Interface regulation effects on mechanical behavior of heterostructure Ti6Al4V/TiAl-based laminated composite sheets

Design of architectured composites with layered-ordered structure can solve the strength-toughness mismatch problem of structural materials. In the present study, heterostructure Ti6Al4V/TiAl laminated composite sheets with different thicknesses of interface layer and TiAl composite layer were successfully produced by hot-pressing technology. The effects of interface regulation and laminated structure on their mechanical properties, crack propagation, and fracture behavior were studied. The results indicated that compressive strength of the sheets increased with the decrease in interface thickness. Compressive strength of TiAl composite sheet with thicker composite layer reached 1481.55 MPa at the arrester orientation with sintering holding time of 40 min, which was 25.96% higher than that of the sheet obtained at 120 min. Analysis indicated that the interface area transferred stress through slip bands and through-interface cracks. Compressive strength at the divider orientation reached 1443.06 MPa, which was 45.78% higher than that of the sheet obtained at 120 min. In this case, the interface area transferred stress through slip bands and along-interface cracks. For TiAl composite sheets with thinner composite layer, compressive strength was further improved to 1631.01 MPa and 1594.66 MPa at the arrester and divider orientations with sintering holding time of 40 min, respectively. The ductile metal layer exerted a significant toughening effect. Both interface regulation and laminated structure transformation could enhance the hetero-deformation induced (HDI) strengthening and improve the comprehensive mechanical properties of the composite sheets.     

Organic mesh template-based laminated object manufacturing to fabricate ceramics with regular micron scaled pore structures

A new aqueous slurry-based laminated object manufacturing process for porous ceramics is proposed: firstly, an organic mesh sheet is pre-paved as a pore-forming template before slurry layer scraping; secondly, the 2D pattern is built with laser outline cutting of the dried mesh–ceramic composite layer; finally, the pore structure is formed after degreasing and sintering. Alumina parts with porosities of 51.5 %, round hole diameters of 80 ± 5 μm were fabricated using 70 wt. % solid content slurry and 100 mesh nylon net. Using an organic mesh as the framework and template not only reduces the risk of damage of the green body but also ensures the regularity, uniformity and connectivity of the micron scaled pore network. The layer-by-layer drying method avoids the delamination phenomenon and improves the paving density. The new method can realize the flexible design of the pore structure by using various organic mesh templates.     

Thermal Bending Analysis of Doubly Curved Composite Laminated Shell Panels with General Boundary Conditions and Laminations

Thermal bending analysis of doubly curved laminated shell panels with general boundary conditions and laminations is presented. The equations of equilibrium are derived in the form of two coupled sets of ordinary differential equations based on a general shell theory and solved through the state-space approach in a repeated manner. It is depicted that the results of the present method are in great agreement with analytical solutions. Cylindrical shell panels with general boundary conditions and laminations, where no analytical solution is available, are solved. It is found that the present method exhibits a high convergence rate as well as presenting accurate results in all cases.     

25mm厚钢板产生层间撕裂的原因和防治

层间撕裂并非是厚板独有的质量问题 ,结合工程实例 ,分析 2 5mm厚低合金钢板产生层间撕裂的原因。通过对钢材的超声波探伤检测、化学成分分析和Z向性能检测 ,指出层间撕裂主要与节点设计不当和钢材内非金属夹杂物偏析、分层有关 ,并提出了预防措施。对产生裂纹的构件视严重情况提出了不同的修补处理方法     

水轮机下环铸件凝固过程热应力模拟分析

采用数值模拟方法对水轮机下环铸件凝固过程中的应力场进行了模拟和分析。模拟中采用接触单元法处理铸件与砂芯之间力的作用,改进了传统的铸件/铸型边界条件处理方法。文中重点分析了下环凝固过程中准固相区的受力情况,根据准固相区受力特点建立了适当的热裂判据,对下环凝固过程热裂倾向性进行预测。实际生产结果与预测结果相符合。     

铸钢件准固态区域应力,应变数值模拟及热裂机制

对ＺＧ４５实验热裂试棒的数种工况进行了应力－应变的数值模拟，对热裂形成机制进行了讨论。研究认为：热裂起源于Ｂｉｎｇｈａｍ体，是塑性变形超过Ｂｉｎｇｈａｍ体塑性储备值所致。     

短纤维直径对橡胶复合材料性能的影响

制备了 3种具有不同直径、相同长径比及其分布的涤纶短纤维增强氯丁橡胶基复合材料。对屈服强度及伸长率、断裂强度及伸长率以及撕裂强度等力学性能的研究发现 :在相同长径比及其分布情况下 ,与传统混合法则不同的是屈服强度和伸长率不相等 ,也不是只取决于短纤维的直径 ,而是受直径和长度的共同作用 ;在相同的纤维体积分数时 ,复合材料的断裂强度基本相同 ,而断裂形变和撕裂强度随纤维直径的减小而增大     

使用PVB膜片作为安全玻璃夹层的常见问题与改进方法

研究了聚乙烯醇缩丁醛（PVB）膜片、浮法玻璃和夹玻工艺对夹层安全玻璃的影响,探讨夹玻的各个工序中出现不正常的原因,并提出解决问题的应对方法,提高了最终制品的质量,实现夹玻的科学生产.     

一种基于 PLC 和 HMI 的层压控制系统

为实现对铝基覆铜板层压工艺中两个关键参数温度和压力的自动控制,在采用分级蓄能层压工艺的基础上,设计一种基于三菱PLC和台达HMI的自动化层压控制系统。介绍控制系统的硬件组成、控制流程、HMI的软件设计及PID参数的整定。     

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 中厚板拉伸试样出现了延伸率不合问题，并且拉伸试样断口出现了层状撕裂现象。通过对试样断口形貌、试样变形区和未变形区金相组织的研究，认为：中厚板中心区域珠光体比例高是层状撕裂试样厚度中心呈现脆性的原因，这种脆性区导致在拉伸过程中最先萌生裂纹，并最终导致拉伸试样延伸率不合；出现层状撕裂的试样在拉伸之前并不存在结构上的分层和断口分层，在断口上出现的平行于轧制方向的裂纹是在拉伸过程中形成的；当珠光体带的宽度超过25 μm时，试样在拉伸过程中在珠光体带中易出现裂纹并导致断口出现层状撕裂。