{"currentpage":1,"firstResult":0,"maxresult":10,"pagecode":5,"pageindex":{"endPagecode":5,"startPagecode":1},"records":[{"abstractinfo":"以包钢目前的铁前原料、烧结、球团、高炉、炼钢各个工序中稀土、钛氧化物的含量为研究对象,利用ICP-MS质谱分析仪等检验手段对白云鄂博铁矿伴生稀土、钛等元素在钢铁冶炼各工序的走势进行取样分析.结果表明,从原料到成品,包钢目前的<span style=\"color:red\">冶金</span>各个工序中稀土、钛氧化物的含量呈现下降趋势.揭示了白云鄂博铁矿伴生有色金属元素在钢铁冶炼工序中的走势和<span style=\"color:red\">遗传性</span>.对包钢充分利用白云鄂博铁矿伴生有色金属资源,合理开发稀土钢具有重要意义.","authors":[{"authorName":"王瑞军","id":"718cf90d-4e3a-46e4-b7f4-00c6a7f42b25","originalAuthorName":"王瑞军"},{"authorName":"高志国","id":"6369bd51-37db-4c6a-b726-adba9744cdaa","originalAuthorName":"高志国"},{"authorName":"岳长青","id":"0a2c45d9-8944-4658-b57c-63db355c06af","originalAuthorName":"岳长青"},{"authorName":"宋冉臣","id":"915e2f23-f9c3-4031-aa45-15acae9ff868","originalAuthorName":"宋冉臣"},{"authorName":"李光辉","id":"e57b1124-65cf-4fb4-9ad5-384e5c3bd56e","originalAuthorName":"李光辉"},{"authorName":"姜涛","id":"a2a95e7d-2cb7-427b-9711-41be33317a1a","originalAuthorName":"姜涛"}],"doi":"10.16533/J.CNKI.15-1099/TF.201605008","fpage":"47","id":"be82720f-026a-4153-98ff-88953dd96f5f","issue":"5","journal":{"abbrevTitle":"XT","coverImgSrc":"journal/img/cover/XT.jpg","id":"65","issnPpub":"1004-0277","publisherId":"XT","title":"稀土"},"keywords":[{"id":"7cbf468a-739d-46dd-9570-fee741a86215","keyword":"白云鄂博铁矿","originalKeyword":"白云鄂博铁矿"},{"id":"d2ae3273-4091-4c13-9f14-824fde407e9a","keyword":"伴生有色金属元素","originalKeyword":"伴生有色金属元素"},{"id":"2bf9049d-20af-4141-a69f-6f19e744f9d6","keyword":"<span style=\"color:red\">冶金</span><span style=\"color:red\">遗传性</span>","originalKeyword":"冶金遗传性"}],"language":"zh","publisherId":"xitu201605008","title":"白云鄂博铁矿伴生有色金属<span style=\"color:red\">冶金</span><span style=\"color:red\">遗传性</span>研究","volume":"37","year":"2016"},{"abstractinfo":"研究了不同热轧工艺对TRIP钢热轧组织与力学性能的影响,以及热轧组织与力学性能对退火后组织与力学性能的<span style=\"color:red\">遗传性</span>.结果表明:卷取温度对热轧组织与力学性能的影响最大,不同的卷取温度得到了两种不同的热轧组织,①铁素体+珠光体+贝氏体组织,②铁素体+贝氏体+奥氏体组织;第一种热轧组织经过冷轧和退火后晶粒大大的细化,力学性能得到了很大提升,奥氏体含量和含碳量都大幅提升,无组织<span style=\"color:red\">遗传性</span>.第二种热轧组织退火后组织类型不变,晶粒度变化不大,奥氏体含量和含碳量小幅上升,表现为很强的组织<span style=\"color:red\">遗传性</span>与力学性能<span style=\"color:red\">遗传性</span>.","authors":[{"authorName":"熊自柳","id":"294126b3-5b80-4b87-a59f-882010c20111","originalAuthorName":"熊自柳"},{"authorName":"蔡庆伍","id":"97440ef7-8629-4483-93db-b4977e87cec7","originalAuthorName":"蔡庆伍"},{"authorName":"江海涛","id":"94f92d51-aa29-4b11-874e-e4f298d62a18","originalAuthorName":"江海涛"},{"authorName":"唐荻","id":"fe26343c-479e-4c46-99f2-0e579ad31c1f","originalAuthorName":"唐荻"},{"authorName":"张梅","id":"f1fdf8de-71b3-4fba-abca-1fa8a73f63d5","originalAuthorName":"张梅"},{"authorName":"李强","id":"b23c225f-a22d-41d6-901e-6f49fca5bfb0","originalAuthorName":"李强"}],"doi":"","fpage":"86","id":"cdcdc7b3-0566-4b8b-8979-a32e5092b7a2","issue":"1","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":"8f27c3b7-5924-4a8a-9f16-958f54807cbb","keyword":"高强TRIP钢","originalKeyword":"高强TRIP钢"},{"id":"258f08e4-f926-40df-8f40-b7cc6146cdf7","keyword":"热轧","originalKeyword":"热轧"},{"id":"67a8139c-3b99-431d-98a9-3bf1c03a61d8","keyword":"<span style=\"color:red\">遗传性</span>","originalKeyword":"遗传性"},{"id":"0c11be03-a46a-4ddb-ae69-7cbc27b7156d","keyword":"连续退火","originalKeyword":"连续退火"}],"language":"zh","publisherId":"jsrclxb201001017","title":"高强度TRIP钢热轧组织的<span style=\"color:red\">遗传性</span>","volume":"31","year":"2010"},{"abstractinfo":"详细论述了采用不同铸造工艺制取的相同成分不同组织形貌的AlTiC中间合金.通过对比试验发现,不同组织形貌的AlTiC中间合金细化工业纯铝时具有明显不同的细化效果,TiAl3呈块状分布的AlTiC中间合金细化效果最好,其次是TiAl3呈梅花状和片状分布的AlTiC中间合金.借助金相显微镜、X射线衍射仪等手段对其组织进行了分析对比,探讨了组织<span style=\"color:red\">遗传</span>对细化效果的影响.分析表明:3种AlTiC中间合金的相组成相同,均由α-Al基体、TiAl3和TiC组成,细化效果的差异是由AlTiC中间合金的组织<span style=\"color:red\">遗传</span>效应造成的.","authors":[{"authorName":"许春香","id":"9794089b-b1d0-4a76-846e-cc830f5d558e","originalAuthorName":"许春香"},{"authorName":"张金山","id":"ce1c40e5-317e-4245-b07f-18901207eec1","originalAuthorName":"张金山"}],"doi":"10.3969/j.issn.1005-0299.2001.02.013","fpage":"166","id":"b8b3048f-07a4-4773-8542-0acba8e8b931","issue":"2","journal":{"abbrevTitle":"CLKXYGY","coverImgSrc":"journal/img/cover/CLKXYGY.jpg","id":"14","issnPpub":"1005-0299","publisherId":"CLKXYGY","title":"材料科学与工艺"},"keywords":[{"id":"5e7b598f-a0c6-404c-81de-44856bcd8211","keyword":"AlTiC","originalKeyword":"AlTiC"},{"id":"21f0aef6-6a0d-46cf-a4ff-5ec32a48bfe3","keyword":"TiC","originalKeyword":"TiC"},{"id":"2c1851b2-4239-449b-99fb-60b5bf1e2d9f","keyword":"TiAl3","originalKeyword":"TiAl3"},{"id":"497ece3b-8a73-458c-80db-3223dcd5d7c2","keyword":"组织<span style=\"color:red\">遗传性</span>","originalKeyword":"组织遗传性"},{"id":"75145e21-5418-4736-af24-9aeda161357b","keyword":"细化效果","originalKeyword":"细化效果"}],"language":"zh","publisherId":"clkxygy200102013","title":"AlTiC中间合金组织<span style=\"color:red\">遗传性</span>的研究","volume":"9","year":"2001"},{"abstractinfo":"针对采用纯AM60B镁合金原料及不同量的镁合金铸件废料生产AM60B镁合金的方法,研究了稀土元素对其组织和性能的影响.结果表明:不论是否加入废料,当稀土合金的加入量为0.5%时,组织<span style=\"color:red\">遗传性</span>仍然存在;随着加入量的逐渐增加,这种<span style=\"color:red\">遗传性</span>开始受到破坏,当加入量为1.0%时,AM60B镁合金的组织<span style=\"color:red\">遗传性</span>开始消失;镁合金的力学性能随着废料加入量的增加明显下降;当废料加入量一定时,随着稀土合金加入量的增加,合金的抗拉强度和伸长率都有明显改善,而当加入量达到1.0%以后,其性能增加的幅度开始趋缓,并且伸长率已呈现下降的趋势.","authors":[{"authorName":"刘畅","id":"44d5235f-55e8-495a-bb2d-d9c94a859a2d","originalAuthorName":"刘畅"},{"authorName":"周宏","id":"2d43b090-9eff-4346-8496-fc2e551ed827","originalAuthorName":"周宏"},{"authorName":"孙广平","id":"d7ddc845-665c-4828-8271-060cf594a7a7","originalAuthorName":"孙广平"},{"authorName":"李伟","id":"2b4708fe-b2e0-4119-bba8-7bcdf7fef334","originalAuthorName":"李伟"}],"doi":"10.3969/j.issn.1000-3738.2007.02.002","fpage":"5","id":"231d9695-b0ef-475f-96e5-c007042feb70","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":"483cc6a9-56ae-4f8e-83a7-8ab147eaa6b3","keyword":"镁合金","originalKeyword":"镁合金"},{"id":"d4fa27a7-d451-46cf-b4a1-b30aae14e522","keyword":"组织","originalKeyword":"组织"},{"id":"70e03ee6-ab3e-434e-bba6-5c818b8232fa","keyword":"性能","originalKeyword":"性能"},{"id":"24d54886-e751-48cb-973a-435c6032343b","keyword":"<span style=\"color:red\">遗传性</span>","originalKeyword":"遗传性"}],"language":"zh","publisherId":"jxgccl200702002","title":"稀土对AM60B镁合金组织<span style=\"color:red\">遗传性</span>和性能的影响","volume":"31","year":"2007"},{"abstractinfo":"连铸坯的凝固组织和成分偏析是影响钢材力学性能均匀<span style=\"color:red\">性</span>的重要因素。为了分析轧制过程方坯凝固组织及偏析的<span style=\"color:red\">遗传性</span>，本研究以具有不同等轴晶率和偏析度的60Si2Mn方坯为试验对象，将断面为150mm×150mm的铸坯轧制成直径分别为75mm和25mm的两种棒材，检测了具有不同等轴晶率铸坯的偏析指数及钢材内部不同位置的机械性能，结果表明，在等轴晶率为42.7%~50%的范围下，铸坯距中心21.2mm以外的偏心区域，碳的偏析指数并未随着等轴晶率的增加而提高；钢材的内部存在疏松和轻微偏析，且中心区域的力学性能相对更差，因此铸坯的中心偏析、疏松等缺陷会<span style=\"color:red\">遗传</span>至钢材；Φ25mm圆钢的力学性能及均匀<span style=\"color:red\">性</span>均优于Φ75mm圆钢，所以压下量的增加可减轻铸坯中心偏析的<span style=\"color:red\">遗传性</span>影响。","authors":[{"authorName":"杨武\t陶红标\t赵沛\t颜慧成\t仇圣桃","id":"730da98a-aa94-4358-853d-c68a5c8ff947","originalAuthorName":"杨武\t陶红标\t赵沛\t颜慧成\t仇圣桃"}],"categoryName":"|","doi":"","fpage":"32","id":"5e7b898c-c703-4814-9154-33017783b8ae","issue":"9","journal":{"abbrevTitle":"GT","coverImgSrc":"journal/img/cover/GT.jpg","id":"27","issnPpub":"0449-749X","publisherId":"GT","title":"钢铁"},"keywords":[{"id":"a0d87fb2-8227-425e-bf33-e383e55ccade","keyword":"弹簧钢;<span style=\"color:red\">遗传性</span>;偏析;凝固组织","originalKeyword":"弹簧钢;遗传性;偏析;凝固组织"}],"language":"zh","publisherId":"0449-749X_2010_9_19","title":"弹簧钢轧制过程方坯凝固组织及偏析的<span style=\"color:red\">遗传性</span>研究","volume":"45","year":"2010"},{"abstractinfo":"为了分析轧制过程方坯凝固组织及偏析的<span style=\"color:red\">遗传性</span>,以具有不同等轴晶率和偏析度的60Si2Mn方坯为试验对象,将断面为150mm×150mm的铸坯轧制成直径分别为75mm和25mm的2种棒材,检测了具有不同等轴晶率铸坯的偏析指数及钢材内部不同位置的力学性能.结果表明,在等轴晶率为42.7%～50.0%的范围内,铸坯距中心21.2mm以外的偏心区域,碳的偏析指数并未随着等轴晶率的增加而提高;钢材的内部存在疏松和轻微偏析,且中心区域的力学性能相对更差,因此铸坯的中心偏析、疏松等缺陷会<span style=\"color:red\">遗传</span>至钢材;φ25mm圆钢的力学性能及均匀<span style=\"color:red\">性</span>均优于φ75mm圆钢,所以压下量的增加可减轻铸坯中心偏析的<span style=\"color:red\">遗传性</span>影响.","authors":[{"authorName":"杨武","id":"04b333b6-20a3-483b-9ccb-a2b79440c24b","originalAuthorName":"杨武"},{"authorName":"陶红标","id":"3484b0da-e215-4cda-b39c-c51961656a7c","originalAuthorName":"陶红标"},{"authorName":"赵沛","id":"08fc1ef2-982d-48ce-beda-92ebc30e94bf","originalAuthorName":"赵沛"},{"authorName":"颜慧成","id":"5e12429d-6be0-43ce-b4cd-dff50cfde8df","originalAuthorName":"颜慧成"},{"authorName":"仇圣桃","id":"4cc519c1-68b7-4a5f-9967-af5a3dc58a4c","originalAuthorName":"仇圣桃"}],"doi":"","fpage":"32","id":"28dfe9da-1572-4bcd-8964-87f90583a97a","issue":"9","journal":{"abbrevTitle":"GT","coverImgSrc":"journal/img/cover/GT.jpg","id":"27","issnPpub":"0449-749X","publisherId":"GT","title":"钢铁"},"keywords":[{"id":"70806b10-0488-41e7-8519-1f13db37bfb6","keyword":"弹簧钢","originalKeyword":"弹簧钢"},{"id":"044f4340-2836-4d75-8f66-3ae0db4e1615","keyword":"<span style=\"color:red\">遗传性</span>","originalKeyword":"遗传性"},{"id":"956ac6fa-0e64-480a-9caf-b0ce53491c3c","keyword":"偏析","originalKeyword":"偏析"},{"id":"b64a43d7-9b35-4042-8583-f518011c1854","keyword":"凝固组织","originalKeyword":"凝固组织"}],"language":"zh","publisherId":"gt201009006","title":"弹簧钢轧制过程方坯凝固组织及偏析的<span style=\"color:red\">遗传性</span>研究","volume":"45","year":"2010"},{"abstractinfo":"通过对热轧盘条和连铸坯光学显微镜、扫描电镜观察和能谱分析以及化学成分检验，研究了高碳热轧盘条组织与连铸坯凝固偏析的关系。结果表明：碳、锰严重偏析是导致高强度预应力盘条中偏析带形成的主要原因。偏析带组织为非索氏体，其强度高，塑性差，在轧制过程中易产生微裂纹和孔洞；连铸坯的偏析会直接<span style=\"color:red\">遗传</span>给热轧盘条，严重影响热轧盘条的组织和性能。因此，针对连铸坯偏析的<span style=\"color:red\">遗传性</span>，制定了改进措施，经生产证明其效果显著。","authors":[{"authorName":"黄贞益","id":"09c3cb6e-8583-40c6-bc04-edac035ad49c","originalAuthorName":"黄贞益"},{"authorName":"陈光","id":"96c39d11-2b02-4e5e-b5b6-a86c53d939c8","originalAuthorName":"陈光"},{"authorName":"牛亚然","id":"c8519dcf-a6f5-4c72-846f-a6087ef9a24a","originalAuthorName":"牛亚然"},{"authorName":"王光朋","id":"53b8189e-95db-4463-a00f-7fd93a9298a0","originalAuthorName":"王光朋"},{"authorName":"黄一新","id":"a189e8ab-7e8d-487a-b28c-fb8d45d8a0e4","originalAuthorName":"黄一新"},{"authorName":"刘文学","id":"e5023a5b-20f9-4f0f-8853-b67c33173ea8","originalAuthorName":"刘文学"}],"categoryName":"|","doi":"","fpage":"44","id":"604f665a-8480-48ae-832f-4035b18aafc9","issue":"1","journal":{"abbrevTitle":"GTYJXB","coverImgSrc":"journal/img/cover/GTYJXB.jpg","id":"30","issnPpub":"1001-0963","publisherId":"GTYJXB","title":"钢铁研究学报"},"keywords":[{"id":"63f67348-ea5a-47af-9771-36103c72dccd","keyword":"热轧盘条;偏析;连铸坯;<span style=\"color:red\">遗传</span>","originalKeyword":"热轧盘条;偏析;连铸坯;遗传"}],"language":"zh","publisherId":"1001-0963_2007_1_14","title":"连铸坯凝固偏析和高强热轧盘条的组织<span style=\"color:red\">遗传性</span>","volume":"19","year":"2007"},{"abstractinfo":"通过对热轧盘条和连铸坯光学显微镜、扫描电镜观察和能谱分析以及化学成分检验,研究了高碳热轧盘条组织与连铸坯凝固偏析的关系.结果表明:碳、锰严重偏析是导致高强度预应力盘条中偏析带形成的主要原因.偏析带组织为非索氏体,其强度高,塑性差,在轧制过程中易产生微裂纹和孔洞;连铸坯的偏析会直接<span style=\"color:red\">遗传</span>给热轧盘条,严重影响热轧盘条的组织和性能.因此,针对连铸坯偏析的<span style=\"color:red\">遗传性</span>,制定了改进措施,经生产证明其效果显著.","authors":[{"authorName":"黄贞益","id":"af97a69f-2488-4fc3-8524-4d1ac3a5ccc0","originalAuthorName":"黄贞益"},{"authorName":"陈光","id":"e37bfe56-af22-4a83-9c8f-a5afade6e7f4","originalAuthorName":"陈光"},{"authorName":"牛亚然","id":"a191fa4c-242c-47e8-a01b-9d30830f3e38","originalAuthorName":"牛亚然"},{"authorName":"王光朋","id":"48e37fdb-205e-4832-9eda-ec67ec76942a","originalAuthorName":"王光朋"},{"authorName":"黄一新","id":"2af53de0-1c4a-4535-ae01-00c1873f27d8","originalAuthorName":"黄一新"},{"authorName":"刘文学","id":"f8436518-de3a-4ada-94e7-2594943a24ff","originalAuthorName":"刘文学"}],"doi":"","fpage":"44","id":"b8c3d4e1-0ee6-44fa-a507-9c67899aaa22","issue":"1","journal":{"abbrevTitle":"GTYJXB","coverImgSrc":"journal/img/cover/GTYJXB.jpg","id":"30","issnPpub":"1001-0963","publisherId":"GTYJXB","title":"钢铁研究学报"},"keywords":[{"id":"bd22fd00-d3e6-4a24-81b8-844d76c1cdd8","keyword":"热轧盘条","originalKeyword":"热轧盘条"},{"id":"e22e0d0a-2ac4-4597-927b-a029c71368c7","keyword":"偏析","originalKeyword":"偏析"},{"id":"d7a9cc31-7511-454a-9830-b3ac6be94ec1","keyword":"连铸坯","originalKeyword":"连铸坯"},{"id":"0c81d7fa-93b1-4378-9b78-e5f5c2480b6b","keyword":"<span style=\"color:red\">遗传</span>","originalKeyword":"遗传"}],"language":"zh","publisherId":"gtyjxb200701010","title":"连铸坯凝固偏析和高强热轧盘条的组织<span style=\"color:red\">遗传性</span>","volume":"19","year":"2007"},{"abstractinfo":"对压铸AZ91D镁合金进行CO2激光局部重熔,采用OM和SEM观察了母材预存气孔和重熔区气孔特征,利用粒径分析软件Nano measure 1.2测量了气孔尺寸,着重研究了重熔区气孔同母材气孔的关联<span style=\"color:red\">性</span>.结果表明:压铸镁合金母材预存气孔在重熔过程表现出明显的<span style=\"color:red\">遗传性</span>；重熔区出现的微观气孔具有近圆形截面,内壁光滑,是氢致气孔；重熔区出现的宏观气孔呈蠕虫状,内壁存在气体通道,并具有明显的金属冲刷痕迹.分析认为,氢致气孔主要<span style=\"color:red\">遗传</span>于母材固溶的原子氢和存于压铸缺陷的分子氢,宏观气孔主要<span style=\"color:red\">遗传</span>于母材压铸过程卷入的气体.分析了两类气孔的形成机制,建立了母材预存气孔同重熔区宏观气孔内在关联的数学模型.","authors":[{"authorName":"王向杰","id":"021521d8-546d-4d3f-9f4c-45bbdcdff543","originalAuthorName":"王向杰"},{"authorName":"游国强","id":"b45d800b-aea9-436a-b8dc-3faf6bbe29d4","originalAuthorName":"游国强"},{"authorName":"张均成","id":"302a8481-1a42-4c03-83d8-59a2ad2b24ca","originalAuthorName":"张均成"},{"authorName":"龙思远","id":"198c35ba-6eea-4494-a112-bff97aa964c5","originalAuthorName":"龙思远"}],"doi":"10.3724/SP.J.1037.2012.00239","fpage":"1437","id":"1053a098-aecd-4b7d-bb3d-a4316452a9ae","issue":"12","journal":{"abbrevTitle":"JSXB","coverImgSrc":"journal/img/cover/JSXB.jpg","id":"48","issnPpub":"0412-1961","publisherId":"JSXB","title":"金属学报"},"keywords":[{"id":"c829bf01-a8a3-4770-b380-28596d6aeb21","keyword":"压铸镁合金","originalKeyword":"压铸镁合金"},{"id":"e9206ecb-7fe8-4d67-99d7-57c5e8dd7183","keyword":"激光重熔","originalKeyword":"激光重熔"},{"id":"8402198c-468b-44a5-a5b2-28f3cba36ec0","keyword":"气孔","originalKeyword":"气孔"},{"id":"06571a58-c492-4518-b460-e68694e77d12","keyword":"形成机制","originalKeyword":"形成机制"}],"language":"zh","publisherId":"jsxb201212005","title":"压铸AZ91D镁合金母材气孔在重熔过程的<span style=\"color:red\">遗传性</span>研究","volume":"48","year":"2012"},{"abstractinfo":"通过跟踪特钢20CrMnTi和42CrMo的生产,分别对同一炉次铸坯和轧材取样,分析其低倍组织和碳偏析.结果表明:铸坯中的碳偏析会<span style=\"color:red\">遗传</span>到轧材,轧材出现锭型偏析,轧材低倍组织与铸坯凝固结构相关.针对轧材的锭型偏析区域,用光学显微镜观察其显微组织,发现锭型内外区域的显微组织不同,并且20CrMnTi的轧材存在带状组织,这对组织性能的均匀<span style=\"color:red\">性</span>不利,影响成品质量.","authors":[{"authorName":"许伟阳","id":"08a3e696-ee94-4ee9-88b1-e90fa9870ef6","originalAuthorName":"许伟阳"},{"authorName":"曹志刚","id":"18ffbb8f-7ac2-4bd5-a7eb-67475092f533","originalAuthorName":"曹志刚"},{"authorName":"颜慧成","id":"1364d8e7-84e8-4cd0-b8ca-b6d8451eba34","originalAuthorName":"颜慧成"},{"authorName":"唐广波","id":"9aba8c9a-0f8b-40e0-b825-6049d274fbe2","originalAuthorName":"唐广波"},{"authorName":"仇圣桃","id":"d150f534-d31e-4cc1-bdf8-c0780fd5f4a6","originalAuthorName":"仇圣桃"}],"doi":"","fpage":"87","id":"b78c0698-c92b-426f-96f6-61de4e59993c","issue":"4","journal":{"abbrevTitle":"GTFT","coverImgSrc":"journal/img/cover/gtft1.jpg","id":"28","issnPpub":"1004-7638","publisherId":"GTFT","title":"钢铁钒钛"},"keywords":[{"id":"4dd0fdc9-0c6e-43bb-bff5-7436cfcfd2d8","keyword":"特殊钢","originalKeyword":"特殊钢"},{"id":"f606a246-3fcd-4d95-a9a8-89ffd88d7c4f","keyword":"碳偏析","originalKeyword":"碳偏析"},{"id":"8ed5cfb8-9677-4bf9-97d8-5043af9cb203","keyword":"<span style=\"color:red\">遗传性</span>","originalKeyword":"遗传性"},{"id":"5da260d9-b03b-4438-9671-3ac009641da7","keyword":"大方坯","originalKeyword":"大方坯"},{"id":"f1f6103c-e3aa-446f-9d00-03a44f0e02c8","keyword":"轧材","originalKeyword":"轧材"}],"language":"zh","publisherId":"gtft201104018","title":"特殊钢大方坯碳偏析<span style=\"color:red\">遗传性</span>及其轧材组织特征研究","volume":"32","year":"2011"}],"totalpage":4919,"totalrecord":49184}