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  4. 脱酮肟型耐低温室温硫化硅橡胶的制备及性能

高分子材料科学与工程, 2015, 31(9): 137-140.

脱酮肟型耐低温室温硫化硅橡胶的制备及性能

赵玉萍 1, , 李磊 2, , 大块合金的成分、晶形成能力、性能特点等最新研究成果及动态,并通过介绍高性能大块合金高尔夫球杆展望了大块合金广阔的实际应用前景.","authors":[{"authorName":"肖华星","id":"4a6013b4-312a-43c1-9094-16a1f1774219","originalAuthorName":"肖华星"},{"authorName":"陈光","id":"e343660f-ca73-41c4-b995-6718c83db3c9","originalAuthorName":"陈光"}],"doi":"","fpage":"18","id":"9a157e99-5d10-4263-ac26-bc3fcbce01ca","issue":"7","journal":{"abbrevTitle":"CLDB","coverImgSrc":"journal/img/cover/CLDB.jpg","id":"8","issnPpub":"1005-023X","publisherId":"CLDB","title":"材料导报"},"keywords":[{"id":"73ead3e7-7a44-405d-bf15-ab1e041f4a41","keyword":"大块","originalKeyword":"大块非晶"},{"id":"609ffb0d-b6e6-410a-932e-dd04b95f3f27","keyword":"成分","originalKeyword":"成分"},{"id":"0f413637-49ac-4573-ac50-939cf3b09ca9","keyword":"性能","originalKeyword":"性能"},{"id":"35ca07a2-09b1-4f47-8526-60f945e49f5e","keyword":"应用","originalKeyword":"应用"}],"language":"zh","publisherId":"cldb200207005","title":"大块研究的现状和动态","volume":"16","year":"2002"},{"abstractinfo":"大块材料是一种高性能的结构材料,并具有优异的软磁性能.综述了大块材料的发展过程及应用现状,对快速凝固粉末冶金技术(RS/RM)在大块材料制备方面的重要作用进行了评述.","authors":[{"authorName":"高玉来","id":"974ada12-b2e4-42a0-849c-c65048219927","originalAuthorName":"高玉来"},{"authorName":"沈军","id":"147cfb1a-7b19-4953-9d0e-7325ba585a74","originalAuthorName":"沈军"},{"authorName":"孙剑飞","id":"aeaacc79-2880-4e8c-aabd-69cf03d67938","originalAuthorName":"孙剑飞"},{"authorName":"周彼德","id":"f2f5cf30-ae0a-411c-8d9d-0e32264a257b","originalAuthorName":"周彼德"},{"authorName":"李庆春","id":"159f9e32-43e9-46f0-bd05-d42e842667e3","originalAuthorName":"李庆春"}],"doi":"","fpage":"31","id":"a4f47f3a-fb2f-4877-a45b-61c9904482bd","issue":"10","journal":{"abbrevTitle":"CLDB","coverImgSrc":"journal/img/cover/CLDB.jpg","id":"8","issnPpub":"1005-023X","publisherId":"CLDB","title":"材料导报"},"keywords":[{"id":"88065044-14a4-4982-b3fe-9b8dc4df960c","keyword":"大块","originalKeyword":"大块非晶"},{"id":"9ad8690a-9d45-4b16-b214-935d11afc218","keyword":"快速凝固","originalKeyword":"快速凝固"},{"id":"358ac19f-7f00-442c-836d-1ed8a5f69690","keyword":"粉末冶金","originalKeyword":"粉末冶金"},{"id":"30b93051-db09-4f95-a6a8-db6bd9141637","keyword":"超塑性","originalKeyword":"超塑性"},{"id":"223276eb-07f8-4e83-a621-e77dab3650c8","keyword":"牛顿流体","originalKeyword":"牛顿流体"}],"language":"zh","publisherId":"cldb200210011","title":"大块合金制备新技术--粉末固结成形法","volume":"16","year":"2002"},{"abstractinfo":"综述了大块合金的性能、制备方法及应用,对比了吸铸法制备的棒状Zr41.2Ti13.8Cu12.5Ni10Be22.5,Zr57Cu20Al10Ni8Ti5,Zr52.5Ti5Cu17.9Ni14.6Al10(原子分数)大块样品的过冷温度区间宽度(△Tx),给出了3种大块合金系列的热稳定性参数Tg、Tx及△Tx,提出了大块合金领域存在的问题及发展方向.","authors":[{"authorName":"高玉来","id":"a339de28-afd0-4f27-bdf0-640e2da38cbb","originalAuthorName":"高玉来"},{"authorName":"沈军","id":"780e923f-12b9-4452-a26c-6f3a04f0c5ba","originalAuthorName":"沈军"},{"authorName":"孙剑飞","id":"97ca44d0-d20a-4188-a5c3-16bf2255463d","originalAuthorName":"孙剑飞"},{"authorName":"王刚","id":"362cbc59-2f87-4e29-96b1-523b30710481","originalAuthorName":"王刚"},{"authorName":"邢大伟","id":"1c2ebcad-8f33-4109-bd3c-befc18717514","originalAuthorName":"邢大伟"},{"authorName":"周彼德","id":"1357387a-813c-4875-bb87-b80f4e866791","originalAuthorName":"周彼德"},{"authorName":"李庆春","id":"af7116c1-4d2d-4f7a-9417-9480e0f6be36","originalAuthorName":"李庆春"}],"doi":"10.3969/j.issn.1005-0299.2003.02.026","fpage":"215","id":"ed6e4d79-0233-4003-a0d9-1e10f5cd44ed","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":"6ef894c3-b6e2-40e0-b299-03ceb67432ff","keyword":"大块","originalKeyword":"大块非晶"},{"id":"3e2890cb-b117-42c4-88dc-b8b45a14ceef","keyword":"金属玻璃","originalKeyword":"金属玻璃"},{"id":"972eaede-5222-4d1c-8a2f-ca0df501168b","keyword":"牛顿流动","originalKeyword":"牛顿流动"},{"id":"0a534029-f7e1-41cb-b8a9-c2f187c8074f","keyword":"超塑性","originalKeyword":"超塑性"},{"id":"47a9a279-0d93-4513-a25b-30180f629fe7","keyword":"应用","originalKeyword":"应用"}],"language":"zh","publisherId":"clkxygy200302026","title":"大块合金的性能、制备及应用","volume":"11","year":"2003"},{"abstractinfo":"用差示扫描量热分析和原位高温X射线衍射研究了(Fe36Co36Nb4Si4.8B19.2)100-xCux(x=0, 0.5, 0.6, 0.7)大块合金的热稳定性及其化过程.结果表明,微量Cu显著改变了Fe36Co36Nb4Si4.8B19.2大块合金的化过程,无铜合金表现出单一尖锐化峰,而含铜量原子分数为0.5%,0.6%和0.7%的化过程分为四个阶段,Cu的加入提高了合金纳米析出相的热稳定性.原位X射线衍射研究表明,FeCoNbSiBCu大块合金初始化相为bcc-FeCo并于930K转变为bcc-Co7Fe3相.Cu添加后bcc-Co7Fe3的化表观激活能由460.41kJ/mol升高至545.69kJ/mol.用谢乐公式计算样品在840K保温17.5min的平均晶粒尺寸为22.3nm.","authors":[{"authorName":"贾元智","id":"8c8dc200-d0b6-49e6-b2f1-4db47cb2a1d9","originalAuthorName":"贾元智"},{"authorName":"魏尊杰","id":"44ad0212-6c44-4814-8620-572a25799323","originalAuthorName":"魏尊杰"},{"authorName":"马明臻","id":"cb2ccb1e-1b6c-4c09-84be-b700ae4fb016","originalAuthorName":"马明臻"},{"authorName":"曾松岩","id":"217884d3-ff23-4fc3-9dcd-4f187ac47616","originalAuthorName":"曾松岩"},{"authorName":"王文魁","id":"3305ebe7-b75f-4f7f-9d5c-7d8faad3583a","originalAuthorName":"王文魁"}],"doi":"10.3969/j.issn.1001-4381.2008.06.009","fpage":"33","id":"fe6e8293-66e8-47d6-a865-9672262431cf","issue":"6","journal":{"abbrevTitle":"CLGC","coverImgSrc":"journal/img/cover/CLGC.jpg","id":"9","issnPpub":"1001-4381","publisherId":"CLGC","title":"材料工程"},"keywords":[{"id":"e80ef78d-a2a2-4d33-a28b-56177a706c07","keyword":"大块","originalKeyword":"大块非晶"},{"id":"f9d1de64-24ed-43ef-9369-5e3d55c406c7","keyword":"热稳定性","originalKeyword":"热稳定性"},{"id":"bfa4e0c5-9ffc-44ac-8acb-50810275a487","keyword":"化","originalKeyword":"晶化"},{"id":"2468411a-c660-4aa5-a034-b414f097efe7","keyword":"晶粒尺寸","originalKeyword":"晶粒尺寸"}],"language":"zh","publisherId":"clgc200806009","title":"FeCoNbSiBCu大块合金的热稳定性与化过程研究","volume":"","year":"2008"},{"abstractinfo":"大块合金因其优异的力学、机械、物理等性能引起学术界和产业界广泛关注,其学术研究和应用领域内容范围正日益扩大和深入.本文简要介绍了大块材料微尺度力学行为研究中的最新进展,内容包括大块纳米压印过程中的锯齿状流变特性、变形过程中的微观结构转变以及断裂的微观机制及尺度效应.","authors":[{"authorName":"刘亚俊","id":"43dbe81f-5f75-42ec-a8d9-4648400fed1c","originalAuthorName":"刘亚俊"},{"authorName":"覃孟扬","id":"04fab9b2-3004-46cc-b3d1-cb09017fca6e","originalAuthorName":"覃孟扬"},{"authorName":"杨超","id":"201f0459-7785-4c67-9552-6be6cd84852d","originalAuthorName":"杨超"},{"authorName":"汤勇","id":"ce9e668a-88e6-4e15-850b-ee131e556ec0","originalAuthorName":"汤勇"}],"doi":"","fpage":"974","id":"0121c58e-7f1e-465e-a0b1-0c5d9b39c6d0","issue":"6","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":"073859e8-cf20-4435-b75c-4552149a4ea8","keyword":"大块","originalKeyword":"大块非晶"},{"id":"b5190103-6a86-448b-a4ad-72dc92512ef0","keyword":"微尺度","originalKeyword":"微尺度"},{"id":"ac568727-f77a-4111-8fd4-cb940da4d617","keyword":"力学行为","originalKeyword":"力学行为"},{"id":"4a508d03-402f-47bf-b818-f1f962855a27","keyword":"压印过程","originalKeyword":"压印过程"}],"language":"zh","publisherId":"clkxygc200806035","title":"大块合金的微尺度力学行为研究评述","volume":"26","year":"2008"},{"abstractinfo":"利用不锈钢管水淬法制备出直径为10 mm、钨颗粒体积分数达60%的基复合材料.RXD分析表明,除元素W峰外,没有发现其它晶态相的析出.单轴压缩实验表明,复合材料能大幅度提高合金的塑性应变.对复合材料塑性变形机理进行了讨论.","authors":[{"authorName":"邱克强","id":"d623468d-cd9f-4364-9df3-dcbf76d606a1","originalAuthorName":"邱克强"},{"authorName":"任英磊","id":"e1b46e46-898b-4786-9d9f-d59af53fcb34","originalAuthorName":"任英磊"}],"doi":"","fpage":"66","id":"a09e806a-de45-48e7-b247-38343d46d23c","issue":"1","journal":{"abbrevTitle":"XYJSCLYGC","coverImgSrc":"journal/img/cover/XYJSCLYGC.jpg","id":"69","issnPpub":"1002-185X","publisherId":"XYJSCLYGC","title":"稀有金属材料与工程"},"keywords":[{"id":"563f5363-e60f-48bd-9183-00b1f7fc4f26","keyword":"钨","originalKeyword":"钨"},{"id":"0bda8d37-5e85-4de3-8693-fe19b9e01d1c","keyword":"大块","originalKeyword":"大块非晶"},{"id":"d3c5c7f7-65d4-41db-9291-4f5d6842108d","keyword":"复合材料","originalKeyword":"复合材料"},{"id":"40246fe2-7b0d-4233-bbcc-58697b351ec5","keyword":"塑性变形","originalKeyword":"塑性变形"}],"language":"zh","publisherId":"xyjsclygc200601017","title":"钨颗粒增强大块复合材料","volume":"35","year":"2006"},{"abstractinfo":"研究了 Zr-Al-Ni-Cu大块合金在连续升温过程中的化行为.结果表明,随升温速度的加快,特征温度 Tg, Tx, Tp均向高温区移动,化热焓增加,过冷温度区间扩大,并且峰值温度 Tp对应的化体积分数减少.利用 Kissinger曲线和 Doyle曲线法计算合金的变温化激活能 E,结果表明,化激活能随化过程的进行,其值先增加后降低,并且在化即将结束时,化激活能急剧降低.采用 Kissinger曲线计算化激活能,由于特征温度在不同的加热速度下对应的化体积分数发生变化,从而导致了激活能计算值的偏大. ","authors":[{"authorName":"高玉来","id":"e80522a4-c0a9-44ad-bfa7-c0f846f951a5","originalAuthorName":"高玉来"},{"authorName":"沈军","id":"5b9e7708-93ae-4c33-a2eb-bf2982a1ca95","originalAuthorName":"沈军"},{"authorName":"孙剑飞","id":"19626e3b-4dc5-491e-9d73-e98007ae65f1","originalAuthorName":"孙剑飞"},{"authorName":"王刚","id":"1e5c9331-530d-4e33-80d9-cd20dafb6cf8","originalAuthorName":"王刚"},{"authorName":"陈德民","id":"030798b4-49de-4e7d-9ecc-a185d7e932f6","originalAuthorName":"陈德民"},{"authorName":"邢大伟","id":"f77c752d-7188-4ea3-9b88-e35fd6ffd7a3","originalAuthorName":"邢大伟"},{"authorName":"周彼德","id":"5a237795-5def-4c88-917d-74253f5e8a61","originalAuthorName":"周彼德"}],"doi":"","fpage":"518","id":"a0f0c8e7-cc7d-4942-aa7f-7735a43709f7","issue":"7","journal":{"abbrevTitle":"XYJSCLYGC","coverImgSrc":"journal/img/cover/XYJSCLYGC.jpg","id":"69","issnPpub":"1002-185X","publisherId":"XYJSCLYGC","title":"稀有金属材料与工程"},"keywords":[{"id":"2dc356d8-d71e-4484-bd89-8bb84380dbac","keyword":"大块","originalKeyword":"大块非晶"},{"id":"c15a8080-adc3-4b67-9f92-2430198c48bf","keyword":"化","originalKeyword":"晶化"},{"id":"dc15b6cb-54f2-42c3-9809-89ec9d16b0a8","keyword":"Zr-Al-Ni-Cu","originalKeyword":"Zr-Al-Ni-Cu"},{"id":"e108e80f-228f-4fbf-b95e-7deb9af7701f","keyword":"Kissinger曲线","originalKeyword":"Kissinger曲线"},{"id":"5fdd5a2d-8a02-4aae-9b30-5315223c0e6b","keyword":"Doyle曲线","originalKeyword":"Doyle曲线"}],"language":"zh","publisherId":"xyjsclygc200307010","title":"Zr-Al-Ni-Cu大块合金的变温化行为研究","volume":"32","year":"2003"},{"abstractinfo":"介绍了大块合金化研究的最新成果及动态,展示了本世纪在大块合金及其化领域的研究方向.","authors":[{"authorName":"肖华星","id":"b23fad8f-732c-488e-a5e0-46d43d9bbddf","originalAuthorName":"肖华星"},{"authorName":"陈光","id":"56664078-71ed-40af-85f0-10a5a76b3693","originalAuthorName":"陈光"}],"doi":"10.3969/j.issn.1004-244X.2003.01.017","fpage":"65","id":"c49698ff-5969-4035-aaa3-6912565f0746","issue":"1","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":"9d1ef03d-4927-41e4-a19e-07a634ae44b2","keyword":"大块","originalKeyword":"大块非晶"},{"id":"b8f3d3d7-be5b-43a0-b47a-1476da949c20","keyword":"纳米","originalKeyword":"纳米晶"},{"id":"ca57f6ae-8fde-419f-962e-815355047440","keyword":"复合材料","originalKeyword":"复合材料"},{"id":"ca1c2e2a-828c-4f53-8ca1-8e19ec1261cb","keyword":"化","originalKeyword":"晶化"},{"id":"14bacfcd-b850-40c8-88da-87712dcb5717","keyword":"性能","originalKeyword":"性能"}],"language":"zh","publisherId":"bqclkxygc200301017","title":"大块晶晶化研究的现状和动态","volume":"26","year":"2003"},{"abstractinfo":"制备了6种合金Zr65.5A15.6Ni6.5Cu22.4,Zr65.3A16.5Ni8.2Cu20,Zr65A17.5Ni10Cu17.5,Zr64.8A18.3Ni11.4Cu15.5,Zr64.5A19.2Ni13.2Cu1.3 1和Zr63.8Al11.4Ni17.2Cu7.6,共成分位于合金Zr64.5Al9.2Ni13.2Cu13.1和合金Zr63.8Al11.4Ni17.2Cu7.6的成分之间.这6种合金均显示了相的形成和较宽的过冷液相区范围△Tx值.以及较大的约化玻璃转变温度Trg值.除合金Zr63.8Al11.4Ni17.2Cu7.6的△Tx值为87 K外,其余5种成分合金的△Tx值均在97 K以上.最宽的达105 K,表明这6种合金是一个具有大玻璃形成能力和高热稳定性的合金系列.合金Zr63.8Al11.4Ni17.2Cu7.6是6种合金中玻璃形成能力和热稳定性最高的.其Tg、Tx和Trg值最高Inoue合金Zr65Al7.5Ni10Cu17.5并不是最佳成分.提出以等电子浓度和等原子尺寸规律作为设计大块合金成分的判据","authors":[{"authorName":"陈伟荣","id":"bf46c6e0-3237-45da-9246-13ea226772a8","originalAuthorName":"陈伟荣"},{"authorName":"王英敏","id":"eee4340b-44d2-43e3-94bd-190bd9c7afca","originalAuthorName":"王英敏"},{"authorName":"羌建兵","id":"4e41e0c9-ea0c-4d09-b405-87deaa5644a3","originalAuthorName":"羌建兵"},{"authorName":"徐卫平","id":"2f1bd1a8-fd7b-4583-9903-105e9580de65","originalAuthorName":"徐卫平"},{"authorName":"王德和","id":"ad9d10d1-a579-495f-94c3-ab2f2aa6dfb5","originalAuthorName":"王德和"},{"authorName":"董闯","id":"5efc94e9-7ea1-41fa-b336-c1002e3c5a74","originalAuthorName":"董闯"}],"doi":"10.3321/j.issn:1005-3093.2002.02.021","fpage":"219","id":"971250c6-5929-4700-94bb-e27b4c4a646a","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":"619feae1-58f2-4695-a206-d9600ccce220","keyword":"大块","originalKeyword":"大块非晶"},{"id":"93e2b88f-48d7-4f13-b4f7-7fe635b43b5e","keyword":"Zr基合金","originalKeyword":"Zr基合金"},{"id":"e8be0e55-2c57-447e-8d2e-05b18cd5bef1","keyword":"电子浓度","originalKeyword":"电子浓度"},{"id":"f856c1ec-6eb9-4ab6-80df-6257038bcd67","keyword":"原子尺寸","originalKeyword":"原子尺寸"}],"language":"zh","publisherId":"clyjxb200202021","title":"Zr基大块合金成分的等电子浓度和等原子尺寸判据","volume":"16","year":"2002"},{"abstractinfo":"本文用水淬法制备Zr-Nb基大块合金;并采用DSC热分析法测定了该种合金的玻璃转变温度和热稳定性;采用超声检测方法精确测定了材料的声学性能,由此计算得到一组大块合金的弹性性能参数.","authors":[{"authorName":"季颖斐","id":"babc185e-6573-4844-818b-539eb65480eb","originalAuthorName":"季颖斐"},{"authorName":"马学鸣","id":"b62692c1-3fcf-42e9-a240-dcbd925b5c99","originalAuthorName":"马学鸣"},{"authorName":"董远达","id":"3c66a78a-e759-49bd-97c0-0c2c2ca676ca","originalAuthorName":"董远达"},{"authorName":"张勇","id":"9e9470f9-afed-4fdc-8219-561e596c9446","originalAuthorName":"张勇"},{"authorName":"汪卫华","id":"bfb96dab-f7c0-4e08-9d5a-987a5b4c6784","originalAuthorName":"汪卫华"}],"doi":"10.3969/j.issn.1673-2812.2000.03.010","fpage":"39","id":"c73cac66-6256-4c21-8153-98b257d7f8e4","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":"179f1d30-2078-41cf-9c48-e672e42bd266","keyword":"大块","originalKeyword":"大块非晶"},{"id":"0c691fc1-4ba2-45ce-86a5-a15149ff62b3","keyword":"约化玻璃转变温度","originalKeyword":"约化玻璃转变温度"},{"id":"ab774fa6-7114-4f08-9c77-1fbd4be9d2ce","keyword":"弹性模量","originalKeyword":"弹性模量"}],"language":"zh","publisherId":"clkxygc200003010","title":"新型Zr-Nb基大块合金的形成及性能","volume":"18","year":"2000"}],"totalpage":3184,"totalrecord":31840}