{"currentpage":1,"firstResult":0,"maxresult":10,"pagecode":5,"pageindex":{"endPagecode":5,"startPagecode":1},"records":[{"abstractinfo":"采用不同的热处理温度,在510L钢表面制备氧化皮。通过扫描电子显微镜(SEM)观察氧化皮的截面形貌,用X射线衍射仪(XRD)、透射电子显微镜(TEM)测定其结构;并采用干湿周期浸润实验、扫描Kelvin探针和交流阻抗谱研究不同结构的氧化皮热轧带钢在0.01 mol/L NaHSO3溶液的耐蚀行为。结果表明:随温度的升高,氧化皮厚度增加和微观孔隙增多;在保证氧化皮连续、氧化皮/基体结合良好的情况下,氧化皮厚度对氧化皮耐蚀性能起到较大作用;不同温度下生成的热轧带钢氧化皮的耐蚀性能由好到差依次为:580、560、550和500℃。","authors":[{"authorName":"周贤良","id":"f1fc5840-ee4a-43f2-84e2-4728969d9cd4","originalAuthorName":"周贤良"},{"authorName":"","id":"01467b5d-c4cb-4125-bd1e-fc512b563e1a","originalAuthorName":"聂轮"},{"authorName":"华小珍","id":"202a5b54-a2e0-491e-84ac-f0bf23ed9122","originalAuthorName":"华小珍"},{"authorName":"叶志国","id":"c6ce3078-342c-406f-b3a5-f771cfb2f0f5","originalAuthorName":"叶志国"},{"authorName":"崔霞","id":"6cf4313d-306d-4ef7-bbbc-aea72079ce55","originalAuthorName":"崔霞"},{"authorName":"陈庆军","id":"da603d54-b4de-4623-abcf-027f9eba5b1b","originalAuthorName":"陈庆军"},{"authorName":"邹爱华","id":"3395b709-f150-4973-b16b-b804a91a0b00","originalAuthorName":"邹爱华"}],"doi":"","fpage":"117","id":"3933f0c9-b02f-4dbc-b22a-243c26f67f7e","issue":"10","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":"a6241213-50de-4df6-ae68-e5a61657ae45","keyword":"热处理温度","originalKeyword":"热处理温度"},{"id":"94e2dde7-e4e9-4c39-a4da-39be39fa6000","keyword":"氧化皮","originalKeyword":"氧化皮"},{"id":"f3834c42-5f88-40c1-a901-28060a4a34c3","keyword":"组织结构","originalKeyword":"组织结构"},{"id":"034b4dea-914e-47d6-b720-ce18d6332c77","keyword":"耐蚀性","originalKeyword":"耐蚀性"}],"language":"zh","publisherId":"jsrclxb201110022","title":"热处理温度对510L钢氧化皮结构及耐蚀性的影响","volume":"32","year":"2011"},{"abstractinfo":"用化学浸泡、极化曲线、循环极化曲线和电化学阻抗谱等方法研究了不同温度固溶后直接时效状态的15-5PH马氏体沉淀硬化不锈钢的耐点蚀性能,并用金相显微镜、X射线衍射仪(XRD)和扫描电子显微镜(SEM)分析其显微组织和析出相。结果表明,15-5PH不锈钢随着固溶温度的升高,自腐蚀电位减小,自腐蚀电流和腐蚀速率增大,耐点蚀性能下降。不同温度固溶后时效的基体组织均为板条马氏体和少量奥氏体,且均有NbC相析出。在1000℃下固溶后时效组织较均匀,析出相少,耐点蚀性能优异。在1070℃下固溶后时效组织中有Cu析出,进而导致其耐点蚀性能下降。","authors":[{"authorName":"周贤良","id":"8c2b07bb-5e3c-4927-a8db-db9b5f9f2692","originalAuthorName":"周贤良"},{"authorName":"","id":"31577d87-b79c-4587-ab9f-15f3743aef1a","originalAuthorName":"聂轮"},{"authorName":"华小珍","id":"8eba7583-7c50-4312-bf9f-0059b554dbcb","originalAuthorName":"华小珍"},{"authorName":"刘智勇","id":"f326449d-88bd-4257-ab69-82442a0ed9e3","originalAuthorName":"刘智勇"},{"authorName":"崔霞","id":"b4251543-a875-4842-8505-c5746eb596e8","originalAuthorName":"崔霞"},{"authorName":"彭新元","id":"ef6a6be1-5255-4602-a13b-109ee7d819e9","originalAuthorName":"彭新元"}],"categoryName":"|","doi":"","fpage":"333","id":"55c4d38b-bb28-4875-bd82-716824b7ee37","issue":"4","journal":{"abbrevTitle":"ZGFSYFHXB","coverImgSrc":"journal/img/cover/中国腐蚀封面19-3期-01.jpg","id":"81","issnPpub":"1005-4537","publisherId":"ZGFSYFHXB","title":"中国腐蚀与防护学报"},"keywords":[{"id":"ccddbdf6-f0c8-4319-8158-cf5932152118","keyword":"固溶温度","originalKeyword":"固溶温度"},{"id":"9640380e-04df-4dd6-8379-c8026798e3fd","keyword":"15-5PH martensite precipitation hardened stainless steel","originalKeyword":"15-5PH martensite precipitation hardened stainless steel"},{"id":"e226a19b-4e94-4801-9d0b-aa5ef906a8ac","keyword":"pitting corrosion","originalKeyword":"pitting corrosion"}],"language":"zh","publisherId":"1005-4537_2012_4_14","title":"固溶温度对15-5PH不锈钢耐点蚀性能的影响","volume":"32","year":"2012"},{"abstractinfo":"模拟研究15—5PH不锈钢在6%FeCl2溶液中浸泡不同时间的初期点蚀规律,采用电化学阻抗测试和扫描Kelvin探针技术研究15—5PH不锈钢初期点蚀过程中的电化学行为。结果表明,随着浸泡时间增长,电化学反应电阻和阻抗模值逐渐减小,EIS谱由一个时间常数逐渐变成两个明显的时间常数.随着腐蚀的不断进行,不锈钢表面阴极区和阳极区不断发生变化,呈现局部腐蚀的特征,表面电位也逐渐升高,阴极区和阳极区变得明显,腐蚀反应处于加速过程。","authors":[{"authorName":"周贤良","id":"fc1e9720-1a06-4162-b695-1c4027e98ea2","originalAuthorName":"周贤良"},{"authorName":"","id":"ef3d7a49-36fa-4ee4-8651-b10bcd96593e","originalAuthorName":"聂轮"},{"authorName":"华小珍","id":"ed9d08ad-dc13-4a2f-a124-a8f184201300","originalAuthorName":"华小珍"},{"authorName":"刘智勇","id":"e08a0ce1-a5bf-46cb-b1bc-3d51bea6cbc1","originalAuthorName":"刘智勇"},{"authorName":"崔霞","id":"2300154b-a3e7-438b-b4af-5a19a8c016c9","originalAuthorName":"崔霞"},{"authorName":"彭新元","id":"10ffbaad-9f3f-4047-9156-52d1cc572417","originalAuthorName":"彭新元"}],"doi":"","fpage":"423","id":"8169ac7a-c1aa-4ee5-9723-97d2c93d2bb9","issue":"5","journal":{"abbrevTitle":"ZGFSYFHXB","coverImgSrc":"journal/img/cover/中国腐蚀封面19-3期-01.jpg","id":"81","issnPpub":"1005-4537","publisherId":"ZGFSYFHXB","title":"中国腐蚀与防护学报"},"keywords":[{"id":"15673c02-05c5-4daa-9b96-852768021a2e","keyword":"15—5PH不锈钢","originalKeyword":"15—5PH不锈钢"},{"id":"b53a3974-fc4a-4a2d-9c63-4ea06260874e","keyword":"点蚀","originalKeyword":"点蚀"},{"id":"311749a8-a1cc-496c-85b0-64c9518f9149","keyword":"电化学阻抗谱","originalKeyword":"电化学阻抗谱"},{"id":"7978dd2f-413b-40a9-abd7-9c23bf63f5c4","keyword":"扫描Kelvin探针","originalKeyword":"扫描Kelvin探针"}],"language":"zh","publisherId":"zgfsyfhxb201205013","title":"15-5PH不锈钢初期点蚀的电化学特性","volume":"32","year":"2012"},{"abstractinfo":"模拟研究15—5PH不锈钢在6%FeCl2溶液中浸泡不同时间的初期点蚀规律,采用电化学阻抗测试和扫描Kelvin探针技术研究15—5PH不锈钢初期点蚀过程中的电化学行为。结果表明,随着浸泡时间增长,电化学反应电阻和阻抗模值逐渐减小,EIS谱由一个时间常数逐渐变成两个明显的时间常数.随着腐蚀的不断进行,不锈钢表面阴极区和阳极区不断发生变化,呈现局部腐蚀的特征,表面电位也逐渐升高,阴极区和阳极区变得明显,腐蚀反应处于加速过程。","authors":[{"authorName":"周贤良","id":"1cf22a28-aed6-46aa-b7c5-21569658e577","originalAuthorName":"周贤良"},{"authorName":"","id":"81e63a1d-bb7b-436d-b4ce-e77fb838fe5a","originalAuthorName":"聂轮"},{"authorName":"华小珍","id":"f1696a8f-fdb6-434c-a536-ce6d42a71b6c","originalAuthorName":"华小珍"},{"authorName":"刘智勇","id":"3b00f1f1-7b01-4983-ad18-1fe7f78a7609","originalAuthorName":"刘智勇"},{"authorName":"崔霞","id":"410502dd-8ccb-4c31-b064-80ef10d27729","originalAuthorName":"崔霞"},{"authorName":"彭新元","id":"0bfd4203-b196-4abe-9920-474d7cfd4205","originalAuthorName":"彭新元"}],"doi":"","fpage":"423","id":"8342cf37-43c3-4dcb-8dcd-a68af3ebcbcd","issue":"5","journal":{"abbrevTitle":"ZGFSYFHXB","coverImgSrc":"journal/img/cover/中国腐蚀封面19-3期-01.jpg","id":"81","issnPpub":"1005-4537","publisherId":"ZGFSYFHXB","title":"中国腐蚀与防护学报"},"keywords":[{"id":"90d46455-cba4-467d-8670-e46ec85730c3","keyword":"15—5PH不锈钢","originalKeyword":"15—5PH不锈钢"},{"id":"70aacb0d-1e97-4c04-9312-4a147e60fb2a","keyword":"点蚀","originalKeyword":"点蚀"},{"id":"73d8084c-e98f-4420-b608-d7f2e2f442de","keyword":"电化学阻抗谱","originalKeyword":"电化学阻抗谱"},{"id":"2d208e77-b117-4233-baba-85deff0a5229","keyword":"扫描Kelvin探针","originalKeyword":"扫描Kelvin探针"}],"language":"zh","publisherId":"zgfsyfhxb201205013","title":"15-5PH不锈钢初期点蚀的电化学特性","volume":"32","year":"2012"},{"abstractinfo":"针对某厂开发的滚丝在使用过程中发生的崩牙问题,采用光学显微镜、扫描电镜和能谱分析等手段对滚丝的失效原因进行了分析.结果表明:滚丝的寿命波动主要与其材质有关,而且其过早失效还受到机械加工的影响.从滚丝的制造工艺入手,提出了延长滚丝使用寿命的具体对策.","authors":[{"authorName":"罗毅","id":"405c2818-8cda-4d29-9898-f825c29531d2","originalAuthorName":"罗毅"},{"authorName":"吴晓春","id":"0366bebe-59a0-4784-b106-aa3763476194","originalAuthorName":"吴晓春"},{"authorName":"闵永安","id":"feaa12f1-37d9-4164-a634-6d00cff4f25d","originalAuthorName":"闵永安"},{"authorName":"汪宏斌","id":"1bdf03ca-cd31-4446-9b30-1dccf789dadd","originalAuthorName":"汪宏斌"}],"doi":"10.3969/j.issn.1000-3738.2006.02.018","fpage":"61","id":"f6e28094-4168-4f57-b895-fd81d5f3c60a","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":"8ffd80f7-a1dc-4bdd-85fa-411ab932e7bf","keyword":"滚丝","originalKeyword":"滚丝轮"},{"id":"3b30c78f-3f55-485e-9964-80c77e241cf0","keyword":"冷作模具钢","originalKeyword":"冷作模具钢"},{"id":"c5308b96-10dd-484a-ba51-1eeb59b80e86","keyword":"失效分析","originalKeyword":"失效分析"}],"language":"zh","publisherId":"jxgccl200602018","title":"滚丝失效分析与对策","volume":"30","year":"2006"},{"abstractinfo":"根据镁合金负重的结构特点设计挤压毛坯图,对稀土AZ80镁合金进行热模拟实验得到本构方程,通过将得到的本构方程导入Deform/3D模拟软件对负重的成形过程进行数值模拟,根据模拟结果确定负重的成形工艺路线.在此基础上设计和制造不同工序所需模具,并进行挤压成形试验和性能测试,验证工艺的可靠性,为负重的发展提供了工艺参考依据.","authors":[{"authorName":"张佳磊","id":"f5a290bd-4aeb-4d02-96ec-1a0ca1a4f218","originalAuthorName":"张佳磊"},{"authorName":"王强","id":"5108d16d-4381-45c4-a1ce-658c932a24d9","originalAuthorName":"王强"},{"authorName":"张治民","id":"01010c15-3698-4279-b452-56610e1f4b6d","originalAuthorName":"张治民"}],"doi":"","fpage":"112","id":"7c697e1a-4144-4e03-b81c-06664067ec8e","issue":"3","journal":{"abbrevTitle":"BQCLKXYGC","coverImgSrc":"journal/img/cover/BQCLKXYGC.jpg","id":"4","issnPpub":"1004-244X","publisherId":"BQCLKXYGC","title":"兵器材料科学与工程 "},"keywords":[{"id":"0d8d1684-be7c-40d9-9452-f7954fe1ef62","keyword":"稀土AZ80镁合金","originalKeyword":"稀土AZ80镁合金"},{"id":"4f07ad49-5a10-4329-918a-dc7d6cf464e7","keyword":"负重","originalKeyword":"负重轮"},{"id":"d8efce65-6624-4444-a5aa-c094834cfea6","keyword":"数值模拟","originalKeyword":"数值模拟"},{"id":"e3728edb-345f-4d9e-88bb-94c5b45c5c77","keyword":"复合挤压成形","originalKeyword":"复合挤压成形"},{"id":"ff28bdb1-d6c4-4ee0-9f4f-3db861367f1f","keyword":"模具","originalKeyword":"模具"}],"language":"zh","publisherId":"bqclkxygc201503032","title":"镁合金负重成形工艺研究","volume":"38","year":"2015"},{"abstractinfo":"挤压(H13钢)的早期破坏是影响连续挤压生产成本及效率的重要因素.对挤压的破坏方式及原因进行分析,研究了不同M/B下组织的力学性能,并根据挤压内外组织的差异,对挤压的热处理工艺进行了改进,使挤压的寿命提高了1.5倍.","authors":[{"authorName":"谢冬柏","id":"85744f7f-4f61-47fe-90ae-8a33c6a635b1","originalAuthorName":"谢冬柏"},{"authorName":"王福会","id":"fd31e0ad-1f61-4e52-80df-1da3264e7857","originalAuthorName":"王福会"},{"authorName":"高飞","id":"2313494b-b458-42e8-b08f-db1c6abc3182","originalAuthorName":"高飞"},{"authorName":"张倩茹","id":"9dde3ad8-b2a0-43e0-a320-ed253599cc68","originalAuthorName":"张倩茹"}],"doi":"10.3969/j.issn.1000-3738.2002.07.008","fpage":"22","id":"38dbc873-2e6b-4d60-a8f8-f399bdec6630","issue":"7","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":"2683a4d7-60bc-47ca-8e19-e957fc67541d","keyword":"挤压","originalKeyword":"挤压轮"},{"id":"ad6cc6de-1951-4566-aba6-e7c8f25d5c27","keyword":"失效分析","originalKeyword":"失效分析"},{"id":"d00e8577-cc28-4e76-9247-c692c899d1b3","keyword":"热处理工艺","originalKeyword":"热处理工艺"}],"language":"zh","publisherId":"jxgccl200207008","title":"挤压失效分析及热处理工艺改进","volume":"26","year":"2002"},{"abstractinfo":"卫星或宇宙飞船在太空中需要精确定位,动量是卫星或宇宙飞船姿态控制的关键部件.每个宇宙飞船上有三个或四个动量,这些动量虽然体积小,但是其角动量占宇宙飞船总角动量的绝大部分.动量实质上就是电机的转子,它具有很高的转动惯量.在适当的时间,启动或停止三个电机就能够控制宇宙飞船的姿态.我们已经研制了一个小的动量模型,该模型重量轻、结构紧凑,而且能效高.动量模型的主要创新点是使用了高温超导磁悬浮轴承,因此,它具有摩擦力小,转速高,储存动量大的特点.动量模型的最大设计转速为15,000RPM,储存的角动量为3.5J*s-1.","authors":[{"authorName":"张永","id":"d5b9a272-4ba7-4274-b060-d4ac2299c2cb","originalAuthorName":"张永"},{"authorName":"马科彪","id":"34642006-dd92-4f4d-ad40-f4a0b2fa31a4","originalAuthorName":"马科彪"},{"authorName":"朱唯干","id":"8986e1c9-a8be-4cf1-a531-18d4f4ad4da3","originalAuthorName":"朱唯干"}],"doi":"10.3969/j.issn.1000-3258.2003.z1.001","fpage":"1","id":"8b44b647-3186-48a0-a09c-c056d0314145","issue":"z1","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":"05e2e088-e45e-439a-8c7a-79b995b623c6","keyword":"","originalKeyword":""}],"language":"zh","publisherId":"dwwlxb2003z1001","title":"用于微型卫星姿态控制的高温超导动量","volume":"25","year":"2003"},{"abstractinfo":"通过醋酸钯催化的Suzuki偶联反应,在室温下于水溶液中通过超分子自组装制备了以α-CD(α-环糊精)为大环,异酞酸为端塞,二苯乙烯衍生物为链的新型超分子烷.通过加入浓HCl调节反应溶液的pH值<1,用正丁醇萃取,将含有α-CD大环的烷分子与水溶液中多余的α-CD分离,再用硅胶柱层析分离得到纯的只含有1个α-CD大环的烷分子,从而简化了分离难度.采用1H NMR和质谱分析结果表明,所制得的烷为α-CD(主体)与哑铃状分子(客体)的摩尔比为1:1的[2]烷.","authors":[{"authorName":"刘骥军","id":"7611df20-bc9c-4da2-9a6d-19f48ca4f638","originalAuthorName":"刘骥军"},{"authorName":"田禾","id":"7ed15bc4-fbf5-4c91-9bd7-d53eefe49c7b","originalAuthorName":"田禾"}],"doi":"10.3969/j.issn.1000-0518.2007.08.003","fpage":"863","id":"eb7f2f43-b2ac-438c-b0b4-ff992ec4063e","issue":"8","journal":{"abbrevTitle":"YYHX","coverImgSrc":"journal/img/cover/YYHX.jpg","id":"73","issnPpub":"1000-0518","publisherId":"YYHX","title":"应用化学"},"keywords":[{"id":"469a5f4a-df9e-44b0-a2e5-784d8a2f9c74","keyword":"α-环糊精","originalKeyword":"α-环糊精"},{"id":"16a8488d-698c-42e3-809c-2786ae8a4734","keyword":"烷","originalKeyword":"轮烷"},{"id":"ad97caef-ae69-4a23-9d0d-71d690c64f08","keyword":"超分子","originalKeyword":"超分子"},{"id":"0f0999fd-a047-4d56-a753-903d48dbaad5","keyword":"自组装","originalKeyword":"自组装"}],"language":"zh","publisherId":"yyhx200708003","title":"含有α-CD的新型[2]烷的合成","volume":"24","year":"2007"},{"abstractinfo":"针对目前单槽Conform连续挤压机存在的受挤压槽尺寸限制,必须采用某一特定规格原料,不便于采购的现实问题,以及对12 mm2以下小截面和宽窄比大于12的产品很难挤压,挤压、腔体等寿命短的缺点,介绍了我公司开发的利用现有的单槽连续挤压机双进双出生产挤压产品的工艺方法.","authors":[{"authorName":"鄢明","id":"ccb1d764-645e-46cb-86e7-6d178fd8050d","originalAuthorName":"鄢明"},{"authorName":"吴予才","id":"5d1447d0-7300-468b-b52e-739bfb4df47e","originalAuthorName":"吴予才"},{"authorName":"何剑辉","id":"e85c7b17-4029-414b-8cb7-b52d360b92d8","originalAuthorName":"何剑辉"}],"doi":"10.3969/j.issn.0258-7076.2006.z2.043","fpage":"172","id":"c0ee7870-48b1-46cf-9228-ba1a963d3d94","issue":"z2","journal":{"abbrevTitle":"XYJS","coverImgSrc":"journal/img/cover/XYJS.jpg","id":"67","issnPpub":"0258-7076","publisherId":"XYJS","title":"稀有金属"},"keywords":[{"id":"2b8a5afe-ebb0-46e3-8f36-08ce621a73b1","keyword":"单槽连续挤压","originalKeyword":"单轮槽连续挤压"},{"id":"3e22e59a-d0ed-4357-9457-7b3734229b50","keyword":"除氧化层装置","originalKeyword":"除氧化层装置"},{"id":"66ddc702-30a5-47f1-9d3d-c8427ebeacdf","keyword":"防扭绞装置","originalKeyword":"防扭绞装置"},{"id":"5426ffb2-8bb4-4cd0-8893-9fb7176cfde0","keyword":"双孔模具","originalKeyword":"双孔模具"},{"id":"4036c5b2-eb4e-4338-949f-31be2e134087","keyword":"防粘结装置","originalKeyword":"防粘结装置"},{"id":"0deb3c5c-9e34-466f-b3a5-4cb04437073d","keyword":"双进双出挤压","originalKeyword":"双进双出挤压"}],"language":"zh","publisherId":"xyjs2006z2043","title":"利用单槽连续挤压机双进双出生产挤压铜产品","volume":"30","year":"2006"}],"totalpage":26,"totalrecord":253}