材料期刊网

1.江西省轻工业设计院,南昌330002

2.中国轻工业陶瓷研究所,景德镇333001

{"currentpage":1,"firstResult":0,"maxresult":10,"pagecode":5,"pageindex":{"endPagecode":5,"startPagecode":1},"records":[{"abstractinfo":"应用金属有机化合物气相淀积(MOCVD)制备了具有渐变层的半导体布拉格反射镜(DBR),分别是抛物线性、线性和突变结构的DBR.三种反射镜结构都设计为8个周期,通过白光反射谱测量突变DBR具有最大反射率.应用原子力显微镜对所制备的DBR表面形貌进行分析.结果表明,相同周期数情况下线性渐变DBR相对于其他两种结构粗糙度最小,具有良好的表面形貌,可以应用于垂直腔面发射激光器的研制.","authors":[{"authorName":"盖红星","id":"f9569968-ed26-4620-8131-68b44778d399","originalAuthorName":"盖红星"},{"authorName":"邓军","id":"6a2fd115-2fe9-4998-8568-4fa0765ce87c","originalAuthorName":"邓军"},{"authorName":"廉鹏","id":"7cb0a235-92d2-42f4-94c9-ff7868d9f3c7","originalAuthorName":"廉鹏"},{"authorName":"俞波","id":"c6087dc9-0f2f-452c-87d0-0ca05cd53735","originalAuthorName":"俞波"},{"authorName":"李建军","id":"b5fd4d92-98ea-4469-8057-344e5a6c845c","originalAuthorName":"李建军"},{"authorName":"韩军","id":"8f2b1558-3f67-4c64-947b-b9cbf6bc770c","originalAuthorName":"韩军"},{"authorName":"陈建新","id":"5c0729d1-76c8-4c8c-ac56-1a2e56f030de","originalAuthorName":"陈建新"},{"authorName":"沈光地","id":"c885ac01-8ebf-4caf-ab16-6557594008a4","originalAuthorName":"沈光地"}],"doi":"10.3969/j.issn.1007-4252.2006.03.009","fpage":"207","id":"971a3ee7-a139-4bbe-8485-cf15d53f56e6","issue":"3","journal":{"abbrevTitle":"GNCLYQJXB","coverImgSrc":"journal/img/cover/GNCLYQJXB.jpg","id":"34","issnPpub":"1007-4252","publisherId":"GNCLYQJXB","title":"功能材料与器件学报 "},"keywords":[{"id":"2defe529-8ee7-4d98-96c5-ef334f9f01d4","keyword":"布拉格反射镜","originalKeyword":"布拉格反射镜"},{"id":"bc747578-f169-46b0-92e1-b19a0ec8b64e","keyword":"金属有机化合物气相淀积","originalKeyword":"金属有机化合物气相淀积"},{"id":"3cd72bb2-1a51-4e05-9dbf-a085e83d14fc","keyword":"原子力显微镜","originalKeyword":"原子力显微镜"},{"id":"cd9e628b-aee7-41fd-b4ab-174e9a0def8c","keyword":"AlGaAs","originalKeyword":"AlGaAs"}],"language":"zh","publisherId":"gnclyqjxb200603009","title":"具有渐变层半导体DBR的MOCVD外延制备","volume":"12","year":"2006"},{"abstractinfo":"使用低压MOCVD生长应变InGaAs/GaAs 980 nm量子阱.研究了生长温度、生长速度对量子阱光致发光谱(PL)的影响.并将优化后的量子阱生长条件应用于980 nm半导体激光器的研制中,获得了直流工作下,阈值电流为19 mA,未镀膜斜率效率为0.6 W/A,输出功率在100 mW的器件.","authors":[{"authorName":"俞波","id":"1847f592-cebc-4139-9091-ca1b71d9bea8","originalAuthorName":"俞波"},{"authorName":"盖红星","id":"5becc38f-a341-4ebc-a29a-a1ee71edd40a","originalAuthorName":"盖红星"},{"authorName":"韩军","id":"3775bc2b-5371-4b8b-856a-4e717e491530","originalAuthorName":"韩军"},{"authorName":"邓军","id":"18c61fa4-92d6-48f6-808c-5c3f70f46426","originalAuthorName":"邓军"},{"authorName":"邢艳辉","id":"b2b41d42-550d-43cd-bb81-4ddbf9dac4f4","originalAuthorName":"邢艳辉"},{"authorName":"李建军","id":"b0482a0c-5b68-4b38-b9ed-b9f95109d04a","originalAuthorName":"李建军"},{"authorName":"廉鹏","id":"5c199688-9c3f-49a8-82b8-5c80fc8103d7","originalAuthorName":"廉鹏"},{"authorName":"邹德恕","id":"4dca1659-5671-4960-acef-2b337538c883","originalAuthorName":"邹德恕"},{"authorName":"沈光地","id":"e2b28a45-9a16-4aa8-a2e2-92c150e587f5","originalAuthorName":"沈光地"}],"doi":"10.3969/j.issn.1007-5461.2005.01.015","fpage":"81","id":"d3a3bfbe-15a1-4ea1-a574-1c7442b8b4b7","issue":"1","journal":{"abbrevTitle":"LZDZXB","coverImgSrc":"journal/img/cover/LZDZXB.jpg","id":"53","issnPpub":"1007-5461","publisherId":"LZDZXB","title":"量子电子学报 "},"keywords":[{"id":"6b320bb5-3cfa-4815-9cb1-4c93fdbe1f94","keyword":"光电子学","originalKeyword":"光电子学"},{"id":"c569ff6b-3634-4493-b255-ef39c4512d7a","keyword":"半导体激光器","originalKeyword":"半导体激光器"},{"id":"102583dc-393a-4b0e-95db-b983e2355c02","keyword":"应变量子阱","originalKeyword":"应变量子阱"},{"id":"6bee8750-0ba3-4198-8822-0b6b75ff3142","keyword":"金属有机化学气相淀积","originalKeyword":"金属有机化学气相淀积"}],"language":"zh","publisherId":"lzdzxb200501015","title":"应变InGaAs/GaAs量子阱MOCVD生长优化及其在980 nm半导体激光器中的应用","volume":"22","year":"2005"},{"abstractinfo":"采用Shu Lien Chuang方法计算了AlInGaAs/AlGaAs应变引起价带中重、轻空穴能量变化曲线,在Harrison模型的基础上详细地计算了AlInGaAs/AlGaAs和GaAs/AlGaAs量子阱电子、空穴子能级分布并且进一步研究了这两种材料在不同注入条件下的线性光增益.进一步计算比较可以得出AlInGaAs/AlGaAs应变量子阱光增益特性要优于GaAs/AlGaAs非应变量子阱增益特性,因此AlInGaAs/AlGaAs应变量子阱半导体材料应用于半导体激光器比传统GaAs/AlGaAs材料更具优势.","authors":[{"authorName":"盖红星","id":"dc409837-664e-4037-9e3a-b148e0a2e508","originalAuthorName":"盖红星"},{"authorName":"李建军","id":"504f3fb4-6780-456b-8682-2f28fbef5367","originalAuthorName":"李建军"},{"authorName":"韩军","id":"b5104f23-8abb-4f07-9e46-ec644ab63798","originalAuthorName":"韩军"},{"authorName":"邢艳辉","id":"bc151c2a-dfda-45d6-9761-889b5b6d2447","originalAuthorName":"邢艳辉"},{"authorName":"邓军","id":"f1bd350a-1676-4820-acd9-af706f49e075","originalAuthorName":"邓军"},{"authorName":"俞波","id":"d3d0782e-62d2-4a81-8608-1e3107afc447","originalAuthorName":"俞波"},{"authorName":"沈光地","id":"23597fb3-1f51-4a7b-8825-09441b4b7fd3","originalAuthorName":"沈光地"},{"authorName":"陈建新","id":"db175323-2505-456e-8f35-25345c900d40","originalAuthorName":"陈建新"}],"doi":"10.3969/j.issn.1007-5461.2005.01.016","fpage":"85","id":"63ba2361-b8d5-42c6-8023-34e465db77a6","issue":"1","journal":{"abbrevTitle":"LZDZXB","coverImgSrc":"journal/img/cover/LZDZXB.jpg","id":"53","issnPpub":"1007-5461","publisherId":"LZDZXB","title":"量子电子学报 "},"keywords":[{"id":"6af9bb8d-a83c-435a-9528-ab164b86b7a6","keyword":"光电子学","originalKeyword":"光电子学"},{"id":"58d3a94b-35cc-437c-bffe-47bdf616b4c6","keyword":"应变量子阱","originalKeyword":"应变量子阱"},{"id":"c69e3959-2be3-469f-b625-599f6d23d6eb","keyword":"光增益","originalKeyword":"光增益"},{"id":"0dd701d1-f64f-422f-8400-4619e5831065","keyword":"AlInGaAs","originalKeyword":"AlInGaAs"},{"id":"b8c1d93b-e97c-4a07-a823-6751efb87b57","keyword":"半导体激光器","originalKeyword":"半导体激光器"}],"language":"zh","publisherId":"lzdzxb200501016","title":"AlInGaAs/AlGaAs应变量子阱增益特性研究","volume":"22","year":"2005"},{"abstractinfo":"无镉材料Zn(O,S)因其带隙宽且可调节、无毒无害等优点被作为缓冲层材料重点研究,通过化学水浴法制备Zn(O,S)薄膜,研究了沉积时间的不同(20~35 min)对Zn(O,S)薄膜的成分、结构特性、光学性能及形貌的影响.通过XRD测试可知,水浴法制备的Zn(O,S)薄膜为非晶态.通过透反射谱测试可知,薄膜的光学透过率较高(>80%).通过表面形貌测试可知,30 min时Zn(O,S)薄膜为致密均匀的小颗粒.将Zn(O,S)薄膜应用在CZTSe电池中,在30 min时获得较高器件转换效率5.37%.","authors":[{"authorName":"刘晓茹","id":"10550a8d-2dd2-4132-9b25-a27c48e52308","originalAuthorName":"刘晓茹"},{"authorName":"李建军","id":"c0ac9cb1-41b0-4b76-9918-8e2df8afdfe0","originalAuthorName":"李建军"},{"authorName":"刘玮","id":"60f89d19-d8c9-4d99-a39a-5415c6c7830d","originalAuthorName":"刘玮"},{"authorName":"刘芳芳","id":"e7eb2070-de98-4903-878b-7711d9202de4","originalAuthorName":"刘芳芳"},{"authorName":"敖建平","id":"ce041bca-00c4-4570-8cda-2a0021c3d5d9","originalAuthorName":"敖建平"},{"authorName":"孙云","id":"3f3f48fd-8b86-4485-b0b4-f9102de4d848","originalAuthorName":"孙云"},{"authorName":"周志强","id":"55fc63c1-1f43-4d6c-9bf2-0090f9953b80","originalAuthorName":"周志强"},{"authorName":"张毅","id":"e813d57b-12c9-4c44-8180-ad7c522f59d3","originalAuthorName":"张毅"}],"doi":"","fpage":"578","id":"68b86a06-3cfc-4425-b1c9-e27238bb0158","issue":"4","journal":{"abbrevTitle":"RGJTXB","coverImgSrc":"journal/img/cover/RGJTXB.jpg","id":"57","issnPpub":"1000-985X","publisherId":"RGJTXB","title":"人工晶体学报"},"keywords":[{"id":"e634c478-f356-4751-a9e5-2ad3979892cd","keyword":"无镉缓冲层","originalKeyword":"无镉缓冲层"},{"id":"0ec82da6-2e02-445d-b4d0-b6daf15d6ab7","keyword":"化学水浴法","originalKeyword":"化学水浴法"},{"id":"3a9c5a69-3f50-432c-986a-ccf24f14c624","keyword":"Zn(O,S)","originalKeyword":"Zn(O,S)"},{"id":"068e7ce2-6322-460a-bc6a-fd93d53de4bb","keyword":"CZTSe薄膜电池","originalKeyword":"CZTSe薄膜电池"},{"id":"3ddcc816-af27-4511-8d82-fe5e63bda112","keyword":"沉积时间","originalKeyword":"沉积时间"}],"language":"zh","publisherId":"rgjtxb98201704002","title":"沉积时间对Zn(O,S)薄膜性能及Cu2ZnSnSe4薄膜电池的影响","volume":"46","year":"2017"},{"abstractinfo":"本文提出了采用偏光显微镜和X射线衍射仪联合方法鉴定自行车闸皮中低含量的温石棉、铁石棉及青石棉等三种石棉的方法.研究了试样的初步破碎、低温等离子灰化条件以及与高温灰化效率的比较、偏光显微镜法鉴定石棉、X衍射光谱法鉴定石棉等,并确定了两种方法联合判断有无石棉的规则.","authors":[{"authorName":"封亚辉","id":"fa10e57d-d051-4175-ba9a-afb75d1d8cd4","originalAuthorName":"封亚辉"},{"authorName":"李建军","id":"dba2dddd-5f68-4952-b993-351eaf344d38","originalAuthorName":"李建军"},{"authorName":"程薇","id":"57f4203b-0f36-42db-985b-fbcf92ab2f4e","originalAuthorName":"程薇"},{"authorName":"卢志刚","id":"3a2c4c1a-b233-4b6b-9320-b7326a9e896e","originalAuthorName":"卢志刚"},{"authorName":"张梅","id":"c8cc2b93-7885-4a8f-acdd-27a03d6b1ef4","originalAuthorName":"张梅"},{"authorName":"郑建明","id":"5d92959c-e421-4119-9c17-737a155e0b51","originalAuthorName":"郑建明"},{"authorName":"许新春","id":"61e4d261-49d0-4670-bfdc-0b7390928bcc","originalAuthorName":"许新春"}],"doi":"","fpage":"1102","id":"289c44c8-fa2c-4749-8f33-f30070e770dc","issue":"5","journal":{"abbrevTitle":"GSYTB","coverImgSrc":"journal/img/cover/GSYTB.jpg","id":"36","issnPpub":"1001-1625","publisherId":"GSYTB","title":"硅酸盐通报 "},"keywords":[{"id":"42c887aa-8808-4306-9be4-66a530e4f124","keyword":"偏光显微镜","originalKeyword":"偏光显微镜"},{"id":"493be238-e788-4973-8648-291cf2b2aaf6","keyword":"X射线衍射","originalKeyword":"X射线衍射"},{"id":"51629cc3-284f-4051-ac5d-096c5f93fcdb","keyword":"低温等离子灰化","originalKeyword":"低温等离子灰化"},{"id":"acf8c213-d4dc-4a7d-aa4d-4fc876353926","keyword":"石棉","originalKeyword":"石棉"}],"language":"zh","publisherId":"gsytb200905047","title":"自行车闸皮中石棉的鉴定方法","volume":"28","year":"2009"},{"abstractinfo":"用聚四氢呋喃二醇(PTMG)、异佛尔酮二异氰酸酯(IPDI)、二羟甲基丙酸(DMPA)为预聚物反应单体,以2-[(2-氨乙基)氨基]乙磺酸钠(A95)、水合肼为后扩链剂,利用预聚体分散法制备水性聚氨酯(WPU)消光树脂分散体,探讨了扩链剂种类及用量、R值等对WPU膜光泽的影响.","authors":[{"authorName":"李建军","id":"3fde0952-ef04-48a5-a584-2f3a16e6ed2b","originalAuthorName":"李建军"},{"authorName":"曾文波","id":"7e63ec83-5d2d-46d0-b0a2-a142052089dd","originalAuthorName":"曾文波"},{"authorName":"郑雯","id":"ced1c963-6e34-4fe0-af48-b6ab7136802d","originalAuthorName":"郑雯"},{"authorName":"彭晓宏","id":"3a50ff1e-add1-472e-8777-e238081e0153","originalAuthorName":"彭晓宏"},{"authorName":"曹喜民","id":"2229eb3b-dd7f-4fbc-bf7e-ea6eba1d95b7","originalAuthorName":"曹喜民"},{"authorName":"张雅胜","id":"55820420-16f0-4f66-ad5b-1ef63e8f4a24","originalAuthorName":"张雅胜"},{"authorName":"关仲翔","id":"15ff427e-ed0e-432f-9583-6b224357192c","originalAuthorName":"关仲翔"}],"doi":"","fpage":"16","id":"2895d899-fd48-4ba2-8158-4eca0a219853","issue":"10","journal":{"abbrevTitle":"TLGY","coverImgSrc":"journal/img/cover/TLGY.jpg","id":"61","issnPpub":"0253-4312","publisherId":"TLGY","title":"涂料工业 "},"keywords":[{"id":"47808446-5e28-43ce-96ac-4d8d9028b745","keyword":"水性聚氨酯","originalKeyword":"水性聚氨酯"},{"id":"de863b38-f1c4-447b-b7d9-c6d006a9d3d5","keyword":"扩链剂","originalKeyword":"扩链剂"},{"id":"05beff04-66b1-4d45-9910-d5522a2a08eb","keyword":"低光泽度","originalKeyword":"低光泽度"}],"language":"zh","publisherId":"tlgy201310004","title":"水性聚氨酯消光树脂结构与性能的研究","volume":"43","year":"2013"},{"abstractinfo":"利用溶胶-凝胶(sol-gel)方法,在硅基底上制备了Bi3.25La0.75Ti3O12/Bi4Ti3O12/Si铁电薄膜,其中Bi4Ti3O12作为缓冲层.用XRD方法分析了该结构铁电薄膜的物相结构;用扫描电镜对薄膜样品进行表面形貌观察;并且对该结构的铁电性能进行了研究.","authors":[{"authorName":"郭冬云","id":"e59e6136-65f9-4b1e-8b19-9f92c5d7813a","originalAuthorName":"郭冬云"},{"authorName":"王耘波","id":"8605089b-48ca-4651-8768-e13f6d7e8f0e","originalAuthorName":"王耘波"},{"authorName":"于军","id":"e5d5f7bf-2af0-4f2a-82e6-4dafecb1f74b","originalAuthorName":"于军"},{"authorName":"付承菊","id":"42e8defc-4b21-4175-9098-4b631c8b5a17","originalAuthorName":"付承菊"},{"authorName":"高俊雄","id":"896c4c47-54ab-4ffc-a950-280f140f1c44","originalAuthorName":"高俊雄"},{"authorName":"李建军","id":"29a0d461-acc1-4110-a907-accf2b47a497","originalAuthorName":"李建军"},{"authorName":"陈万军","id":"b9aa6ec2-195d-44ef-bb76-08be42641228","originalAuthorName":"陈万军"}],"doi":"","fpage":"1442","id":"30e1bcef-bf70-44f2-98bf-8fa6e170a965","issue":"z1","journal":{"abbrevTitle":"GNCL","coverImgSrc":"journal/img/cover/GNCL.jpg","id":"33","issnPpub":"1001-9731","publisherId":"GNCL","title":"功能材料"},"keywords":[{"id":"6a2819e0-7579-4e14-a18a-cc66f0a1a70d","keyword":"铁电薄膜","originalKeyword":"铁电薄膜"},{"id":"0d9be55d-7666-4974-b734-c2fd31eed228","keyword":"Bi3.25La0.75Ti3O12","originalKeyword":"Bi3.25La0.75Ti3O12"},{"id":"dced8435-3625-4b09-b6b0-1997045ae1ed","keyword":"Bi4Ti3O12:sol-gel法","originalKeyword":"Bi4Ti3O12:sol-gel法"}],"language":"zh","publisherId":"gncl2004z1404","title":"Ag/Bi3.25La0.75Ti3O12/Bi4Ti3O12/Si结构铁电薄膜制备及其铁电性能的研究","volume":"35","year":"2004"},{"abstractinfo":"用聚四氢呋喃醚二醇(PTMG)、异佛尔酮二异氰酸酯(IPDI)、间苯二甲基异氰酸酯(m-XDI)、二羟甲基丙酸(DMPA)为预聚物反应单体,以2-[(2-氨基乙基)氨基]乙磺酸钠(A95)和乙二胺为扩链剂,利用预聚体分散法制备高固含水性聚氨酯(WPU)消光树脂乳液及胶膜,分析了乳液表观黏度、乳化工艺、尺值[n(-NCO):n(-OH)]、磺酸盐扩链剂的用量等因素对乳液固含量的影响,探讨了环氧改性高固含水性聚氨酯消光树脂的性能.当乳化转速为3500 r/min左右,中和度为90％左右,R值为1.9时,A95含量为30％时,环氧树脂含量为7.5％时,能够制得固含量为40％以上的WPU乳液稳定性好,性能优异.","authors":[{"authorName":"杨丽娟","id":"e22c2add-b0c7-41f7-96ec-6e428fd2d344","originalAuthorName":"杨丽娟"},{"authorName":"李建军","id":"744e2c60-a77c-4c52-a32d-cccde6bffb13","originalAuthorName":"李建军"},{"authorName":"彭晓宏","id":"b8046998-80f4-4ce1-9d10-c78a91638eef","originalAuthorName":"彭晓宏"},{"authorName":"曹喜民","id":"e9e968fb-04f7-4cfe-bd20-09647d75b89e","originalAuthorName":"曹喜民"},{"authorName":"张雅胜","id":"a0265131-3a71-4665-a89d-98735d5f2f79","originalAuthorName":"张雅胜"},{"authorName":"关仲翔","id":"e4d1f3cd-724e-4388-8d53-c53ed2d8203f","originalAuthorName":"关仲翔"},{"authorName":"陈旭东","id":"df81fa35-df00-4684-8b3a-4574a9078462","originalAuthorName":"陈旭东"}],"doi":"","fpage":"51","id":"6c96a087-91d0-4cdb-b20e-63175f707973","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":"0bf974a7-d6ab-4fac-9ecc-6e03078c630a","keyword":"水性聚氨酯","originalKeyword":"水性聚氨酯"},{"id":"d19e9bdc-3715-4ed2-ab12-e45163453f01","keyword":"高固含","originalKeyword":"高固含"},{"id":"94d7545d-f387-48d7-ae54-1f1a605e27de","keyword":"低光泽","originalKeyword":"低光泽"}],"language":"zh","publisherId":"tlgy201512009","title":"环氧改性高固含水性聚氨酯消光树脂的制备及性能研究","volume":"45","year":"2015"},{"abstractinfo":"利用有效折射率法计算了隧道再生双有源区大功率半导体激光器的工作模式,并对计算得到的激射模式的近场、远场与实验结果进行比较,得到激射模式为一阶模,二者十分吻合,这有助于进一步优化设计波导结构.","authors":[{"authorName":"鲁鹏程","id":"38ff8ff1-c184-436a-bb9e-10b2deb3980c","originalAuthorName":"鲁鹏程"},{"authorName":"李建军","id":"cc884c59-a12d-4362-8334-d82f8f8d2b62","originalAuthorName":"李建军"},{"authorName":"邓军","id":"6a5b327b-eba9-4697-95b1-a5a6ba0de655","originalAuthorName":"邓军"},{"authorName":"廉鹏","id":"03abd451-a43f-4de5-88fe-b688627274a0","originalAuthorName":"廉鹏"},{"authorName":"刘莹","id":"15036a87-fa92-4e08-a197-ea10105338c1","originalAuthorName":"刘莹"},{"authorName":"崔碧峰","id":"307031ac-d721-46e6-8cb5-a5b732580a86","originalAuthorName":"崔碧峰"},{"authorName":"沈光地","id":"58bfb6fa-0f17-4414-b7f2-e8d192547d6e","originalAuthorName":"沈光地"}],"doi":"10.3969/j.issn.1007-4252.2004.03.026","fpage":"395","id":"84ab2eca-6221-4d37-80e5-66e3a862780d","issue":"3","journal":{"abbrevTitle":"GNCLYQJXB","coverImgSrc":"journal/img/cover/GNCLYQJXB.jpg","id":"34","issnPpub":"1007-4252","publisherId":"GNCLYQJXB","title":"功能材料与器件学报 "},"keywords":[{"id":"1d9fe6a7-ab28-4a9d-a2c5-007b9d896e8c","keyword":"半导体激光器","originalKeyword":"半导体激光器"},{"id":"ed477e7f-6ab7-4fdb-bf60-c8a70fcc999a","keyword":"模式特性","originalKeyword":"模式特性"},{"id":"63ac28d3-c85f-4936-b1b3-41726b4e92e5","keyword":"有效折射率法","originalKeyword":"有效折射率法"}],"language":"zh","publisherId":"gnclyqjxb200403026","title":"隧道再生大功率半导体激光器模式特性分析","volume":"10","year":"2004"},{"abstractinfo":"针对大型铝合金曲面件电磁渐进成形技术,采用整体压边和分块变压边力压边的方式,研究了电磁渐进成形工艺中首次放电后板料的起皱现象和规律,揭示了压边力对电磁渐进成形首次放电过程中板料起皱和材料塑性流动行为的影响.结果表明:数值模拟结果预测出的首次放电后易起皱区域为板料的法兰区和悬空侧壁区,与实验结果一致;整体压边方式下法兰区域和悬空侧壁区域无起皱的临界压边力分别为8.4 kN和21.6 kN;分块变压边力方式下,最靠近局部塑性变形区的压边分块上的法兰区域无起皱临界压边力为8.4 kN,最靠近悬空区的对称的两个压边分块上的悬空侧壁区域无起皱临界压边力为23.8 kN,且相比于整体压边方式的无起皱临界条件下,在分块压边方式的无起皱临界条件下板料的变形流动能力得以明显提高.","authors":[{"authorName":"龚航","id":"964b953d-79e5-4706-9e60-c28245b87836","originalAuthorName":"龚航"},{"authorName":"黄亮","id":"961b2a2a-3690-48c3-888b-33eb79b2ad32","originalAuthorName":"黄亮"},{"authorName":"李建军","id":"3f44ff3f-0545-4b9c-ba99-671978e5bba8","originalAuthorName":"李建军"},{"authorName":"戴亚雄","id":"fbdb9713-1a7b-4004-a8cf-0fd79ace6ab7","originalAuthorName":"戴亚雄"},{"authorName":"曹全梁","id":"789d0f11-3ad5-4baa-a3ce-ff8c9ee03837","originalAuthorName":"曹全梁"},{"authorName":"韩小涛","id":"39ea00e8-99f6-4eb5-b514-390834ed532d","originalAuthorName":"韩小涛"},{"authorName":"李亮","id":"41d800fe-4793-4922-ba86-b59b37356466","originalAuthorName":"李亮"}],"doi":"10.7502/j.issn.1674-3962.2016.04.06","fpage":"284","id":"7b09dee7-6e3f-4f2a-89cf-c13146eb3926","issue":"4","journal":{"abbrevTitle":"ZGCLJZ","coverImgSrc":"journal/img/cover/中国材料进展.jpg","id":"80","issnPpub":"1674-3962","publisherId":"ZGCLJZ","title":"中国材料进展"},"keywords":[{"id":"fed4ee04-d8fc-47b0-8a25-0ca2198958ad","keyword":"大型铝合金曲面件","originalKeyword":"大型铝合金曲面件"},{"id":"34e5c514-9af7-43ac-be67-b096457436b8","keyword":"分块压边","originalKeyword":"分块压边"},{"id":"8fb7b379-752b-48f8-b727-50a65edad39b","keyword":"起皱","originalKeyword":"起皱"},{"id":"250d353e-9dfa-4921-95ae-424be6efde4a","keyword":"电磁渐进成形","originalKeyword":"电磁渐进成形"}],"language":"zh","publisherId":"zgcljz201604006","title":"大型铝合金曲面件在电磁渐进成形首次放电条件下的起皱行为研究","volume":"35","year":"2016"}],"totalpage":6,"totalrecord":58}