Subsurface defect characterization and laser-induced damage performance of fused silica optics polished with colloidal silica and ceria

This paper mainly focuses on the influence of colloidal silica polishing on the damage performance of fused silica optics. In this paper, nanometer sized colloidal silica and micron sized ceria are used to polish fused silica optics. The colloidal silica polished samples and ceria polished samples exhibit that the root-mean-squared(RMS) average surface roughness values are 0.7 nm and 1.0 nm, respectively. The subsurface defects and damage performance of the polished optics are analyzed and discussed. It is revealed that colloidal silica polishing will introduce much fewer absorptive contaminant elements and subsurface damages especially no trailing indentation fracture. The 355-nm laser damage test reveals that each of the fused silica samples polished with colloidal silica has a much higher damage threshold and lower damage density than ceria polished samples. Colloidal silica polishing is potential in manufacturing high power laser optics.     

侵彻钢筋混凝土过程中弹丸过载特性的实验研究

实验测试了侵彻钢筋混凝土过程中弹丸的过载情况,得到侵彻过程中弹丸的加速度时程曲线。通过将实验测得的加速度时程曲线按其本身的特点划分成四个部分,每个部分代表弹丸与钢筋混凝土作用的不同阶段,分析了不同阶段弹丸与钢筋混凝土相互作用的特点。实验结果表明,含筋率为2%的钢筋混凝土靶板的抗侵彻能力明显高于含筋率为1%的钢筋混凝土靶板。研究结果为理论模型的建立打下了基础,也可为相关弹药和防护工程的优化设计提供参考。     

熔石英元件抛光表面的亚表面损伤研究

通过结合HF酸洗和微分干涉差显微成像对两组抛光元件的亚表面损伤进行直接观测和分析。结果显示微分干涉差显微成像相比于传统的明场成像具有更好的分辨率,可以更有效检测HF酸洗后暴露的各种浅塑性亚表面损伤。对两组抛光元件的亚表面损伤的对比分析发现熔石英元件在抛光中会产生大量的亚表面损伤,这些亚表面损伤绝大多数是浅塑性的划痕和坑,仅有少量的脆性断裂损伤,较大的抛光颗粒会产生更多更严重的亚表面损伤,并且这些亚表面损伤被表面沉积层所掩盖,表面粗糙度不能反映亚表面损伤的严重程度。     

卵形头部弹丸侵彻混凝土的研究

 用头部曲率半径为4.0、直径100 mm、质量为25 kg的卵形弹丸对混凝土进行侵彻实验，并测试了炮膛内和侵彻过程中弹丸的加速度时程曲线。实验用混凝土靶的抗压强度为35 MPa，密度为2 450 kg/m³，有3 m×3 m×3 m和2 m×2 m×2 m两种尺寸。测试弹丸发射和侵彻过程加速度的记录系统刚性固结于弹丸内部。弹丸侵彻初速在310 m/s至632 m/s之间，弹丸的峰值过载在12 000 g到22 000 g之间。实验后将测试的侵彻深度、侵彻过程弹丸的加速度时程曲线与用Forrestal 的理论模型计算得到的结果进行了比较分析。实验结果对认识侵彻的整个过程和相关弹药的设计有重大意义。     

Correlation of polishing-induced shallow subsurface damages with laser-induced gray haze damages in fused silica optics

Laser-induced damage in fused silica optics greatly restricts the performances of laser facilities. Gray haze damage,which is always initiated on ceria polished optics, is one of the most important damage morphologies in fused silica optics.In this paper, the laser-induced gray haze damages of four fused silica samples polished with CeO_2, Al_2O_3, ZrO_2, and colloidal silica slurries are investigated. Four samples all present gray haze damages with much different damage densities.Then, the polishing-induced contaminant and subsurface damages in four samples are analyzed. The results reveal that the gray haze damages could be initiated on the samples without Ce contaminant and are inclined to show a tight correlation with the shallow subsurface damages.     

弹丸侵彻钢筋混凝土的工程解析模型

既考虑了弹丸侵彻过程中受到的动阻力与静阻力,又考虑了弹丸与钢筋发生碰撞时钢筋对弹丸的直接阻力,提出了弹丸侵彻钢筋混凝土的工程解析模型。不同初速下弹丸的侵彻深度、侵彻过程中弹丸的位移、速度和负加速度时间历程的计算结果与测试数据符合很好,弹丸过载在12 000g~15 000g之间。该解析模型能够较真实的描述弹丸侵彻钢筋混凝土过程中的运动状态,并且该模型能够分析配筋结构、配筋尺寸、网眼尺寸对侵彻深度和侵彻过程的影响。