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基于工作面压力监测的支架性能评价 被引量:3
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作者 徐严军 张海文 《西部探矿工程》 CAS 2012年第3期123-126,共4页
采场压力的监测对工作面支架的选型、工作状态及性能具有很好的参考价值。在综采工作面顶板初次来压、周期来压等不同时期内,通过对液压支架压力分布的监测,计算顶板动载系数,统计分析液压支架工作阻力的变化情况,并结合采场围岩地质特... 采场压力的监测对工作面支架的选型、工作状态及性能具有很好的参考价值。在综采工作面顶板初次来压、周期来压等不同时期内,通过对液压支架压力分布的监测,计算顶板动载系数,统计分析液压支架工作阻力的变化情况,并结合采场围岩地质特性等因素,对工作面支架的初撑力、平均工作阻力及平均循环末阻力值等性能做出综合评价。 展开更多
关键词 支架性能 动载系数 支护阻力 循环末阻力值
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热压-盐析法制备骨组织工程支架的工艺及性能表征 被引量:4
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作者 任天斌 宋莹 +1 位作者 冯玥 袁伟忠 《中国组织工程研究与临床康复》 CAS CSCD 北大核心 2009年第42期8281-8285,共5页
背景:热压-盐析法制备聚合物组织工程支架,设备简单,成型快速,力学强度较高,但是适当的支架成型条件及材料组分对支架的性能尤为重要。目的:观察热压-盐析法制备聚乳酸/聚己内酯/纳米羟基磷灰石复合组织工程支架中温度、时间、压力以及... 背景:热压-盐析法制备聚合物组织工程支架,设备简单,成型快速,力学强度较高,但是适当的支架成型条件及材料组分对支架的性能尤为重要。目的:观察热压-盐析法制备聚乳酸/聚己内酯/纳米羟基磷灰石复合组织工程支架中温度、时间、压力以及羟基磷灰石的加入对支架性能的影响。设计、时间及地点:复合材料性能测试,对比观察实验,于2008-09/2009-05在同济大学材料科学与工程学院纳米与生物高分子材料研究所完成。材料:聚乳酸、聚己内酯、羟基磷灰石均为实验室合成。方法:采用液相共沉淀法制备纳米羟基磷灰石,借助溶剂将聚乳酸、聚己内酯、纳米羟基磷灰石和致孔剂进行共混,去除溶剂后在一定温度、压力、时间下进行热压制得聚乳酸/聚己内酯/纳米羟基磷灰石复合组织工程支架。主要观察指标:①X射线衍射分析、透射电镜观察羟基磷灰石的相结构、形状和尺寸。②扫描电镜观察复合多孔支架的形貌。③通过表面接触角观察不同材料的亲水性。④不同热压时间、温度、压力对支架孔隙率及抗压强度的影响。⑤不同含量羟基磷灰石对支架抗压强度的影响。结果:热压-盐析法制备的聚乳酸/聚己内酯/纳米羟基磷灰石复合组织工程支架具有连通开孔的多孔结构,孔径多分布在300~340μm,支架的表面无结皮现象,孔隙率和抗压强度均满足骨支架的应用要求;纳米羟基磷灰石的加入提高了支架的抗压强度,但支架亲水性随其质量分数的升高而下降,纳米羟基磷灰石质量分数为4%时支架的综合性能相对较好;热压温度、时间、压力对支架的性能影响较大,支架的综合性能在热压温度65℃、热压压力7MPa、热压时间3min条件时相对较好。结论:热压-盐析法构建的骨组织工程支架孔径、孔隙率和抗压强度均满足应用要求;热压温度、时间、压力对支架的性能影响较大;纳米羟基磷灰石的加入提高了支架的抗压强度,但对支架亲水性有影响。 展开更多
关键词 多孔支架 骨组织工程 热压-盐析法 nHA 支架性能
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独塔斜拉桥钢混结合段主梁支架施工关键技术研究
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作者 杨金财 邱海飞 《建筑机械》 2024年第4期177-181,共5页
为探究独塔斜拉桥钢混结合段主梁支架法施工过程中支架施工安全性和受力性能,首先结合某独塔斜拉桥工程概况,论述了钢混结合梁基本情况,并对结合段支架施工关键方法和施工支架进行了论述,其次研究了钢混结合段施工支架可能承受的荷载情... 为探究独塔斜拉桥钢混结合段主梁支架法施工过程中支架施工安全性和受力性能,首先结合某独塔斜拉桥工程概况,论述了钢混结合梁基本情况,并对结合段支架施工关键方法和施工支架进行了论述,其次研究了钢混结合段施工支架可能承受的荷载情况及对应荷载值,最后基于有限元模型探究了施工荷载组合下钢混结合段支架的受力性能。研究表明:独塔斜拉桥钢混结合段采用支架现浇施工时,要在总体设计方案中明确具体施工工艺流程和支架基本参数;设计的钢混结合段支架在最不利荷载组合下的最大组合应力值为128MPa,管立柱稳定应力为141MPa,贝雷梁各杆件轴力最大值为361kN,均未超过容许值。 展开更多
关键词 独塔斜拉桥 钢混结合梁 支架施工法 支架受力性能
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冠状动脉支架力学性能的理论和实验研究 被引量:5
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作者 周承倜 董何彦 《应用力学学报》 EI CAS CSCD 北大核心 2008年第4期556-561,共6页
冠状动脉支架必须具备的力学性能为:传送时的纵向柔软性,由球囊充压扩张时的动力大变形性能,在血管内支撑血管回缩压力的抗屈曲性能,以及术后金属支架留存在血管内的抗疲劳性能。本文内容分两部分:1、综述和评论支架的上述四种力学性能,... 冠状动脉支架必须具备的力学性能为:传送时的纵向柔软性,由球囊充压扩张时的动力大变形性能,在血管内支撑血管回缩压力的抗屈曲性能,以及术后金属支架留存在血管内的抗疲劳性能。本文内容分两部分:1、综述和评论支架的上述四种力学性能,2、重点论述金属支架纵向柔软性的最新研究结果。支架的结构刚度有离散性,介入治疗的要求和受力情况复杂,目前支架的力学性能质量标准尚未完善建立,支架结构设计中力学问题的处理仍存在盲目性。本文对于制定支架力学性能的质量标准以及改进和提高支架网架结构的力学性能设计都具有重要意义。 展开更多
关键词 冠状动脉支架 支架纵向柔软性 支架力学性能试验
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改善巷道支架结构与性能的实验室研究
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作者 吴绍倩 《矿山压力与顶板管理》 1995年第1期57-59,共3页
本文分析了对支架性能进行实验室研究的意义,介绍了通过支架整架力学性能检测对改善支架结构和性能的作用以及取得的效益。
关键词 巷道支架 支架力学性能 试验台 煤矿
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复合锶离子光交联海藻酸盐水凝胶支架的机械和生物学性能 被引量:9
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作者 赵德路 铁朝荣 +4 位作者 王新 朱怀安 杨偲偲 李晓保 尹苗 《中国组织工程研究》 CAS 北大核心 2019年第18期2880-2887,共8页
背景:光交联藻酸盐水凝胶以其良好的稳定性、可控性和生物相容性而备受关注,然而其作为骨组织工程支架仍存在不足之处,如强度不足、细胞黏附性能较差、缺乏骨诱导性等。目的:在光交联海藻酸盐水凝胶支架中复合锶离子,探究其机械和生物... 背景:光交联藻酸盐水凝胶以其良好的稳定性、可控性和生物相容性而备受关注,然而其作为骨组织工程支架仍存在不足之处,如强度不足、细胞黏附性能较差、缺乏骨诱导性等。目的:在光交联海藻酸盐水凝胶支架中复合锶离子,探究其机械和生物学性能变化。方法:在甲基丙烯酸酯化海藻酸盐形成光交联水凝胶后,分别浸泡于不同浓度(0,10,30,50,80,100 mmol/L)锶离子溶液中,制备携锶离子光交联海藻酸盐水凝胶,测量其溶胀率、弹性模量,并用扫描电镜和能谱仪分析材料表面形态和元素。将MC3T3-E1细胞分别接种于不同浓度携锶离子光交联海藻酸盐水凝胶表面,培养第4小时,Live/Dead染色观察细胞黏附情况;培养第3天,Live/Dead染色观察细胞伸展情况。结果与结论:①扫描电镜显示,随着引入锶离子浓度的升高,携锶离子光交联海藻酸盐水凝胶的致密程度增加,孔径减小;②能谱仪检测显示,随着引入锶离子浓度的增加,携锶离子光交联海藻酸盐水凝胶表面锶离子含量递增;③随着引入锶离子浓度的增加,携锶离子光交联海藻酸盐水凝胶溶胀率呈逐渐降低的趋势,弹性模量呈逐渐升高的趋势;④随着引入锶离子浓度的提高,MC3T3-E1细胞在携锶离子光交联海藻酸盐水凝胶表面的早期黏附率呈递增趋势,细胞伸展越来越好;⑤结果表明,在光交联海藻酸盐水凝胶中引入锶离子,可提高其机械性能,促进细胞的黏附伸展。 展开更多
关键词 海藻酸钠 光交联 光交联海藻酸盐水凝胶 骨组织工程 骨诱导 水凝胶支架 锶离子 支架机械性能
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深井软岩巷道钢管混凝土支护结构性能试验及应用 被引量:147
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作者 高延法 王波 +4 位作者 王军 李冰 邢飞 王宗纲 金同乐 《岩石力学与工程学报》 EI CAS CSCD 北大核心 2010年第A01期2604-2609,共6页
深井软岩及动压巷道支护难度大,传统的支护方式已难以满足需要。为此研发钢管混凝土支架,在实验室测试支架的力学性能,试验支架采用φ140mm×4.5mm钢管和C40混凝土,由4段构成,接头采用套管连接。在侧向约束、纵向点载荷加压条件下,... 深井软岩及动压巷道支护难度大,传统的支护方式已难以满足需要。为此研发钢管混凝土支架,在实验室测试支架的力学性能,试验支架采用φ140mm×4.5mm钢管和C40混凝土,由4段构成,接头采用套管连接。在侧向约束、纵向点载荷加压条件下,试验支架的极限承载力为1504.1kN,纵向极限压缩变形为82.65mm,破坏方式为钢管材料屈服破坏。与U型钢支架相比,钢管混凝土支架支护反力大、性价比优越。钢管混凝土支架在煤矿井下巷道支护应用效果良好,有着广泛的推广应用前景。 展开更多
关键词 采矿工程 钢管混凝土支架 支架力学性能试验 深井软岩巷道 巷道支护
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不同髂静脉支架的物理性能分析 被引量:4
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作者 李丹 黄文 杨靖捷 《医学信息》 2020年第3期87-91,98,共6页
目的比较三款治疗髂静脉疾病的血管支架(Wallstent、Smart control及Venovo)的物理性能,为腔内治疗髂静脉压迫和狭窄类疾病支架的选择提供指导依据。方法应用自制加压系统测量三款血管支架的抗压力及弯折应力,在数字显影造影(DSA)-3D成... 目的比较三款治疗髂静脉疾病的血管支架(Wallstent、Smart control及Venovo)的物理性能,为腔内治疗髂静脉压迫和狭窄类疾病支架的选择提供指导依据。方法应用自制加压系统测量三款血管支架的抗压力及弯折应力,在数字显影造影(DSA)-3D成形下观测三款支架在受压及弯折时的形变情况,用Imaje软件进行形变面积及形变截面长径和短径的测量并比较。结果在支架抗压力方面,Venovo抗压能力较好,Smart control次之,Wallstent略弱,差异有统计学意义(P<0.017);在弯折应力方面,Venovo较好,Smart control其次,Wallsent略差;在弯折形变方面,当弯折成150°、120°时,Wallstent与Smart control比较,差异无统计学意义(P>0.017),弯折至90°时,Smart control形变度明显增大,而Venovo在抗压性、柔顺性及弯折形变度方面均优于其他两款支架,差异有统计学意义(P<0.017)。结论不同的血管支架在力学性能上有很大差异,在选择支架治疗髂静脉压迫、狭窄这类疾病时应参考支架的不同力学特点,在弯曲角度不大时,Smart control和Wallstent弯折形变相近,均可使用,但抗压性能则Smart control抗压能力更佳,且柔顺性更好;而Venovo支架抗压性和柔顺性都较好,在静脉严重狭窄和静脉弯曲度大时均可使用。 展开更多
关键词 髂静脉 血管支架 支架物理性能
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Analysis of mechanical performance of braided esophageal stent structure and its wires
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作者 倪晓宇 王果 +1 位作者 龙志红 潘长网 《Journal of Southeast University(English Edition)》 EI CAS 2012年第4期457-463,共7页
This paper aims to find the relationship between the structural parameters and the radial stiffness of the braided stent and to understand the stress distribution law of the wires. According to the equation of the spa... This paper aims to find the relationship between the structural parameters and the radial stiffness of the braided stent and to understand the stress distribution law of the wires. According to the equation of the space spiral curve, a three-dimensional parametrical geometrical model is constructed. The finite element model is built by using the beam-beam contact elements and 3D beam elements. The constituent nitinol wires are assumed to be linear elastic material. The finite element analysis figures out that the radial stiffness of the stent and the stress distribution of the wires are influenced by all the structural parameters. The helix pitch of the wires is the most important factor. Under the condition of the same load and other structural parameters remaining unchanged, when the number of wires is 24, the stress of the wire crosssection is at the minimum. A comparison between the vitro experimental results and the analytical results is conducted, and the data is consistent, which proves that the current finite element model can be used to appropriately predict the mechanical performance of the braided esophageal stents. 展开更多
关键词 braided esophageal stent finite element mechanical performance radial stiffness WIRE
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Effect of hydroxyapatite:zirconia volume fraction ratio on mechanical and corrosive properties of Ti-matrix composite scaffolds 被引量:1
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作者 Mehmet TOPUZ Burak DIKICI +1 位作者 Mehmet GAVGALI Yasemin YILMAZER 《Transactions of Nonferrous Metals Society of China》 SCIE EI CAS CSCD 2022年第3期882-894,共13页
Ti-based scaffolds reinforced with zirconia and hydroxyapatite were produced successfully by a hybrid method with an eco-friendliness and low cost to obtain low elastic modulus(E) with sufficient physical, electrochem... Ti-based scaffolds reinforced with zirconia and hydroxyapatite were produced successfully by a hybrid method with an eco-friendliness and low cost to obtain low elastic modulus(E) with sufficient physical, electrochemical and biological properties. The effect of simultaneous modification of the volume fraction of hydroxyapatite(HA) and zirconia(ZrO_(2)) on scaffolds was investigated in terms of mechanical, corrosive, and antibacterial properties. Scanning electron microscopy with attached electron dispersive spectroscopy and X-ray diffraction were used for the characterization of scaffolds. Compression and electrochemical tests were performed to determine mechanical properties with detailed fracture mechanism and in-vitro corrosion susceptibility to simulated body fluid at 37 ℃,respectively. Antibacterial tests were carried out by comparing the inhibition areas of E.coli and S.aureus bacteria. It was observed that the mechanical strength of the scaffolds decreased with increasing HA:ZrO_(2)volume fraction ratio.The lowest E was achieved(6.61 GPa) in 6:4 HA:ZrO_(2)composite scaffolds. Corrosion current density(J_(corr)) values were calculated to be 21, 337, and 504 μ A/cm^(2) for unreinforced Ti, 3:2 and 6:4 HA:ZrO_(2)reinforced scaffolds,respectively. The inhibition capacity of the 6:4 reinforced composite scaffold was found to be more effective against S.aureus bacteria than other scaffolds. 展开更多
关键词 titanium biocomposite HYDROXYAPATITE ZIRCONIA SCAFFOLD mechanical properties in-vitro corrosion
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Advancements in three-dimensional titanium alloy mesh scaffolds fabricated by electron beam melting for biomedical devices: mechanical and biological aspects 被引量:13
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作者 Krishna Chaitanya Nune Shujun Li R. Devesh Kumar Misra 《Science China Materials》 SCIE EI CSCD 2018年第4期455-474,共20页
We elucidate here the process-structure-property relationships in three-dimensional(3 D) implantable titanium alloy biomaterials processed by electron beam melting(EBM) that is based on the principle of additive m... We elucidate here the process-structure-property relationships in three-dimensional(3 D) implantable titanium alloy biomaterials processed by electron beam melting(EBM) that is based on the principle of additive manufacturing. The conventional methods for processing of biomedical devices including freeze casting and sintering are limited because of the difficulties in adaptation at the host site and difference in the micro/macrostructure, mechanical, and physical properties with the host tissue. In this regard, EBM has a unique advantage of processing patient-specific complex designs, which can be either obtained from the computed tomography(CT) scan of the defect site or through a computeraided design(CAD) program. This review introduces and summarizes the evolution and underlying reasons that have motivated 3 D printing of scaffolds for tissue regeneration.The overview comprises of two parts for obtaining ultimate functionalities. The first part focuses on obtaining the ultimate functionalities in terms of mechanical properties of 3 D titanium alloy scaffolds fabricated by EBM with different characteristics based on design, unit cell, processing parameters, scan speed, porosity, and heat treatment. The second part focuses on the advancement of enhancing biological responses of these 3 D scaffolds and the influence of surface modification on cell-material interactions. The overview concludes with a discussion on the clinical trials of these 3 D porous scaffolds illustrating their potential in meeting the current needs of the biomedical industry. 展开更多
关键词 Electron beam melting 3D printing tissue engineering mechanical properties BIOCOMPATIBILITY
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High nitrogen nickel-free austenitic stainless steel:A promising coronary stent material 被引量:7
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作者 YANG Ke REN YiBin WAN Peng 《Science China(Technological Sciences)》 SCIE EI CAS 2012年第2期329-340,共12页
Currently commercialized coronary stents are mainly made of the medical 316L stainless steel and cobalt-based alloy(L605) due to their good combination of properties,especially excellent mechanical properties.However,... Currently commercialized coronary stents are mainly made of the medical 316L stainless steel and cobalt-based alloy(L605) due to their good combination of properties,especially excellent mechanical properties.However,the presence of high quantity of nickel and/or cobalt elements,the agents known to trigger the toxic and allergic responses,in these materials has caused many clinic concerns.The potential adverse effect of nickel ions release has prompted the development of high nitrogen nickel-free austenitic stainless steels for medical application.Nitrogen in steel is not only to replace the nickel but also improve the properties of steel.In this paper,the harmfulness and release of nickel from metallic stents,and the advantages in mechanical properties and hemocompatibility of high nitrogen nickel-free stainless steels for coronary stents are reviewed.Apart from the highlight of nickel-free,the superiority of high strength and better hemocompatibility of high nitrogen nickel-free stainless steels can guarantee to manufacture thinner strut coronary stents with remarkable anticoagulation ability.High nitrogen nickel-free stainless steels as a promising coronary stents material will attract more and more clinical doctors and stents makers to bring them into clinical application. 展开更多
关键词 high nitrogen steel NICKEL-FREE BIOCOMPATIBILITY coronary stent RESTENOSIS
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