共查询到19条相似文献,搜索用时 125 毫秒
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本文针对脆性材料的紧凑拉伸(CT)试件,提出了在复合疲劳载荷作用下预制疲劳裂纹的新方法,用此方法预制出7060-T6铝合金的CT试件疲劳裂纹并测试其断裂韧性。由于采用了框架结构和螺旋结构在CT试件的两侧面施加压缩载荷,在拉伸疲劳载荷作用下产生与之方向相反的压缩疲劳载荷,形成复合疲劳载荷,引起应力强度因子范围ΔK的下降,导致裂纹扩展速率的降低,从而控制了疲劳预制裂纹长度。此压缩疲劳载荷值用贴电阻片方法和组成全桥原理测定出。在一定拉伸疲劳载荷和压缩载荷下,可成功地预制出所需的疲劳裂纹长度。 相似文献
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为评估金属损伤复合材料胶接修补结构的剩余强度和剩余寿命,进行了含腐蚀和疲劳损伤LY12CZ航空铝合金板碳/环氧复合材料补片胶接修复结构的力学性能试验,分析了在静拉伸和疲劳载荷作用下修补结构的破坏模式、失效机理。试验研究发现:复合材料胶接修补技术有效改善了腐蚀和疲劳损伤这两类损伤区域的受力状况,恢复了其载荷传递路线,其静拉伸失效形式为金属韧性断裂后胶层脱粘的分步渐进式破坏;与含损伤未修补试样相比,胶接修补大幅度提高了试件的剩余强度和剩余寿命恢复率,修补后铝合金试件承载能力增加了约25%,疲劳寿命增加至修补前的约4倍~5倍。 相似文献
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对石英纤维布增强氰酸酯树脂基复合材料进行了常温、低温和湿热三种环境下的拉伸、压缩、面内剪切、层间剪切和钉孔挤压等试验研究,得到了该复合材料的拉伸压缩面内剪切的强度和弹性模量以及层间剪切强度和钉孔挤压强度等力学性能参数。结果表明:石英纤维布增强氰酸酯树脂基复合材料的力学性能参数具有温度相关性。在低温环境下,力学性能参数不同程度地增强,最大增长量达40%;而在高温环境下,力学性能参数则明显下降,最高下降量达到56%。另外,由于复合材料的层间性能主要由基体决定,所以湿热环境对复合材料层间性能的影响很大,在工程实际中应特别关注。 相似文献
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蜂窝结构作为一种多孔材料具有轻质、高强度、高刚度的优点, 兼具隔声降噪、隔热等优良性能, 被广泛应用于交通运输、航空航天等领域. 传统直壁蜂窝在受力后容易出现应力集中的问题, 这将导致蜂窝夹层产生裂纹破坏, 缩短夹层板的使用寿命. 针对此问题本文设计了一种以圆弧曲壁蜂窝作为芯层的蜂窝夹层板, 基于单位载荷法推导了蜂窝芯的等效参数, 建立曲壁蜂窝夹层板的动力学模型, 利用Chebyshev-Ritz方法求解悬臂边界下曲壁蜂窝夹层板的固有频率, 并用有限元方法进行对比验证, 发现前5阶固有频率的误差均在5%以内, 每阶固有频率对应的振型一致. 通过3D打印聚乳酸(PLA)制备了曲壁蜂窝夹层板, 使用万能试验机对PLA拉伸试件进行准静态拉伸测定了打印材料的杨氏模量, 搭建振动试验平台对制备的曲壁蜂窝夹层板进行正弦扫频试验、定频谐波驻留试验和冲击试验. 对比发现3D打印模型振动试验获得的前5阶固有频率与理论模型和有限元模型的计算结果三者一致, 试验发现曲壁蜂窝芯在特定频段内具有一定的抗冲击性能. 研究结果将为曲壁蜂窝在振动和隔振方面的应用提供理论支持. 相似文献
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对带各种缺口的复合材料层合板的疲劳性能进行了研究。设计了不同类型的制品试件,分别进行静态和疲劳试验。试验数据表明,缺口对复合材料的静强度和静刚度的影响不大,缺口试样的疲劳寿命带高于缺口试样,与金属材料相比,复合材料对缺口不敏感。采用条状试样获得的力学性能不参代表复合材料的真实性能,实现表明自由边的缺口对结构提高疲劳寿命是有利的。文中还对疲劳过程中复合材料的刚度变化进行了研究,对文中所研究的层合板, 相似文献
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胶接工艺缺陷对单搭胶接接头的拉伸剪切性能有着重要的影响。为了研究不同单搭接胶接层厚度对不同材质复合材料层合板胶接性能的影响规律,通过喷水穿透法超声C扫描对试样的剪切区域进行无损检测,并分别采用1mm、2mm、4mm的胶层厚度,以碳纤维/玻璃纤维复合材料层合板为被粘物,进行单搭胶接拉伸剪切性能试验。检测及试验结果表明:当胶层厚度h1mm时,对于相同材料的被粘物,胶层厚度越大,试件胶接接头剪切强度越小;相同的粘接剂厚度,以碳纤维增强复合材料板为被粘物的试件胶接接头剪切强度大于以玻纤增强复合材料板为被粘物的试件胶接接头强度;胶粘剂与碳纤维被粘物表面的润湿效果要优于胶粘剂与玻纤被粘物表面的润湿效果。 相似文献
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对有、无缝合复合材料层合板的拉伸疲劳性能进行了试验研究,考察了0^\circ缝合对复合材料光滑板拉伸疲劳损伤扩展规律的影响. 通过有限元素法分析了有、无缝合复合材料层合板的应力状态分布情况,对缝合复合材料层合板的拉伸疲劳损伤及其扩展机理进行了分析. 研究表明,缝合改变了复合材料层合板拉伸疲劳损伤起始与扩展的机理,针脚附近的面内正应力\sigma_{x}与层间剪应力的集中对层合板拉伸疲劳损伤的发生与扩展有着重要的作用,自由边界处的层间集中应力对缝合板的疲劳性能也有影响. 自由边界处的层间集中应力是导致无缝合层合板疲劳损伤及其扩展的主要原因. 相似文献
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采用真空导入成型工艺,制备出在面板与芯材界面上具有创新构型的点阵增强型复合材料夹层结构。对其面板拉伸性能、夹层结构剪切与平压性能进行了实验研究,得出点阵增强型复合材料夹层结构经树脂柱增强后,剪切与平压性能均得以提高的结论。对不同跨高比复合材料夹层结构开展了三点与四点弯曲实验,研究其典型受力破坏形态与机理。基于Eshelby等效夹杂原理,采用Mori-Tanaka方法求解了点阵增强型复合材料夹层结构经树脂柱增强后的剪切性能。利用经典夹层梁理论和非线性有限元模拟方法,预估了试件抗弯刚度与受弯极限承载力,理论分析与实验结果较吻合。 相似文献
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橡胶沥青应力吸收层力学与疲劳性能研究 总被引:2,自引:0,他引:2
防治反射裂缝是半刚性基层沥青路面新建或改建工程中的难题之一.橡胶沥青应力吸收层是一种较好的反射裂缝防治结构.本文设计了包含应力吸收层复合试件的剪切与疲劳试验,通过室内和现场取芯试件,研究了橡胶沥青应力吸收层及其他封层的力学和疲劳性能.聚酯玻纤布应力吸收层疲劳性能最好,但在较高橡胶沥青洒布量下,橡胶沥青与聚酯玻纤布应力吸收层疲劳性能接近;橡胶沥青应力吸收层的抗剪切变形能力最大,且其抗剪强度也比较高;橡胶沥青洒布量对橡胶沥青应力吸收层的抗剪强度、疲劳能力影响较大.当橡胶沥青洒布量在1.8~3.0kg/m2间增加时,橡胶沥青应力吸收层的抗剪强度、疲劳能力均增加,但不是线性关系增加. 相似文献
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The mechanical response and fracture of metal sandwich panels subjected to multiple impulsive pressure loads (shocks) were investigated for panels with honeycomb and folded plate core constructions. The structural performance of panels with specific core configurations under multiple impulsive pressure loads is quantified by the maximum transverse deflection of the face sheets and the core crushing strain at mid-span of the panels. A limited set of simulations was carried out to find the optimum core density of a square honeycomb core sandwich panels under two shocks. The panels with a relative core density of 4%–5% are shown to have minimum face sheet deflection for the loading conditions considered here. This was consistent with the findings related to the sandwich panel response subjected to a single intense shock. Comparison of these results showed that optimized sandwich panels outperform solid plates under shock loading. An empirical method for prediction of the deflection and fracture of sandwich panels under two consecutive shocks – based on finding an effective peak over-pressure – was provided. Moreover, a limited number of simulations related to response and fracture of sandwich panels under multiple shocks with different material properties were performed to highlight the role of metal strength and ductility. In this set of simulations, square honeycomb sandwich panels made of four steels representing a relatively wide range of strength, strain hardening and ductility values were studied. For panels clamped at their edge, the observed failure mechanisms are core failure, top face failure and tearing at or close to the clamped edge. Failure diagrams for sandwich panels were constructed which reveal the fracture and failure mechanisms under various shock intensities for panels subjected to up to three consecutive shocks. The results complement previous studies on the behavior and fracture of these panels under high intensity dynamic loading and further highlights the potential of these panels for development of threat-resistant structural systems. 相似文献
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针对钎焊钢质蜂窝夹芯梁开展高温三点弯曲疲劳实验研究. 结果表明芯子排列方向显著影响结构疲劳性能, 高温下W向试件易于承受循环载荷. 提出基于疲劳模量退化的寿命预测经验函数方法, 其参数与材料性质、载荷环境等因素有关. 该方法可以预测结构疲劳寿命而避免大量重复性实验. 结果表明: 对于L向试件, 剩余模量退化规律可用二阶多项式拟合; 而W向试件则倾向于用指数型函数描述. 从刚度退化方程中得到非线性累积损伤模型, 并与线性Miner准则和试验结果进行了比较, 合理解释了蜂窝夹芯梁的高温损伤问题. 相似文献
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The dynamic crush behaviors of aluminum 5052-H38 honeycomb specimens under compression dominant inclined loads are investigated by experiments. Different types of honeycomb specimens were designed for crush tests under pure compressive and compression dominant inclined loads with respect to the out-of-plane direction. A test fixture was designed for dynamic crush tests under inclined loads. The results of the dynamic crush tests indicate that as the impact velocity increases, the normal crush strength increases and the shear strength remains nearly the same. The trends of the normalized normal crush strengths under inclined loads for specimens with different in-plane orientation angles as functions of the impact velocity are very similar to each other. Based on the experimental results, a macroscopic yield criterion as a function of the impact velocity is proposed. The experimental results suggest that, as the impact velocity increases, the shape of the macroscopic yield surface changes, or more specifically, the curvature of the yield surface increases near the pure compression state. The experimental results also show similar microscopic progressive folding mechanisms in honeycomb specimens under pure compressive and inclined loads. However, honeycomb specimens under inclined loads show inclined stacking patterns of folds due to the asymmetric location of horizontal plastic hinge lines. 相似文献
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金属材料疲劳行为的应力场强法描述 总被引:13,自引:0,他引:13
基于近年来发展的应力场地对金属材料的多种疲劳行为作了系统的描述,给出了缺口疲劳系Kf,疲劳尺寸系数ε,疲劳加载方式因子CL,多轴疲劳极限方程,缺口件S-N曲线的预测等多方面的定量描述,并引用了大量的实验数据加以验证,由此表明应场强法是一种很好的抗疲劳设计方法。 相似文献
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Strength and stiffness of sandwich beams in bending 总被引:1,自引:0,他引:1
This investigation is concerned with the experimental versus analytical correlation of the mechanical properties of sandwich-beam specimens. Such sandwich structures are commonly employed in the aircraft industry. Four-point and three-point load tests were conducted on a large number of sandwich-beam specimens, fabricated by using fiber-glass reinforced plastics (both unidirectional and woven-glass cloth) and DTD 685 aluminum alloy for the facings with aluminum honeycomb core and polyurethane foam cores and the indigenously available Araldite as the bonding medium between the core and the facings.The flexural stiffness of the composite sandwich specimens used in this investigation compared favorably with theoretical predictions. The shear stiffness was found to be about 55 percent and 45 percent of the theoretically predicted values for FRP (fiberglass-reinforced-plastic) cloth and FRP unidirectional laminates with aluminum honeycomb core sandwich, respectively. The failure load as determined by experiments was less than the theoretically predicted safe load. There was a loss of strength as well as a steep decrease in the failure load in the case of low density foam core.It was concluded that FRP facing plates with aluminum honeycomb core sandwich structure may be preferred to similar aluminum-alloy facing sandwich construction if high flexural stiffness and shear stiffness properties are required at less cost and weight. Indigenously available Araldite was quite satisfactory for bonding the core to the facings.This investigation has confirmed the importance of experiments in the field of sandwich structures which can effectively replace other conventional uneconomical structural or machine members which are currently in use. 相似文献
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缺口件表象疲劳极限的定量化分析 总被引:1,自引:0,他引:1
测定了淬火、高温回火35CrMo钢光滑试样和三种缺口试样的三点弯曲疲劳极限,并利用ANSYS有限元软件计算了缺口试样加载时缺口截面上的应力分布.用“疲劳源形成的微细观过程理论”对试验结果进行了分析,认为,疲劳源的形成虽然发生在个别薄弱晶粒内部,是其中位错往返运动及交互作用的结果,但还必须满足一定的形变协调条件和概率条件,因而必须形成由相当多晶粒组成的“细观屈服区”.对试验结果的分析表明,如取“细观屈服区”临界尺寸(xW)等于11个奥氏体晶粒平均直径,则计算得到的缺口试样的表象疲劳极限,与实测值相比,其综合误差最小.据此计算的三种缺口试样的表象疲劳极限,其误差都小于5%.该xW可认为是材料的特征参量. 相似文献
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Mechanical behavior of sandwich panels with tetrahedral and Kagome truss cores fabricated from wires
《International Journal of Solids and Structures》2006,43(17):5228-5246
Wires are great candidates as the raw material for truss periodic cellular metals because they can display high strength as in piano wires, are easy to fabricate, and can be controlled to be defect free. New approaches based on tri-axial weaving of wires to create ideal trusses, i.e., tetrahedral and Kagome truss have been presented. The mechanical properties of the sandwich panels with the truss cores fabricated by using the new approaches under compression and bending loadings are analyzed by elementary beam theory and experiments. The relative density, stiffness, and strength of the sandwich panels are estimated by the derived equations and compared with the measured results. The failure mechanisms of the sandwich panels are analyzed, and also benefits and shortcomings of each approach with respect to mechanical performance and production are discussed. 相似文献
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通过试验发现交变载荷下含两孔洞的铝合金长条,由于两孔洞的方位不同,至少有五种疲劳裂纹引起的破坏型式.在五种不同的破坏情况下,疲劳裂纹初始寿命和疲劳裂纹扩展寿命均不同,必须分阶段评估,这也直接影响到整体疲劳寿命的预计;此时常规的、经典的疲劳裂纹扩展理论难以直接应用. 相似文献