{"currentpage":1,"firstResult":0,"maxresult":10,"pagecode":5,"pageindex":{"endPagecode":5,"startPagecode":1},"records":[{"abstractinfo":"高能球磨是一种新型的<span style=\"color:red\">固态</span>加工<span style=\"color:red\">工艺</span>和纳米制备技术,能够制备许多溶液或熔融方法难以实现的高性能聚合物、聚合物合金以及聚合物/无机纳米复合材料.综述了聚合物高能球磨技术的原理、研究进展及其应用领域,并展望了聚合物高能球磨技术的发展潜力.","authors":[{"authorName":"朱延果","id":"0ddb5280-f0d1-4baa-b69a-eb76a8d239ea","originalAuthorName":"朱延果"},{"authorName":"李志强","id":"ecc441d3-b87c-476d-9906-bfa047014030","originalAuthorName":"李志强"},{"authorName":"张荻","id":"5f59faf5-afc4-45d0-890a-1571b607fc19","originalAuthorName":"张荻"}],"doi":"","fpage":"93","id":"6512575e-431e-4579-9b78-2c9faad4b92e","issue":"4","journal":{"abbrevTitle":"CLDB","coverImgSrc":"journal/img/cover/CLDB.jpg","id":"8","issnPpub":"1005-023X","publisherId":"CLDB","title":"材料导报"},"keywords":[{"id":"6e985171-6fd5-400c-98a9-39d4cf3e4808","keyword":"高能球磨","originalKeyword":"高能球磨"},{"id":"3eccabd3-c4ce-4c71-92fb-8a41d5ae13cc","keyword":"聚合物","originalKeyword":"聚合物"},{"id":"5cb93128-68b2-4214-9236-c514f1aca527","keyword":"纳米技术","originalKeyword":"纳米技术"},{"id":"b9da013d-265f-48f0-9f4a-5dad1c7a7fa2","keyword":"<span style=\"color:red\">固态</span><span style=\"color:red\">工艺</span>","originalKeyword":"固态工艺"},{"id":"c2a68acb-c445-4c27-9e1f-f02a62b5c0f7","keyword":"研究现状","originalKeyword":"研究现状"}],"language":"zh","publisherId":"cldb200804023","title":"聚合物高能球磨技术的研究进展","volume":"22","year":"2008"},{"abstractinfo":"研究了铝合金微波<span style=\"color:red\">固态</span>电路腔体磁控溅射镀银<span style=\"color:red\">工艺</span>方法.通过对铝合金微波<span style=\"color:red\">固态</span>电路腔体进行化学氧化、磷酸阳极氧化前处理,解决铝基材微波<span style=\"color:red\">固态</span>电路腔体溅射银层的附着力问题;通过保护工装设计,实现腔体选择性溅射,满足微波<span style=\"color:red\">固态</span>电路组装要求.","authors":[{"authorName":"李晓艳","id":"72d40b19-efc9-4b7e-a18c-4482df3d1921","originalAuthorName":"李晓艳"},{"authorName":"仝晓刚","id":"5bad8931-9a2d-42e5-935a-7c9c1be56c90","originalAuthorName":"仝晓刚"}],"doi":"10.3969/j.issn.1001-3849.2014.06.003","fpage":"9","id":"569575c0-42c4-49a0-8081-df685ce5245e","issue":"6","journal":{"abbrevTitle":"DDYJS","coverImgSrc":"journal/img/cover/DDYJS.jpg","id":"20","issnPpub":"1001-3849","publisherId":"DDYJS","title":"电镀与精饰   "},"keywords":[{"id":"c69a4865-4d8d-4172-9814-d97e9e0deeab","keyword":"磁控溅射","originalKeyword":"磁控溅射"},{"id":"6ce474f0-c345-40d8-a494-da07b26f4d82","keyword":"铝合金基体","originalKeyword":"铝合金基体"},{"id":"453b5265-9a8b-436b-9567-740880b25abf","keyword":"局部镀银","originalKeyword":"局部镀银"},{"id":"eb86925a-a6b2-4b64-a7c8-d6f1c61a922f","keyword":"微波<span style=\"color:red\">固态</span>电路腔体","originalKeyword":"微波固态电路腔体"}],"language":"zh","publisherId":"ddjs201406003","title":"微波<span style=\"color:red\">固态</span>电路腔体的磁控溅射镀银<span style=\"color:red\">工艺</span>研究","volume":"36","year":"2014"},{"abstractinfo":"提出了半<span style=\"color:red\">固态</span>连铸的主要<span style=\"color:red\">工艺</span>参数设计原则: 浇注温度为浇入制浆室后的熔体温度恰好等于液相线的温度; 制浆室预热温度保证熔体浇入后, 其界面温度不小于停止流动的临界温度, 不大于熔体的初始温度; 开拉时间在保证开拉时引锭不滑脱的前提下越短越好; 拉坯速度既保证金属熔体通过制浆室的时间不小于非技晶球状组织的形成时间, 又要保证熔体在通过结晶器的时间内能够形成不小于安全厚度的凝固层.","authors":[{"authorName":"邢书明","id":"c6c7044f-f7b4-4314-9e07-252f65e64f7d","originalAuthorName":"邢书明"},{"authorName":"曾大本","id":"61798a2b-243d-47d1-8db5-faf4d1d68278","originalAuthorName":"曾大本"},{"authorName":"胡汉起","id":"cb966e34-b082-4a43-af5d-fa44b5d9e5c9","originalAuthorName":"胡汉起"},{"authorName":"马静","id":"5bd0d2f6-671e-4633-a3c9-402f402fd224","originalAuthorName":"马静"},{"authorName":"李亚敏","id":"6628c53c-2b90-4570-bf61-5f47af02cf48","originalAuthorName":"李亚敏"}],"doi":"","fpage":"163","id":"c6669cee-01a7-47f8-b995-7130d74402d0","issue":"z1","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":"31ef5be8-149a-4185-bf09-39e3896e61ae","keyword":"半<span style=\"color:red\">固态</span>金属","originalKeyword":"半固态金属"},{"id":"911ae5bb-7936-40ea-b588-217763a6dc90","keyword":"连铸","originalKeyword":"连铸"},{"id":"0f5c09ce-d094-4525-b882-4506cc8c54e4","keyword":"<span style=\"color:red\">工艺</span>参数","originalKeyword":"工艺参数"}],"language":"zh","publisherId":"zgysjsxb2001z1039","title":"半<span style=\"color:red\">固态</span>连铸<span style=\"color:red\">工艺</span>参数设计","volume":"11","year":"2001"},{"abstractinfo":"论述了半<span style=\"color:red\">固态</span>金属加工技术,即流变铸造、二次加热与触变成形等<span style=\"color:red\">工艺</span>过程数值模拟技术的研究进展和现状.给出了各<span style=\"color:red\">工艺</span>过程的模拟实例,并对半<span style=\"color:red\">固态</span>金属加工过程模拟的发展进行了评价.","authors":[{"authorName":"沈健","id":"a335fe74-0043-4a3f-a889-e19e93027838","originalAuthorName":"沈健"},{"authorName":"谢水生","id":"1a89b1f2-8205-421c-b20c-26584251b738","originalAuthorName":"谢水生"},{"authorName":"石力开","id":"367838c1-be53-46e2-9ea2-affccba6078b","originalAuthorName":"石力开"}],"doi":"10.3969/j.issn.0258-7076.1999.06.008","fpage":"431","id":"267e39b2-b4bb-4615-976a-ef8cd5e41192","issue":"6","journal":{"abbrevTitle":"XYJS","coverImgSrc":"journal/img/cover/XYJS.jpg","id":"67","issnPpub":"0258-7076","publisherId":"XYJS","title":"稀有金属"},"keywords":[{"id":"6946cb06-8dde-472a-b327-1ba29a389936","keyword":"半<span style=\"color:red\">固态</span>加工","originalKeyword":"半固态加工"},{"id":"d516b431-080d-46b6-ad25-a872f0c92f83","keyword":"热传导","originalKeyword":"热传导"},{"id":"815cca2f-64ce-4c5a-970b-04362f44d4fd","keyword":"流变铸造","originalKeyword":"流变铸造"},{"id":"eaaa47dd-54cb-4812-9001-a3afc66ad42f","keyword":"模拟","originalKeyword":"模拟"}],"language":"zh","publisherId":"xyjs199906008","title":"半<span style=\"color:red\">固态</span>金属加工<span style=\"color:red\">工艺</span>过程的模拟进展","volume":"23","year":"1999"},{"abstractinfo":"半<span style=\"color:red\">固态</span>成形<span style=\"color:red\">工艺</span>具有能耗低、制件性能好、可以实现近净成形等特点,近年来倍受人们关注.本文综述了半<span style=\"color:red\">固态</span>成形<span style=\"color:red\">工艺</span>在金属及金属基复合材料成形中的应用及其数值模拟技术的研究进展,并对其今后的发展研究方向进行了展望.","authors":[{"authorName":"任学平","id":"0c9b4134-61dc-456a-bebb-112b2135f877","originalAuthorName":"任学平"}],"doi":"10.3969/j.issn.1001-4381.2006.z1.126","fpage":"476","id":"9efa47b3-f4c1-45ac-a656-a12cb83bd753","issue":"z1","journal":{"abbrevTitle":"CLGC","coverImgSrc":"journal/img/cover/CLGC.jpg","id":"9","issnPpub":"1001-4381","publisherId":"CLGC","title":"材料工程"},"keywords":[{"id":"a3a5caed-c2a9-4647-a21d-1ee181234b47","keyword":"半<span style=\"color:red\">固态</span>","originalKeyword":"半固态"},{"id":"5522c166-5a09-4166-921e-a48c65d369bf","keyword":"近净成形","originalKeyword":"近净成形"},{"id":"30556258-105c-4184-840a-79fc7f7bd91d","keyword":"神经网络","originalKeyword":"神经网络"},{"id":"67900a3e-2b75-4035-9cd4-e533620d9fd5","keyword":"优化","originalKeyword":"优化"}],"language":"zh","publisherId":"clgc2006z1126","title":"半<span style=\"color:red\">固态</span>压力成形<span style=\"color:red\">工艺</span>的研究进展","volume":"","year":"2006"},{"abstractinfo":"用低过热度浇注和弱电磁搅拌<span style=\"color:red\">工艺</span>制备A356铝合金半<span style=\"color:red\">固态</span>浆料, 研究了浇注温度、\n搅拌功率和搅拌时间对A356铝合金的半<span style=\"color:red\">固态</span>浆料的影响. 结果表明,\n用该<span style=\"color:red\">工艺</span>可以制备出球状初生$\\alpha$--Al晶粒的半<span style=\"color:red\">固态</span>A356合金浆料.\n与单纯低过热度浇注的试样相比较, 在弱电磁搅拌条件下,适当提高浇注温度亦可获得理想的球状A356合金浆料, 也简化了实际浇注<span style=\"color:red\">工艺</span>的操作.低过热度浇注和弱电磁搅拌, 加速了合金液向外传热和减小了其温度梯度,扩大了同时凝固的区域, 细化了初生$\\alpha$--Al晶粒, 造成的强迫流动,\n扩大了合金熔体的温度扰动和局部温度起伏,\n促使初生$\\alpha$--Al二次臂的熔断和球状初生$\\alpha$--Al晶粒的形成.","authors":[{"authorName":"刘政","id":"62e4dcd1-091c-4161-afac-f3df9e6ec006","originalAuthorName":"刘政"},{"authorName":"毛卫民","id":"44d19536-15e4-4422-95cd-8030f48e73d3","originalAuthorName":"毛卫民"},{"authorName":"赵振铎","id":"5fce809e-ad2a-4bf8-ac8e-94136fac4eba","originalAuthorName":"赵振铎"}],"categoryName":"|","doi":"","fpage":"125","id":"e7934660-05c6-4053-a55d-b6425ed5bc7a","issue":"2","journal":{"abbrevTitle":"CLYJXB","coverImgSrc":"journal/img/cover/CLYJXB.jpg","id":"16","issnPpub":"1005-3093","publisherId":"CLYJXB","title":"材料研究学报"},"keywords":[{"id":"fad26e52-a006-4a58-955f-2b761295edda","keyword":"金属材料","originalKeyword":"金属材料"},{"id":"e2ad7891-a3d8-4f0d-a259-7c1284063a2a","keyword":"null","originalKeyword":"null"},{"id":"c6e6e163-f734-461e-9804-fce36064c316","keyword":"null","originalKeyword":"null"}],"language":"zh","publisherId":"1005-3093_2006_2_10","title":"用新<span style=\"color:red\">工艺</span>制备半<span style=\"color:red\">固态</span>铝合金浆料","volume":"20","year":"2006"},{"abstractinfo":"用低过热度浇注和弱电磁搅拌<span style=\"color:red\">工艺</span>制备A356铝合金半<span style=\"color:red\">固态</span>浆料,研究了浇注温度、搅拌功率和搅拌时间对A356铝合金的半<span style=\"color:red\">固态</span>浆料的影响.结果表明,用该<span style=\"color:red\">工艺</span>可以制备出球状初生α-Al晶粒的半<span style=\"color:red\">固态</span>A356合金浆料.与单纯低过热度浇注的试样相比较,在弱电磁搅拌条件下,适当提高浇注温度亦可获得理想的球状A356合金浆料,也简化了实际浇注<span style=\"color:red\">工艺</span>的操作.低过热度浇注和弱电磁搅拌,加速了合金液向外传热和减小了其温度梯度,扩大了同时凝固的区域,细化了初生α-Al晶粒,造成的强迫流动,扩大了合金熔体的温度扰动和局部温度起伏,促使初生α-Al二次臂的熔断和球状初生α-Al晶粒的形成.","authors":[{"authorName":"刘政","id":"69752c62-7717-4a5c-bcfb-56d617276328","originalAuthorName":"刘政"},{"authorName":"毛卫民","id":"b5435eda-19b9-4a1b-afcc-e2d374d2266d","originalAuthorName":"毛卫民"},{"authorName":"赵振铎","id":"62f85589-c318-446e-8d1e-10315b3aa30c","originalAuthorName":"赵振铎"}],"doi":"10.3321/j.issn:1005-3093.2006.02.003","fpage":"125","id":"a2b47dd8-0274-4aa5-84c9-27281cab9dc5","issue":"2","journal":{"abbrevTitle":"CLYJXB","coverImgSrc":"journal/img/cover/CLYJXB.jpg","id":"16","issnPpub":"1005-3093","publisherId":"CLYJXB","title":"材料研究学报"},"keywords":[{"id":"43568442-2fea-461d-a8b1-6f5b482debdd","keyword":"金属材料","originalKeyword":"金属材料"},{"id":"1b152ae9-ea43-43d6-8992-30b53f51e2c1","keyword":"半<span style=\"color:red\">固态</span>","originalKeyword":"半固态"},{"id":"23182289-ae89-404f-8001-fbbd11697efd","keyword":"低过热度浇注","originalKeyword":"低过热度浇注"},{"id":"57d11595-fb5c-4999-9d4e-09830776ac2a","keyword":"弱电磁搅拌","originalKeyword":"弱电磁搅拌"},{"id":"6e2394e9-bdf2-4ad3-934c-c06f4d145bed","keyword":"A356铝合金","originalKeyword":"A356铝合金"}],"language":"zh","publisherId":"clyjxb200602003","title":"用新<span style=\"color:red\">工艺</span>制备半<span style=\"color:red\">固态</span>铝合金浆料","volume":"20","year":"2006"},{"abstractinfo":"利用自行设计的单辊剪切/冷却(SCR)试验机对LY11合金进行了半<span style=\"color:red\">固态</span>凝固实验,研究了<span style=\"color:red\">工艺</span>条件对LY11半<span style=\"color:red\">固态</span>合金组织的影响.结果表明,辊-靴间隙宽度的适当范围为2～3 mm;浇注温度影响半<span style=\"color:red\">固态</span>合金坯料内部晶粒的大小与形状,浇注温度在730～750 ℃范围内,可获得细小、均匀球状或椭球状晶粒组织;冷却方式会影响半<span style=\"color:red\">固态</span>合金坯料晶粒的大小与分布,水冷制得的合金晶粒尺寸比空冷的小2～3个级别,而空冷制得半<span style=\"color:red\">固态</span>合金坯料的晶粒分布较为均匀.","authors":[{"authorName":"管仁国","id":"4dc3c824-e924-406e-9eb4-cc43df102f5f","originalAuthorName":"管仁国"},{"authorName":"陈彦博","id":"33c7bfbf-c977-4655-b467-9335b955f148","originalAuthorName":"陈彦博"},{"authorName":"温景林","id":"4b048fad-1825-437d-85e7-758170252c13","originalAuthorName":"温景林"}],"doi":"","fpage":"5","id":"3dde9415-f82b-4f4e-a032-42e031ce03e8","issue":"z1","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":"3f45e1ad-e6c1-46f9-87a2-42cf77a6990a","keyword":"剪切","originalKeyword":"剪切"},{"id":"b3ca92ee-a8b6-40b1-8180-147e1074b01c","keyword":"半<span style=\"color:red\">固态</span>合金","originalKeyword":"半固态合金"},{"id":"8b1c9068-fcf8-414f-8fc1-bfe26d3d134a","keyword":"浇注温度","originalKeyword":"浇注温度"},{"id":"031a333f-944a-4645-95d3-423f3a32d782","keyword":"冷却","originalKeyword":"冷却"}],"language":"zh","publisherId":"zgysjsxb2001z1002","title":"单辊剪切/冷却<span style=\"color:red\">工艺</span>对LY11半<span style=\"color:red\">固态</span>合金组织的影响[","volume":"11","year":"2001"},{"abstractinfo":"利用ADSTEFAN 2012软件模拟了低压半<span style=\"color:red\">固态</span>铸造A356铝合金轮毂的充型和凝固情况,并结合模拟结果成形轮毂.对成形轮毂进行缺陷分析以验证模拟结果,得出合适的低压半<span style=\"color:red\">固态</span>铸造铝合金轮毂成形<span style=\"color:red\">工艺</span>.结果表明:低压半<span style=\"color:red\">固态</span>铸造A356铝合金轮毂成形的最佳铝液温度为610℃,模具温度为400℃,有利于保证充型的完整和顺序凝固.","authors":[{"authorName":"王瑞","id":"baeb4cfc-02b9-4ef3-8289-0538041f5e5a","originalAuthorName":"王瑞"},{"authorName":"朱慧","id":"c63ad65c-38b2-4a36-a631-4293e25f0862","originalAuthorName":"朱慧"},{"authorName":"张恒华","id":"49da9ede-345f-4a8a-bc19-685e36a3d763","originalAuthorName":"张恒华"},{"authorName":"杨弋涛","id":"3629ec78-b7cc-40d1-b208-1d24e5fbfb1d","originalAuthorName":"杨弋涛"}],"doi":"","fpage":"47","id":"2a20b45d-0346-4aa9-84f2-2905dbc8eecc","issue":"4","journal":{"abbrevTitle":"SHJS","coverImgSrc":"journal/img/cover/SHJS.jpg","id":"59","issnPpub":"1001-7208","publisherId":"SHJS","title":"上海金属"},"keywords":[{"id":"0a769812-34ef-457f-9c0f-ff0b984d53bb","keyword":"A356铝合金","originalKeyword":"A356铝合金"},{"id":"2b769495-a1ca-4b83-a8ea-be9d1163fb00","keyword":"半<span style=\"color:red\">固态</span>","originalKeyword":"半固态"},{"id":"62332561-920a-4ccc-bd4b-62496f9311e2","keyword":"低压铸造","originalKeyword":"低压铸造"},{"id":"c7415b2b-8a38-465a-9e54-c3ae7078827e","keyword":"轮毂","originalKeyword":"轮毂"},{"id":"38f9c5f0-e180-4a5f-a713-87f4fdcc47d6","keyword":"模拟","originalKeyword":"模拟"}],"language":"zh","publisherId":"shjs201404012","title":"低压半<span style=\"color:red\">固态</span>铸造A356铝合金轮毂成形<span style=\"color:red\">工艺</span>的模拟与缺陷分析","volume":"36","year":"2014"},{"abstractinfo":"采用自制的电磁搅拌装置, 制备出具有球形初生相微粒的半<span style=\"color:red\">固态</span>Al-6.6%Si合金. 研究了冷却速率和搅拌强度对半<span style=\"color:red\">固态</span>合金的球形初生相微粒形成的影响. 球形初生相颗粒的生成必须具有适当的冷却速率, 而高的磁感应强度则有利于初生相颗粒的细化、球化和均匀化. 提出了球形初生相微粒演化机理, 认为剧烈的搅拌使初生相在长大过程中, 不断发生枝晶臂的弯曲融合、熔断和机械断裂.","authors":[{"authorName":"郭钧","id":"8fca9277-0a3d-4352-a742-5adbd275a692","originalAuthorName":"郭钧"},{"authorName":"谢水生","id":"20823628-05e4-46fd-960f-0c5190f62608","originalAuthorName":"谢水生"},{"authorName":"黄声宏","id":"f38adfcf-279c-4b97-8e8a-c0f226e71bd7","originalAuthorName":"黄声宏"}],"doi":"10.3969/j.issn.0258-7076.1998.06.007","fpage":"424","id":"36d03af3-f286-438e-815f-3300f44a3d78","issue":"6","journal":{"abbrevTitle":"XYJS","coverImgSrc":"journal/img/cover/XYJS.jpg","id":"67","issnPpub":"0258-7076","publisherId":"XYJS","title":"稀有金属"},"keywords":[{"id":"34ecc6a8-bae8-4e57-a67b-28c0e6463b66","keyword":"半<span style=\"color:red\">固态</span>","originalKeyword":"半固态"},{"id":"ef4572f8-2351-4963-b833-4feb30a067d8","keyword":"电磁搅拌","originalKeyword":"电磁搅拌"},{"id":"a247fa7c-b95d-4649-916c-fd325fd6e763","keyword":"Al-Si合金","originalKeyword":"Al-Si合金"}],"language":"zh","publisherId":"xyjs199806007","title":"半<span style=\"color:red\">固态</span>铝合金的制备<span style=\"color:red\">工艺</span>研究","volume":"22","year":"1998"}],"totalpage":3884,"totalrecord":38839}