Thermal conductivities and mechanical properties of AlN ceramics fabricated by three dimensional printing

AlN ceramics were successfully fabricated through a joint process of digital light processing (DLP) 3D printing technology and heat treatment at 1780 °C∼1845 °C. DLP is an addictive manufacturing process, enabling the near net shape fabrication. The AlN grains in this work developed well and there were small amounts of grain-boundary phases at the three-grain junctions. The particle size of AlN became larger and the densification increased with increasing sintering temperature. The pores of AlN ceramics also decreased, which led to the increase of thermal conductivity and flexural strength. The optimal thermal conductivity and flexural strength of AlN ceramic reached 155 W/(m·K) and 265 ± 20 MPa when sintered at 1845 °C.     

Development of UV-curable ZrO2 slurries for additive manufacturing (LCM-DLP) technology

Digital Light Processing (DLP) is a powerful technique for the preparation of ceramic parts with high resolution and complex shapes. In the last years, the development of photosensitive slurries for the production of ceramics with good mechanical properties has received much attention. In this work, ZrO₂ UV-curable slurries were prepared in two steps for their application in DLP. Firstly, the surface modification of the ZrO₂ particles was carried out using a dispersing agent and secondly, the modified powder was dispersed in an acrylate based mixture. Parts with different geometries were printed and a resolution experiment was also carried out in order to determine the limitations of the slurry. Finally, 30 bars were produced to study the mechanical properties of the sintered parts (ρ = 6.00 ± 0.01 g/mL) by 4-point bending tests and Weibull analysis, obtaining a flexural strength σ₀ = 741 (718–765) MPa with a Weibull coefficient of 11.4.     

大屏幕拼接显示系统浅析

介绍了大屏幕拼接显示系统的原理、结构及应用,详细阐述了成熟且应用广泛的DLP技术,简单介绍了拼接墙技术的新动向。     

用于DLP投影系统的自由曲面TIR准直透镜设计

为了提高DLP投影照明系统中准直部分的准直度并简化准直光路,采用一种自由曲面的TIR透镜作为DLP投影照明系统的准直器件。首先根据空间斯涅耳定律推导出反射曲面以及透射曲面母线上的点的坐标关系,并采用迭代的方法使用Matlab软件计算出母线上各个点的坐标并绘制出曲线图形,然后利用Pro/Engineer对TIR准直透镜进行建模得到TIR准直透镜的模型。分别用理想点光源和扩展光源进行模拟,经过TIR透镜准直后光束发散角在±7°以内,并根据选用的DMD芯片和LED光源选择合适的TIR透镜参数,建立DLP投影照明系统后进行模拟仿真,最终均匀度达到了90%,满足了投影照明系统的需求。     

数字微反射镜装置的分析与设计

简述了数字微镜装置的微机械工作原理和数字光信号处理技术，建立了基于微米技术制作的数字微镜的机电动力学模型，并给出了微机械碰撞中考虑纳米尺寸效应的实用建模方法，数值仿真分析了某微反射镜单元的运动状态和过程，分析结果与该微镜实测结果吻合较好，此外，还设计了一种新型微镜阵列，提出了相应的分析设计方法。     

大型拼接显示系统的设计方法

大型拼接显示系统的设计需求越来越大,超高分辨率、刷新率等要求面临挑战。通过对现有技术的介绍和分析,提出了创新的设计方法,在保持一般拼接显示系统的性能基础上满足用户对超高分辨率、刷新率等要求。阐述了大型拼接显示系统设计的关键技术,即主从处理器技术和快速压缩解压技术,并提出了实现单一逻辑屏的概念。通过该系统工程的大量成功安装使用,证明了该设计方案的可行性和稳定性。该系统方案还具有较大的应用发展前景。     

数据泄露防护(DLP)分域安全技术浅析

该文介绍了一个典型的分域安全控制方案,针对不同的网络区域采用不同的技术手段实现加密防护。     

Étendue‐density homogenization lens optimized for high‐pressure mercury lamps

Abstract— In order to increase the screen brightness of Digital Micromirror Device? projectors (DMD?), we have developed a new aspherical lens. Homogenizing the étendue‐density distribution made by a high‐pressure mercury lamp, this lens improves the light convergence at its focal point where the rod integrator's entrance is placed. Our simulation showed that the percentage of increase in brightness is up to 18.4%.     

现代显示技术的进展

介绍了几种现代显示技术的发展概况.如:阴极射线管(CRT)、数字光处理技术(DLP)、等离子显示板(PDP)、场发射显示器(FED)、有机发光二极管(OLED)、光栅光阀(GLV)投影显示器、液晶显示系统(LCD)、全色发光二极管(LED)、数字打印全息图(DPH)及视频全息(holovideo)、全息背投屏(holoscreen)、液晶硅(LCOS).对上述几种现代显示技术在结构、原理和技术特点等方面作了比较.特别是对液晶硅显示(LCOS)的结构和原理以及发展趋势和市场走向作了较详细的分析.     

基于离散对数问题的可截取签名方案

在朱辉等提出的无证书签密方案(计算机研究与发展,2010年第9期)基础上,提出一种满足强安全性、无需双线性对运算的可截取签名方案.通过将用户公钥绑定在部分私钥的生成算法及签名算法中,降低公钥替换攻击的威胁,利用安全哈希函数的不可碰撞性,使方案能抵抗适应性选择消息的存在性伪造攻击,并在随机预言模型下基于离散对数难题给出安全性证明.与同类方案相比,该方案的签名及可截取算法减少了一个指数运算,计算效率有所提高.