信息檢索作業(yè)

PAGE4信息檢索課作業(yè)姓名李佳澤學(xué)號31604044院系機械工程學(xué)院專業(yè)機械工程完成時間：2016年11月

課題名稱：名稱：生物可降解血管支架微注塑成型技術(shù)基礎(chǔ)研究一、課題背景簡要介紹生物可降解聚合物血管支架是血管支架最具有潛力的發(fā)展方向，其不僅具有良好的生物相容性能，而且在經(jīng)過暫時的支撐血管壁后最終降解成二氧化碳和水，對人體無刺激，減少了血栓和再狹窄的發(fā)生，能夠?qū)Σ∽兲幯鼙３滞〞程峁└玫闹委?。目前，血管支架的成型主要依靠激光加工的方式實現(xiàn)，激光加工雖然可以保證完整的血管支架結(jié)構(gòu)，但存在影響較大的熱影響區(qū)，同時制造成本較高，生產(chǎn)效率和成品率較低，這導(dǎo)致了血管支架高昂的售價。二、文獻檢索策略(一)檢索詞：（要求列出密切相關(guān)的關(guān)鍵詞及其同義詞，確保檢索詞能涵蓋課題的主要內(nèi)容）中文詞：英文詞：生物可降解1.biodegradable血管支架；支架2.intravascularstent;stent微注塑；微注射3.microinjection4.成型4.moldingtechnology5..7.8.8.(二)檢索式及檢索策略：中文檢索式：生物可降解and(血管支架or支架)and(微注塑or微注射)and成型英文檢索式：(biodegr*)and(intravascularnear/0stentorstent)and(micronear/0injection)and(moldingnear/0technology)

三、文獻檢索范圍及結(jié)果（請附上檢索結(jié)果首頁截圖，要求檢索途徑、檢索提問式、所有檢索的限定條件及部分檢索結(jié)果的記錄清晰完整，并要求檢索結(jié)果與檢索課題內(nèi)容密切相關(guān)）1.《萬方數(shù)據(jù)庫》（萬方數(shù)據(jù)知識服務(wù)平臺）（1）構(gòu)建檢索式：主題：(生物可降解)*主題：(血管支架）+主題：（支架)*主題：(微注塑）+主題：（微注射)*主題：(成型),命中213條。（2）檢索結(jié)果如下：[1]王勻,劉炯,戴亞春等.陶瓷微注射成型技術(shù)的研究與進展[J].硅酸鹽通報,2012,31(5):1155-1160.[2]莊儉,吳大鳴,張亞軍等.微注射成型機螺桿參數(shù)的優(yōu)化設(shè)計[J].工程塑料應(yīng)用,2011,39(2):79-82.DOI:10.3969/j.issn.1001-3539.2011.02.021.[3]薛俊利,王昌,胡修鑫等.微注射成型技術(shù)的最新進展與展望[J].現(xiàn)代制造工程,2011,(12):118-122.DOI:10.3969/j.issn.1671-3133.2011.12.028.[4]王昌,胡修鑫.微注射成型技術(shù)的最新進展與展望[J].模具工業(yè),2011,37(12):1-4.DOI:10.3969/j.issn.1001-2168.2011.12.001.[5]關(guān)偉盛.微注射壓縮成型多層次結(jié)構(gòu)的設(shè)計、調(diào)控和功能化[J].機械工程學(xué)報,2015,51(11):108.[6]劉寧.微注射成型機的發(fā)展趨勢探討[J].新農(nóng)村（黑龍江）,2010,(12):166,125.[7]關(guān)偉盛,黃漢雄,汪斌等.微注射壓縮成型超疏水表面的微結(jié)構(gòu)設(shè)計和調(diào)控[J].高分子學(xué)報,2013,(10):1285-1290.DOI:10.3724/SP.J.1105.2013.13031.[8]王小華,丁玉梅,謝鵬程等.微注射成型工藝及裝備研究進展[J].現(xiàn)代塑料加工應(yīng)用,2012,24(1):50-53.DOI:10.3969/j.issn.1004-3055.2012.01.014.[9]侯立軍,吳大鳴,莊儉等.基于正交實驗的微型換熱器微注射成型工藝[J].塑料,2012,41(3):77-79,89.DOI:10.3969/j.issn.1001-9456.2012.03.022.[10]王敏杰,趙丹陽,宋滿倉等.聚合物微成型模具設(shè)計與制造技術(shù)[J].模具工業(yè),2015,(5):7-16,21.[11]潘亞敏,石素宇,常寶寶等.退火對等規(guī)聚丙烯微注射制品性能及結(jié)構(gòu)的影響[J].鄭州大學(xué)學(xué)報（工學(xué)版）,2013,34(6):59-62,89.DOI:10.3969/j.issn.1671-6833.2013.06.15.[12]戴亞春,王勻,周建忠等.微齒輪注塑成型正交優(yōu)化及數(shù)值模擬[J].材料工程,2010,(7):46-48,53.DOI:10.3969/j.issn.1001-4381.2010.07.010.[13]SeongHoSON,SungCheolPARK,WonsikLEE等.Fe-Ni和Fe-Ni-W合金電鑄成型μ-PIM齒輪模具[J].中國有色金屬學(xué)報（英文版）,2013,23(2):366-371.DOI:10.1016/S1003-6326(13)62471-1.[14]駱接文,陳強,蔡一湘等.粉末微注射成形制備鐘表用啟步齒輪的技術(shù)研究[J].熱加工工藝,2011,40(19):189-191,195.DOI:10.3969/j.issn.1001-3814.2011.19.063.[15]陳安伏,黃漢雄.雙級微結(jié)構(gòu)上二氧化硅粒子對微注壓成型PP表面潤濕特性的影響[J].高分子學(xué)報,2016,(6):791-796.DOI:10.11777/j.issn1000-3304.2016.15323.[16]宋滿倉,劉瑩,祝鐵麗等.微流控芯片注塑成型缺陷的成因與對策[J].機械工程學(xué)報,2011,47(6):33-38.DOI:10.3901/JME.2011.06.033.[17]周國發(fā),楊先魯,張宇等.成型溫度對聚合物微型機械模內(nèi)組裝成型流固耦合變形的影響[J].工程塑料應(yīng)用,2013,41(2):43-47.DOI:10.3969/j.issn.1001-3539.2013.02.009.[18]祝鐵麗,周亮,劉永云等.注射成型微流控芯片微溝槽成型質(zhì)量的無損檢測[J].光學(xué)精密工程,2010,18(7):1605-1612.DOI:10.3788/OPE.20101807.1605.[19]劉煜,李益民,夏卿坤等.基于顆粒模型的二維矩形模腔粉末微注射成型研究[J].材料工程,2010,(5):5-9.DOI:10.3969/j.issn.1001-4381.2010.05.002.[20]宋滿倉,劉瑩,祝鐵麗等.塑料微流控芯片的注塑成型[J].納米技術(shù)與精密工程,2011,09(4):329-334.DOI:10.3969/j.issn.1672-6030.2011.04.008.[21]高萬旭,宓士軍,高景春等.經(jīng)皮椎體成型術(shù)治療高齡骨質(zhì)疏松性椎體壓縮骨折[J].實用骨科雜志,2010,16(4):288-290.DOI:10.3969/j.issn.1008-5572.2010.04.016.[22]韋麗君,尹曉鵬,張鐵鑫等.微構(gòu)件的熱注射近凈成型控制[J].長春工業(yè)大學(xué)學(xué)報（自然科學(xué)版）,2014,(3):261-265.DOI:10.3969/j.issn.1674-1374.2014.03.006.[23]陳安伏,黃漢雄,關(guān)偉盛等.超疏水高分子材料表面的微結(jié)構(gòu)設(shè)計及其可調(diào)的黏附性[J].高分子學(xué)報,2015,(3):245-251.DOI:10.11777/j.issn1000-3304.2015.14235.[24]徐斌,王敏杰,于同敏等.細胞皿微型塑件注射成型工藝[J].化工學(xué)報,2010,61(11):2999-3005.[25]龐中華,張晶,張金營等.注射工藝參數(shù)對微流控芯片成型影響實驗研究[J].模具制造,2010,10(11):61-64.DOI:10.3969/j.issn.1671-3508.2010.11.017.[26]李大帥,楊生,劉萍萍等.微型齒輪模具設(shè)計加工與成型實驗研究[J].模具制造,2015,15(12):68-70.DOI:10.3969/j.issn.1671-3508.2015.12.019.[27]林權(quán),陳沖.塑料微齒輪微流道注塑模充填研究[J].工程塑料應(yīng)用,2011,39(4):38-41.DOI:10.3969/j.issn.1001-3539.2011.04.009.[28]周國發(fā),王文光,劉岑等.過程參數(shù)對微型機械模內(nèi)組裝成型流固耦合變形影響[J].塑性工程學(xué)報,2012,19(1):107-112.DOI:10.3969/j.issn.1007-2012.2012.01.022.[29]張之瑞,鄭秀婷,吳大鳴等.注射壓縮成型工藝對聚合物表面連續(xù)性微結(jié)構(gòu)精度的影響[J].塑料,2016,45(2):8-10.DOI:10.3969/j.issn.1001-9456.2016.02.003.[30]李通,董成良,霍云等.不同成型溫度下PP/PET纖維/GF復(fù)合材料的結(jié)構(gòu)與性能[J].塑料工業(yè),2015,43(4):83-86.DOI:10.3969/j.issn.1005-5770.2015.04.019.[31]肖坤峨.模糊PID法在塑料成型條件優(yōu)化中的應(yīng)用[J].工程塑料應(yīng)用,2016,44(8):129-132.DOI:10.3969/j.issn.1001-3539.2016.08.028.[32]宋滿倉,于文強.微圓柱陣列微流控芯片注射成型[J].模具工業(yè),2015,41(9):36-41.[33]侯立軍,劉穎,吳大鳴等.微注射成型制品精度的表征及其主要影響因素[J].塑料,2012,41(1):90-93.DOI:10.3969/j.issn.1001-9456.2012.01.028.[34]王曉娜,張亞軍,莊儉等.基于正交試驗的微泵成型工藝參數(shù)優(yōu)化設(shè)計[J].塑料,2010,39(5):76-78.[35]王丹,李莊.微膠囊發(fā)泡劑/熱塑性聚酯彈性體注射發(fā)泡成型工藝研究[J].塑料工業(yè),2012,40(4):64-66,122.[36]王小峰,蔣晶,侯建華等.化學(xué)物理聯(lián)合微孔發(fā)泡成型制備聚己內(nèi)酯多孔材料[J].化工學(xué)報,2014,(6):2386-2392.DOI:10.3969/j.issn.0438-1157.2014.06.059.[37]張響,李倩,石凡等.基于SPH方法的微注射成型數(shù)值模擬[J].化工學(xué)報,2012,63(1):157-162.DOI:10.3969/j.issn.0438-1157.2012.01.022.[38]謝英,翟明,劉萌萌等.注射微泡成型熔體固化過程數(shù)值模擬[J].合成樹脂及塑料,2010,27(4):53-55,63.DOI:10.3969/j.issn.1002-1396.2010.04.015.[39]王凱,祝鐵麗,丁宇等.超聲波輔助微注射成型制品的可視化模具設(shè)計[J].模具工業(yè),2016,42(5):38-41,45.DOI:10.16787/ki.1001-2168.dmi.2016.05.009.[40]石素宇,許江偉,潘亞敏等.退火對微注射成型超薄LLDPE制品的增強作用[J].現(xiàn)代塑料加工應(yīng)用,2015,27(1):1-4.DOI:10.3969/j.issn.1004-3055.2015.01.001.[41]胡建良,蔣炳炎,李俊等.聚合物超聲波熔融塑化實驗研究[J].中南大學(xué)學(xué)報（自然科學(xué)版）,2010,41(4):1369-1373.[42]張楊,劉曉東,孟杏等.工藝參數(shù)對微注射成型等規(guī)聚丙烯拉伸性能的影響[J].工程塑料應(yīng)用,2014,(2):47-51.DOI:10.3969/j.issn.1001-3539.2014.02.011.[43]苑會林,申娟,劉長維等.高速鐵路墊片TPEE的注射微發(fā)泡性能研究[J].工程塑料應(yīng)用,2013,(10):17-21.DOI:10.3969/j.issn.1001-3539.2013.10.004.[44]吳智明,吳大鳴,張亞軍等.影響聚合物微翅片注射成型翹曲變形的因素探討[J].塑料,2011,40(6):94-97.[45]彭和,蔣顯全,李婧等.氧化鋁陶瓷注射成型研究進展[J].功能材料,2015,(21):21007-21011,21017.DO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Soares,J.S.andJ.E.JrMoore,BiomechanicalChallengestoPolymericBiodegradableStents.ANNALSOFBIOMEDICALENGINEERING,2016.44(2):p.560-579.[2]. MO,X.,W.SONG,andB.SUN,Braiding-reinforcednano-fibersmall-caliberintravascularstentformanufacturingintravascularrepairingmaterial,comprisestubularbraid,andinnerandoutercorelayerfilm.(CN104689382-A).[3]. Scoutaris,N.,etal.,DevelopmentandBiologicalEvaluationofInkjetPrintedDrugCoatingsonIntravascularStent.MOLECULARPHARMACEUTICS,2016.13(1):p.125-133.[4]. ZHANG,X.andG.YUAN,Electrochemicalpolishingofbiodegradablemagnesiumalloyintravascularstentbypreprocessingcutmagnesiumalloyintravascularstent,andelectrochemicallypolishing.(CN102140671-A;CN102140671-B).[5]. Wang,C.andP.Zhang,INVITRODEGRADATIONBEHAVIOURSOFPDOMONOFILAMENTANDITSINTRAVASCULARSTENTSWITHBRAIDEDSTRUCTURE.AUTEXRESEARCHJOURNAL,2016.16(2):p.80-89.[6]. 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