MECHANISM ANALYSIS OF THICKNESS EFFECT ON MIXED MODE Ⅰ/Ⅱ FRACTURE OF LC4-CS ALUMINUM ALLOY

Mixed mode Ⅰ/Ⅱ fracture erperiments of LC4-CS aluminum alloy were conductedby using tension--shear specimens with thicknesses of 2, 4, 8 and 14mm. Fracturemechanisms of thickness effect on mixed mode Ⅰ/Ⅱ fracture were first examined fromfracture surface morphology to correlate with the macroscopic fracture behavior andstress state. It is found that specimen thickness has a strong influence on mixed modefracture. As thickness varies from thin to thick the macroscopic fracture surfacesappear the characteristics of plane stress state (2mm, 4mm--thick specimen), three--dimensional stress state (8mm--thick specimens), and plane strain state (14mm--thickspecimens), respectively. The specimens of all kinds of thicknesses are typical of ten-sile type failure under mode Ⅰ loading condition and shear type failure under mode Ⅱloading condition. Two distinct features coexist on the fracture surfaces under mixedmode loading conditions, and the corresponding proportion varies with loading mix-ity. Void--growth processes are the failure mechanism in both predominately tensile-and shears--type fractures. The size and depth of dimples on the fracture surface varygreatly with thickness. Therefore, it is extraordinary necessary to take into accountthe thickness effect when a mixed mode fracture criterion is being established.

(Ⅰ+Ⅱ)MIXED MODE HYDROGEN INDUCED CRACKING

Hydrogen induced cracking(HIC)of 0.3% C,1% Cr,1% Mn,1% Si high strength steel has been studied under simple mode Ⅰ,mode Ⅱ and(Ⅰ+Ⅱ)mixed mode loading conditions.Af- ter being hydrogen-charged in IN H_2SO_4 solution,the material behaved hydrogen embrittlement in all the cases studied.The threshold K_(ⅡH)/K_(ⅡX) of HIC under mode Ⅱ load- ing was 0.27,which was nearly the same as that K(ⅠH)/K_(ⅠX)=0.29 under mode Ⅰ loading. While the thresholds of-HIC under(Ⅰ+Ⅱ)mixed mode loading were 0.36,0.41 and 0.37 cor- responding to the K_Ⅱ/K_Ⅰ ratio of 0.27,0.4 and O.81.The results show that simple mode Ⅰ or mode Ⅱ loading is more susceptible to hydrogen embrittlement than(Ⅰ+Ⅱ)mixed mode. For explaining the experimental results,the effects of triaxial stress as well as plastic deformation ahead of crack tip has been discussed.

Simultaneously measuring initiation toughness of pure mode Ⅰ and mode Ⅱ cracks subjected to impact loads

In order to simultaneously measure the initiation toughness of pure mode Ⅰ and mode Ⅱ cracks in one specimen,a large-size double-cracked concave-convex plate(DCCP)specimen configuration was proposed.Impacting tests were implemented in the drop plate impact device.Strain gauges were employed to measure impact loads and crack initiation time.The corresponding numerical model was established by using the dynamic finite difference program AUTODYN,and the experimental-numerical method and ABAQUS code were utilized to obtain the initial fracture toughness of the crack.Using experiments and numerical research,we concluded that the DCCP specimen is suitable for measuring the initial fracture toughness of pure mode Ⅰ and mode Ⅱ cracks at the same time;the dynamic initiation toughness increases with the increase of loading rate and the crack initiation time decreases with increasing loading rate;the initiation toughness of mode Ⅱ crack is 0.5 times that of mode Ⅰ crack when subjected to the same loading rate.For the pre-crack in the vicinity of the bottom of a sample,when its length increases from 20 to 100 mm,the dynamic initiation toughness of the pure mode Ⅰ crack gradually decreases,and the longer the lower crack length is,the easier the crack would initiate,but the dynamic initiation toughness of pure mode Ⅱ crack varies little.

ROUGHNESS-INDUCED SHEAR RESISTANCE OF MODE Ⅱ CRACK GROWTH

It is obtained in this paper that the fatigue threshold value of mode H was 1.9 times of that of mode Ⅰ in dual-phase steel(DPS),and the normal stress intensity factor range oJ mode Ⅱ branch crack tip was 2.2 times of that of mode Ⅰ.Above results illustrate that the resistance of mode Ⅱ crack growth was higher than that of mode Ⅰ,the former resulting from roughness-induced shear resistance,the latter,crack closure. The mode Ⅱ component can play two important roles in near-threshold fatigue crack growth:(1)increasing crack tip plasticity which accelerates the crack growth and(2)intro- ducing crack surface contact and rubbing to reduce the crack propagation rate.By means of crack closure,the quantity of shear resistance was easily solved in this paper.The friction shear stress strength factor range of mode Ⅱ,K_,is still much higher than the closure stress strength factor range of mode Ⅰ,K_(Ⅰ,cl).This illustrated that the roughness enlarged the second role and played a role of shielding crack tip from mode Ⅱ crack.

混凝土Ⅰ-Ⅱ复合型裂缝扩展准则及扩展全过程的数值模拟

本文基于从试验中得出的混凝土Ⅰ-Ⅱ复合型裂缝起裂时的临界KⅠ-KⅡ曲线,提出了Ⅰ-Ⅱ复合型裂缝的扩展准则,即由外荷载在裂缝尖端产生的应力强度因子与虚拟裂缝黏聚力产生的应力强度因子的差大于或等于起裂时的临界KⅠ-KⅡ曲线时裂缝扩展,在此基础上采用有限元法对混凝土Ⅰ-Ⅱ复合型裂缝的起裂、稳定扩展及失稳扩展全过程进行了数值模拟,并计算了试件高度分别为2003、00、400、5006、00mm混凝土四点剪切梁的裂缝扩展路径、荷载-剪切位移曲线,数值模拟结果与试验结果吻合良好。研究表明,只要从试验中测得混凝土材料的Ⅰ-Ⅱ复合型裂缝起裂时的临界KⅠ-KⅡ曲线、抗拉强度及弹性模量,即可计算混凝土Ⅰ-Ⅱ复合型裂缝扩展全过程。

国产HTPB复合固体推进剂Ⅰ-Ⅱ型裂纹断裂性能实验研究

采用WDN-10KN材料实验机对含Ⅰ-Ⅱ复合型裂纹的HTPB复合固体推进剂进行了拉伸速率为2mm.min-1的单轴拉伸试验,用摄像机记录了推进剂裂纹扩展至断裂的整个过程。得到了六种不同裂纹倾斜角下的力-变形曲线及裂纹扩展开裂角和断裂载荷。与T断裂准则、S断裂准则和σθ断裂准则进行比较,结果表明推进剂裂纹扩展开裂角与T断裂准则的数值计算结果较为接近,说明可以借助于T断裂准则对推进剂裂纹扩展的初始开裂角进行初步的理论预测。

数字图像相关法测定岩石Ⅰ-Ⅱ复合型裂纹应力强度因子

提出了一种通过数字图像相关方法测定岩石Ⅰ-Ⅱ复合型裂纹尖端位置和应力强度因子的试验方法。试验通过数字图像相关方法测定裂纹尖端区域位移场数据,将位移场数据带入极坐标系下位移场方程,计算裂纹尖端位置和应力强度因子。试验结果表明:采用该方法可以准确的测定岩石Ⅰ-Ⅱ复合型裂纹应力强度因子、裂纹尖端位置及裂纹扩展长度,解决了以往研究方法因不能准确测定裂纹尖端位置和扩展方向,而无法准确测定岩石应力强度因子的难题。

基于损伤理论的混凝土Ⅰ-Ⅱ复合型裂缝扩展角

基于混凝土断裂与损伤的基本理论,进行了Ⅰ-Ⅱ复合型裂缝扩展方向研究,研究结果表明:Ⅰ-Ⅱ复合型裂缝扩展趋势是随着缝端损伤场的变化而变化的。通过缝端损伤场及损伤梯度的计算,分析了Ⅰ-Ⅱ复合型裂缝从起裂至失稳断裂裂缝扩展方向的变化规律,得到了Ⅰ-Ⅱ复合型裂缝的起裂扩展角和失稳扩展角。将其与文献结果进行对比,对比结果表明:用损伤理论研究裂缝的扩展角是可行的。

Ⅰ-Ⅱ复合型裂缝应力强度因子和应变能释放率的关系

为了探究复合型裂缝的应力强度因子K和应变能释放率G的关系,基于最大应力准则,采用能量法对Ⅰ-Ⅱ复合型裂缝的扩展进行理论分析。根据单一型裂缝应力强度因子和应变能释放率的关系,推导出Ⅰ-Ⅱ复合型裂缝K与G的关系公式,利用Abaqus软件建立Ⅰ-Ⅱ复合型裂缝的有限元模型,计算Ⅰ-Ⅱ复合型裂缝的应力强度因子和应变能释放率,与推导公式的计算结果进行对比,二者误差仅为2.5%,验证了推导公式的合理性。

混凝土Ⅰ-Ⅱ复合型虚拟裂缝模型及断裂能研究

本文运用白光散斑技术分级测定了混凝土试样Ⅰ-Ⅱ复合型断裂的位移场,并对断裂过程区进行跟踪观察,探讨了断裂机理,据此建立起Ⅰ-Ⅱ复合型断裂虚拟裂纹模型.本文还以四点剪切和直偏缝三点弯曲两种试样,测录了Ⅰ-Ⅱ复合型荷载位移F～δ全曲线,并计算出不同复合状态下的断裂能G_F^(Ⅰ-Ⅱ).

Ⅰ-Ⅱ复合型裂缝断裂角剪滞方法

建立了混凝土等准脆性材料的Ⅰ-Ⅱ复合型裂缝在单向拉伸荷载作用下断裂角的修正剪滞模型,得到了与试验相吻合且优于传统S判据的断裂角．合理简化了复合型裂缝试样的力学边界条件,得到了裂缝体各剪滞子层位移分布函数的解析表达式．引用一种所谓的最大应力集中因子的概念,对Ⅰ-Ⅱ复合型裂缝前缘应力场进行了简化描述．得到了复合裂缝断裂角的解析解．根据斜裂缝体的应力分布概况,设置不同的子层分区,得到了更为细化的子层位移分布模式．通过对计算数据的分析,提出了合理的按应力场分区设置子层的剪滞分析模型,从而得到了更为精确的斜裂缝断裂角．新方法的计算结果与试验结果除个别外的相对误差小于4％,均小于S判据,显示算法的卓越性．

Ⅰ-Ⅱ混合型裂纹的形状改变比能断裂准则的分析

利用形状改变比能分析了Ⅰ-Ⅱ混合型裂纹的开始角,形状改变比能断裂准则表明裂纹启裂方向与最小形状改变比能方向一致.该准则预测的Ⅰ-Ⅱ混合型裂纹开裂角和临界载荷与实验结果取得了较好的吻合.

光弹性五参数法确定Ⅰ-Ⅱ混合型裂纹应力强度因子

在考虑远场非奇异应力σox、σoy、τ0 影响的基础上 ,建立了 - 混合型裂纹应力强度因子与等差线条纹上点的极坐标间的非线性方程 ,为通过该方程确定应力强度因子 ,将θ=0及θ=π/2两极轴与三等差线条纹交点的坐标先后代入方程 ,并利用差分法得到了一种光弹性法确定 - 混合型裂纹应力强度因子的五参数法。作为实例 ,本文测定了环氧树脂及聚碳酸脂在不同载荷、不同裂纹条件下的应力强度因子 ,并将所得结果与相应的理论计算值及三参数法的结果进行了比较 ,发现本文提出的五参数法确定 - 混合型裂纹应力强度因子的方法 ,充分反映了远场非奇异应力的影响 。

Ⅰ-Ⅱ复合型裂纹J积分计算

采用3点弯试件,运用有限元分析软件ANSYS对复合型裂纹尖端J积分进行计算。通过应力强度因子KⅠ、KⅡ与J积分之间的关系对计算结果进行比较,验证了断裂参量之间的相互关联性。对不同网格划分情况下J积分的计算结果也进行了对比。结果表明,网格划分对计算结果没有影响,如果仅计算J积分值,裂纹尖端不必采用奇异单元划分网格。

Z-pin增强CMC层间Ⅰ+Ⅱ混合型断裂韧性

提出手工预缝纫方法将3K丝束的T300碳纤维引入预成型体,采用CVI工艺在预成型体和缝线处同时渗透SiC基体,制备了Z-pin增强平纹编织C/SiC陶瓷基复合材料。通过三点弯曲试验测定了Ⅰ+Ⅱ混合型应变能释放率,分析了材料的裂纹扩展行为和Z-pin增强机理。结果表明:随着裂纹扩展长度的增大,Ⅰ+Ⅱ型裂纹扩展阻力不断增大,相同裂纹扩展长度,增加Z-pin植入密度可以提高粘结强度,增大止裂作用。Z-pin增强平纹编织C/SiC陶瓷基复合材料裂纹扩展的耗能途径主要是层间界面剥离、Z-pin弹性剪切和拉伸变形。

Ⅰ-Ⅱ复合型裂纹开裂角准则的评价

目前对Ⅰ-Ⅱ复合型裂纹开裂角的研究已有许多种不同的判定准则。文中将各种不同的判定准则与实验结果进行分析比较发现,李中华等根据钝裂纹尖端应力场解,将控制断裂的物理量最大切向应力σθmax定义在裂纹尖端裂纹面上,获得一个新的复合型裂纹断裂准则,该准则不但物理意义明确、表达简捷,而且较其他准则更符合可收集到的实验数据。从而得到工程中比较简单实用的断裂准则。

基于表观断裂韧性的Ⅰ-Ⅱ型复合断裂准则分析

以Ⅰ-Ⅱ复合型裂纹结构为研究对象,对紧凑拉伸剪切试样(CTS)的剩余强度及开裂方向进行了理论分析及试验研究,推导出了仅与CTS结构加载角度相关的破坏载荷公式,并建立有限元模型(FEM),获取结构的表观断裂韧性值,试验验证了模型的可行性。通过对比不同断裂准则在开裂角、临界载荷及复合断裂韧度方面的工程适用性,表明基于von Mises应力的复合型断裂准则更有利于工程分析,为结构的承载能力评估提供了技术支持。

Ⅰ-Ⅱ-Ⅲ复合型裂缝应力强度因子与能量释放率的关系

基于断裂力学理论,应用复合型断裂判据中的最大周向应力判据和最大拉应变判据,以单一型裂缝应力强度因子K与能量释放率G的关系为基础,推导出Ⅰ-Ⅱ-Ⅲ复合型裂缝应力强度因子K_Ⅰ、K_Ⅱ、K_Ⅲ与能量释放率G_(Ⅰ-Ⅱ-Ⅲ)关系公式;并应用有限元软件进行Ⅰ-Ⅱ-Ⅲ复合型裂缝的有限元模拟,模拟值与理论值之间相差为1.14%,拟合良好,分析验证了复合型裂缝应力强度因子K_Ⅰ、K_Ⅱ、K_Ⅲ与能量释放率G_(Ⅰ-Ⅱ-Ⅲ)关系公式的合理性。

混凝土Ⅰ-Ⅱ复合型断裂过程声发射特征研究

通过对不同位置预制裂缝的混凝土三点弯曲梁进行声发射试验,开展了不同预制裂缝偏移比下混凝土Ⅰ-Ⅱ复合型断裂的声发射过程参数、状态参数、统计参数分布规律,以及参数间相关性研究。结果表明:振铃计数—时间曲线、能量释放率—时间曲线的突变可表征Ⅰ-Ⅱ复合型断裂过程的临界状态,随着预制裂缝偏移比的增大,峰值荷载增大,试件脆断性增强;部分声发射过程参数间具有高度或中度相关性;随着裂缝偏移比的增大,试件起裂阶段主频均以低频占优,失稳阶段主频呈现"高—低"趋势。该研究可为混凝土损伤状态判别提供一定基础。

FV520B钢Ⅰ-Ⅱ复合型断裂行为研究

针对离心压缩机叶轮出现的复合断裂问题,设计了I-II复合型断裂夹具和改进的紧凑拉伸试样,开展了叶轮典型材料FV520B不锈钢的试验研究。结果表明:FV520B钢I-II复合型断裂均属微孔聚集型韧性机制,只是在较大加载角度下,断口上的韧窝沿裂纹扩展方向被轻微拉长、深度变浅,主要由剪切分量占比增加所致;随加载角增加,材料总的断裂韧度增大,加载角为22. 5°和45°时较纯I型的分别增加了1. 8倍和4. 4倍,断裂韧度的I型和II型分量、及启裂角亦随之增大,采用复合型J积分断裂准则可以对试验结果进行较好地预测。本研究可为离心压缩机叶轮的复合断裂分析提供技术支撑。