1673-2812","publisherId":"CLKXYGCXB","title":"材料科学与工程学报"},"keywords":[{"id":"0ad21d27-d637-44d8-89b5-7002af063e90","keyword":"喷射沉积","originalKeyword":"喷射沉积"},{"id":"840167f0-18db-4629-a66a-343e92c9dbc1","keyword":"6061Al/SiCp/Cr混杂复合材料","originalKeyword":"6061Al/SiCp/Cr混杂复合材料"},{"id":"6900497d-a751-4abd-9abc-5dc7a8e2eb39","keyword":"内耗峰","originalKeyword":"内耗峰"}],"language":"zh","publisherId":"clkxygc200203003","title":"高阻尼6061Al/SiCp/Gr复合材料中的内耗峰及其阻尼机制","volume":"20","year":"2002"},{"abstractinfo":"研究了离子硫氮复合渗对42CrMo钢的耐磨性和抗咬合性的影响.数据表明,与42CrMo钢调质态和单一离子渗氮工艺状态相比,该钢经离子硫氮复合渗处理后可明显提高钢的耐磨性和抗咬合性.通过对渗层的组织结构分析,探讨了硫氮复合渗层对提高42CrMo钢的耐磨性和抗咬合性的作用机理.","authors":[{"authorName":"李忠伟","id":"3ed21dca-fd27-4d32-83d5-80df0554501c","originalAuthorName":"李忠伟"},{"authorName":"顾敏","id":"0977a813-21d0-43d3-8777-3c0d52d235ce","originalAuthorName":"顾敏"}],"doi":"10.3969/j.issn.1000-3738.2003.05.016","fpage":"48","id":"5b5b9d56-36af-4d28-b078-78cad0de1c54","issue":"5","journal":{"abbrevTitle":"JXGCCL","coverImgSrc":"journal/img/cover/JXGCCL.jpg","id":"45","issnPpub":"1000-3738","publisherId":"JXGCCL","title":"机械工程材料"},"keywords":[{"id":"9d49e2f0-7431-4583-a685-e1eae5eebd51","keyword":"离子硫氮复合渗","originalKeyword":"离子硫氮复合渗"},{"id":"df640fbc-306a-4046-90ea-72283b00f182","keyword":"耐磨性","originalKeyword":"耐磨性"},{"id":"057caa15-7c5e-4772-952b-ca6453afc2a2","keyword":"抗咬合性","originalKeyword":"抗咬合性"}],"language":"zh","publisherId":"jxgccl200305016","title":"离子硫氮复合渗42CrMo钢的耐磨性和抗咬合性研究","volume":"27","year":"2003"},{"abstractinfo":"采用喷射共沉积方法制备了SiCp/Gr/6061铝合金混杂金属基复合材料, 研究了其阻尼特性.结果表明: 该材料在150℃附近有一温度内耗峰, 且随频率增加该峰峰位向高温移动而峰高降低.通过Arrhenius方程测得内耗峰的激活能为1.17eV.分析认为: 该峰具有弛豫特性, 它是在热与应力的双重作用下, 由位错拖曳点缺陷运动所致, 符合位错诱生阻尼机制.","authors":[{"authorName":"顾敏","id":"48ffaf9d-5b78-4147-86b8-f3712f39967f","originalAuthorName":"顾敏"},{"authorName":"王西科","id":"8c47e136-abfc-41c0-b3bc-d45de1071ccf","originalAuthorName":"王西科"},{"authorName":"沈宁福","id":"c28700e4-dcc5-4291-b98c-58606e79398c","originalAuthorName":"沈宁福"},{"authorName":"顾金海","id":"b0abc303-6e59-4bba-9610-7f3fcada4df0","originalAuthorName":"顾金海"},{"authorName":"张迎元","id":"00f40ebb-d794-4ee5-9d07-cd0fb6573304","originalAuthorName":"张迎元"},{"authorName":"乐永康","id":"91a66ca0-fa69-4d77-b148-cc7bf39cf1e0","originalAuthorName":"乐永康"}],"doi":"","fpage":"645","id":"60675b8f-99b5-47c7-8e08-96d945a5f74d","issue":"3","journal":{"abbrevTitle":"ZGYSJSXB","coverImgSrc":"journal/img/cover/ZGYSJSXB.jpg","id":"88","issnPpub":"1004-0609","publisherId":"ZGYSJSXB","title":"中国有色金属学报"},"keywords":[{"id":"242ae2d0-a0b0-4060-ac1c-2e0b1b334039","keyword":"喷射共沉积","originalKeyword":"喷射共沉积"},{"id":"2034f56b-6acf-468e-8a42-a2805271cf6c","keyword":"SiCp/Gr/6061铝合金混杂复合材料","originalKeyword":"SiCp/Gr/6061铝合金混杂复合材料"},{"id":"51bbfd2c-8fc1-49ba-b961-c448e183021f","keyword":"内耗峰","originalKeyword":"内耗峰"},{"id":"96082ddd-1287-40bf-a32d-8e257df697eb","keyword":"阻尼机制","originalKeyword":"阻尼机制"}],"language":"zh","publisherId":"zgysjsxb200303021","title":"SiCp/Gr颗粒混杂增强6061铝基复合材料中的内耗峰及其阻尼机制","volume":"13","year":"2003"},{"abstractinfo":"采用正交试验方法,研究了锻造比、预备热处理、渗碳温度、碳势、淬火温度及预热等工艺因素对20CrMnMo钢热处理畸变的影响.结果表明:预备热处理、渗碳温度、碳势和淬火温度对畸变影响显著;锻造比及预热对畸变影响虽不显著,但在优化工艺中也起到良好的作用;针对20CrMnMo钢渗碳淬火的畸变特性,可通过优化的工艺参数较好地控制畸变,其最小畸变量为0.08 mm.","authors":[{"authorName":"李宝奎","id":"6e907bc0-7d81-47d6-b29b-13137e1aebbe","originalAuthorName":"李宝奎"},{"authorName":"王爱香","id":"66f191e5-68fc-457a-be63-ee2933ee5ebc","originalAuthorName":"王爱香"},{"authorName":"许鸿翔","id":"3aa78f79-2e37-46ad-aaa6-f4c00fcd5939","originalAuthorName":"许鸿翔"},{"authorName":"郭敬强","id":"fead53b1-bcb6-49dd-adcf-faddeaf64bab","originalAuthorName":"郭敬强"},{"authorName":"顾敏","id":"9d34cad5-be6d-4ddf-8c89-4c5f225ec6c7","originalAuthorName":"顾敏"}],"doi":"10.3969/j.issn.1000-3738.2007.11.008","fpage":"26","id":"ab949a06-1dda-41c1-91bf-976f83a69204","issue":"11","journal":{"abbrevTitle":"JXGCCL","coverImgSrc":"journal/img/cover/JXGCCL.jpg","id":"45","issnPpub":"1000-3738","publisherId":"JXGCCL","title":"机械工程材料"},"keywords":[{"id":"6b9c37dc-f3e9-43df-a95c-a3d6e70131f3","keyword":"20CrMnMo","originalKeyword":"20CrMnMo"},{"id":"5ad2eea3-60c2-480d-a697-50062eb721a6","keyword":"渗碳淬火","originalKeyword":"渗碳淬火"},{"id":"79e90df4-6317-4980-b5d0-c27817838c99","keyword":"正交试验","originalKeyword":"正交试验"},{"id":"441baa86-3384-4348-b1c2-3e72331ff23a","keyword":"热处理畸变","originalKeyword":"热处理畸变"}],"language":"zh","publisherId":"jxgccl200711008","title":"工艺对20CrMnM0钢渗碳淬火畸变的影响","volume":"31","year":"2007"},{"abstractinfo":"本文利用端淬试验法和剥层试验法研究了新型高合金钢17CrNiMo6的渗层淬透性,旨在找出参考含碳量的影响因素,绘制出了17CrNiMo6钢的渗碳层的淬透性曲线和参考含碳量曲线,以及不同J距离处的硬度延层深的变化曲线,结果表明,渗碳齿轮淬火后从表面到有效硬化层深度界限硬度550HV相对应的含碳量不是一个固定值,随着合金成分、淬火冷却状况及工件尺寸大小而变化.","authors":[{"authorName":"高金柱","id":"b7ff20d5-802a-4a56-a147-516ade731158","originalAuthorName":"高金柱"},{"authorName":"王爱香","id":"13f0d657-f7f5-4098-a7cc-74be1002320a","originalAuthorName":"王爱香"},{"authorName":"顾敏","id":"891ccb0e-df39-4b86-8063-f3c13f47ab94","originalAuthorName":"顾敏"},{"authorName":"许鸿翔","id":"f5087ea5-0c65-46d8-9b99-69cd8033cf07","originalAuthorName":"许鸿翔"}],"doi":"10.3969/j.issn.1003-1545.2010.05.006","fpage":"20","id":"e900ce63-0ff1-4785-bbc7-92291a8914bb","issue":"5","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":"93652461-c972-4f61-91a9-597d7723235e","keyword":"淬透性","originalKeyword":"淬透性"},{"id":"9262e8f4-2115-494b-b3fb-5e2fa9219a82","keyword":"17CrNiMo6钢","originalKeyword":"17CrNiMo6钢"},{"id":"bb0fb17b-3db6-48a9-b3da-1a160154d0f4","keyword":"参考含碳量","originalKeyword":"参考含碳量"}],"language":"zh","publisherId":"clkfyyy201005006","title":"新型高合金齿轮渗碳钢渗层淬透性研究","volume":"25","year":"2010"},{"abstractinfo":"采用喷射共沉积方法制备6061Al/SiCp金属基复合材料(MMC),研究了固溶处理的冷却制度对其阻尼性能的影响.结果表明:热处理状态不同的材料,常温下阻尼基本无差异,高温下阻尼则显著不同,超过160℃后,所有试样的阻尼能力均接近或超过1×10-2以上;适当选用冷却能力比水强的冷却介质可获得更高的阻尼性能,但阻尼能力与冷却速度并不存在线性关系.在本文的试验范围内,内耗的应变振幅效应不明显.位错阻尼机制和高温下的位错及界面阻尼机制对这种材料的阻尼性能起主要作用.","authors":[{"authorName":"顾敏","id":"f3700b75-dc88-45f9-abfb-b5a4ce440cc3","originalAuthorName":"顾敏"},{"authorName":"顾金海","id":"0d734e81-45ce-488e-a315-27f58123ec35","originalAuthorName":"顾金海"},{"authorName":"沈宁福","id":"2bc79804-1238-44b9-9e01-f3965a83e0c8","originalAuthorName":"沈宁福"},{"authorName":"王西科","id":"3ecf9509-c4c0-4568-9ecc-58d1f145afcc","originalAuthorName":"王西科"},{"authorName":"张迎远","id":"079c7f23-d022-4920-8337-18e043d08bda","originalAuthorName":"张迎远"},{"authorName":"朱震刚","id":"339afbce-bb5d-485b-9de5-70dc89a0e8b6","originalAuthorName":"朱震刚"}],"doi":"10.3969/j.issn.1009-6264.2002.04.005","fpage":"16","id":"f4ccdb9d-6e0b-492a-a483-92487cc31414","issue":"4","journal":{"abbrevTitle":"CLRCLXB","coverImgSrc":"journal/img/cover/CLRCLXB.jpg","id":"15","issnPpub":"1009-6264","publisherId":"CLRCLXB","title":"材料热处理学报"},"keywords":[{"id":"4a263f0f-a82c-480e-a907-8714df5078cd","keyword":"喷射沉积","originalKeyword":"喷射沉积"},{"id":"94c82857-8d95-4451-bca7-d6e917c6f0d5","keyword":"6061Al/SiCp 复合材料","originalKeyword":"6061Al/SiCp 复合材料"},{"id":"7e5efa49-a5ac-4883-b8f7-6f6581ac3d94","keyword":"热处理","originalKeyword":"热处理"},{"id":"1e9f307c-385a-4feb-9eba-45480d8ab350","keyword":"阻尼性能","originalKeyword":"阻尼性能"}],"language":"zh","publisherId":"jsrclxb200204005","title":"固溶处理冷却速度对6061Al/SiCp复合材料阻尼特性的影响","volume":"23","year":"2002"},{"abstractinfo":"采用冷却性能测试仪测试了不同搅拌转速下硝酸盐介质的冷却特性曲线,分析了搅拌转速对该介质冷却能力的影响;在17CrNiMo6钢棒上加工出 C形试样并进行了渗碳处理,然后分别进行了不同搅拌转速下的硝酸盐浴分级淬火和油淬,分析了搅拌转速和淬火介质对该试样畸变的影响.结果表明:搅拌转速对硝酸盐介质低温冷却速率的影响最为显著;随着搅拌转速的增大,经硝酸盐浴分级淬火后试样的平均畸变率增大,搅拌转速为300 r?min-1时的平均畸变率最小,为1.66%,比快速淬火油淬火后的(2.33%)降低了28.8%;搅拌转速为700 r?min-1时更有利于控制硝酸盐浴分级淬火时试样的畸变量,该速度下的畸变量测试值的均方差最小,平均畸变率为1.84%.","authors":[{"authorName":"张峦","id":"779ceba8-0e80-4c9f-8d77-24de54130420","originalAuthorName":"张峦"},{"authorName":"王爱香","id":"2837428b-99fd-4a74-a4a9-5c48fe2f246d","originalAuthorName":"王爱香"},{"authorName":"顾敏","id":"82b6c335-5812-418a-bd71-c90ee6d4f913","originalAuthorName":"顾敏"},{"authorName":"李宝奎","id":"a405304a-7085-40fb-981d-d5d242c08207","originalAuthorName":"李宝奎"},{"authorName":"沈合利","id":"e1cb0605-2e3d-4b1b-922e-8d2fbc309545","originalAuthorName":"沈合利"}],"doi":"10.11973/jxgccl201612004","fpage":"13","id":"1dc5edc0-df91-486e-8b37-f94e50e4846c","issue":"12","journal":{"abbrevTitle":"JXGCCL","coverImgSrc":"journal/img/cover/JXGCCL.jpg","id":"45","issnPpub":"1000-3738","publisherId":"JXGCCL","title":"机械工程材料"},"keywords":[{"id":"9d0fac1a-d5a2-4159-848f-fbaeb18d9e96","keyword":"搅拌转速","originalKeyword":"搅拌转速"},{"id":"617b3b4f-bb48-4a25-be2c-15d49c27efbd","keyword":"硝酸盐","originalKeyword":"硝酸盐"},{"id":"3a829bd8-8b89-4b96-99c5-1d817294e107","keyword":"冷却特性","originalKeyword":"冷却特性"},{"id":"0148cb18-0503-40b3-946d-b44a876eb311","keyword":"17CrNiMo6 钢","originalKeyword":"17CrNiMo6 钢"},{"id":"e1c2b4db-410e-43e3-ae30-3df382dc25af","keyword":"畸变","originalKeyword":"畸变"},{"id":"7f846e04-2e64-48ca-8788-1f2b7e3877bc","keyword":"分级淬火","originalKeyword":"分级淬火"}],"language":"zh","publisherId":"jxgccl201612004","title":"搅拌转速对渗碳17CrNiMo6钢在硝酸盐浴分级淬火时畸变的影响","volume":"40","year":"2016"}],"totalpage":173,"totalrecord":1722}