Non-volatile dynamically switchable color display via chalcogenide stepwise cavity resonators

High-resolution multi-color printing relies upon pixelated optical nanostructures,which is crucial to promote color display by producing nonbleaching colors,yet requires simplicity in fabrication and dynamic switching.Antimony trisulfide(Sb_(2)S_(3))is a newly rising chalcogenide material that possesses prompt and significant transition of its optical characteristics in the visible region between amorphous and crystalline phases,which holds the key to color-varying devices.Herein,we proposed a dynamically switchable color printing method using Sb_(2)S_(3)-based stepwise pixelated Fabry-Pérot(FP)cavities with various cavity lengths.The device was fabricated by employing a direct laser patterning that is a less timeconsuming,more approachable,and low-cost technique.As switching the state of Sb_(2)S_(3) between amorphous and crystalline,the multi-color of stepwise pixelated FP cavities can be actively changed.The color variation is due to the profound change in the refractive index of Sb_(2)S_(3) over the visible spectrum during its phase transition.Moreover,we directly fabricated sub-50 nm nano-grating on ultrathin Sb_(2)S_(3) laminate via microsphere 800-nm femtosecond laser irradiation in far field.The minimum feature size can be further decreased down to~45 nm(λ/17)by varying the thickness of Sb_(2)S_(3) film.Ultrafast switchable Sb_(2)S_(3) photonic devices can take one step toward the next generation of inkless erasable papers or displays and enable information encryption,camouflaging surfaces,anticounterfeiting,etc.Importantly,our work explores the prospects of rapid and rewritable fabrication of periodic structures with nano-scale resolution and can serve as a guideline for further development of chalcogenide-based photonics components.

Color control of the multi-color printing device

Conventional color-printing systems often use inks of three hues, such as CMY, CMYK and CMYKLcLm, but in order to obtain more realistic color reproductions, the ink set of more than three hues has been adopted by some color-printing systems. It is difficult, however, to model the composed color with the multiple inks when the number of the output ink hues exceeds three due to the none-unique mapping between the color spaces of the CIE Lab and the multi-color printing device. In this paper, we propose a fine color-printing method for multi-color printing device with the ink set of more than three hues. The proposed approach has good color expression ability and provides fine control of the printed color. By dividing the output color space into several subspaces, our method allows one-to-one mapping between the standard color space and the multi-color output color space. It has been proved effective when applied to the digital inkjet printer—Mutoh8000.

Innovative color jet 3D printing of levetiracetam personalized paediatric preparations

3D printing is a promising technology used in the fabrication of complex oral dosage delivery pharmaceuticals.This study first reports an innovative color jet 3D printing(CJ-3DP)technology to produce colorful cartoon levetiracetam pediatric preparations with high accuracy and reproducibility.For this study,the ideal printing ink consisted of 40%(v/v)isopropanol aqueous solution containing 0.05%(w/w)polyvinylpyrrolidone and 4%(w/w)glycerin,which was satisfied with scale-up of the production.The external and internal spatial structures of the tablets were designed to control the appearance and release,and cartoon tablets with admirable appearances and immediate release characteristics were printed.The dosage model showed a good linear relationship between the model volume and the tablet strength(r>0.999),which proved the potential of personalized administration.The surface roughness indicated that the appearance of the CJ-3DP tablets was significantly better than the first listed 3D printed drug(Spritam R).Moreover,the scanning electron microscopy and porosity results further showed that the tablets have a structure of loose interior and tight exterior,which could ensure good mechanical properties and rapid dispersion characteristics simultaneously.In conclusion,the innovative CJ-3DP technology can be used to fabricate personalized pediatric preparations for improved compliance.Due to the stable formulation and fabrication process,this technology has the potential in scale-up production.

Color Image Computer Desktop Printing System

Color image printing technique on ink jetting printer is introduced.Color shading method such as dithering,Amplitude Modulation(AM)screening and Frequency Modulation(FM)screening is presented.Some solutions to the problems with FM screening are given. An application program under Windows is developed.

CMAC Based Color Separation in Printing Images

To over come the drawbacks existing in current measurement methods for detecting and controlling colors in printing process, a new model for color separation and dot recognition is proposed from a view of digital image processing and patter recognition. In this model, firstly data samples are collected from some color patches by the Fuzzy C-Means (FCM) method; then a classifier based on the Cerebellar Model Articulation Controller (CMAC) is constructed which is used to recognize color pattern of each pixel in a microscopic halftone image. The principle of color separation and the algorithm model are introduced and the experiments show the effectiveness of the CMAC-based classifier as opposed to the BP network.

Application of nonlinear color matching model to four-color ink-jet printing

Through discussing the color matching technology and its application in printing industry the conventional approaches commonly used in color matching, and the difficulties in color matching, a nonlinear color matching model based on two step learning is established by finding a linear model by learning pure color data first and then a nonlinear modification model by learning mixed color data. Nonlinear multiple regression is used to fit the parameters of the modification model. Nonlinear modification function is discovered by BACON system by learning mixture data. Experiment results indicate that nonlinear color conversion by two step learning can further improve the accuracy when it is used for straightforward conversion from RGB to CMYK. An improved separation model based on GCR concept is proposed to solve the problem of gray balance and it can be used for three to four color conversion as well. The method proposed has better learning ability and faster printing speed than other historical approaches when it is applied to four color ink jet printing.

FDM全彩3D打印的色彩调控方法研究

传统熔融沉积(FDM)3D打印工艺由于材料的单一性,无法按需成型彩色模型。现有“三进一出”的FDM混色机构,由于色域空间的不同、原材料的色彩偏差及混色机构的差异性采用直接三基色混色方式导致实际打印色彩与理论色彩间存在较大偏差。针对这一问题,基于FDM三基色混色喷头,通过色域空间转换建立色彩与FDM打印工艺间的关系;通过打印实验对转换模型进行线性拟合修正,进而建立面向FDM全彩3D打印的色彩配置库,通过模型颜色与库中颜色的匹配,实现三维模型设计色彩到打印色彩的精确转换。

数字印刷系统的印刷品色序呈色差异实验分析

为了提升印刷品的印刷质量,通过实验分析的方式,分析了基于数字印刷系统的印刷品色序呈色差异,介绍了实验设计方案,并以此为基础,分析了双色、三色及基于模量控制模型的色序影响。

Procion MX Dyes在彩色蜡染制作工艺中的应用研究

文章以彩色蜡染制作工艺为研究对象,将文献研究法与实践相结合,从画蜡技巧、上色与固色原理、艺术表现技巧等方面解读Procion MX Dyes在彩色蜡染制作工艺中的应用原则和技巧。借助Procion MX Dyes的应用,提升了彩色蜡染的艺术表现力和使用价值,为蜡染产业的发展提供了可行性参考。

3D打印立体着色方式与颜色再现特性研究

目前,3D打印技术的核心要素不仅在于模型的形状构建,对于颜色的精确再现也提出了更高的要求。由于着色方式不同,3D打印物体的颜色再现效果也会不同,从而对3D打印颜色精准再现和评价分析有一定的影响。因此,本研究基于UV 3D打印,设计并打印了三种不同着色方式的模型,分别是内填彩色模式和表层彩色模式(表面1层彩色模式,表面2层彩色模式),研究着色方式和层数对不同颜色的3D立体模型表面颜色再现的影响,并对明度、密度和色差进行分析总结。结果显示,相同层数下,彩色层越少,则明度越大,密度和色差越小。这表明边界着色方式优于全域着色方式,并且表面彩色层越少,再现效果也越好。本研究可为三维打印中的彩色复制提供理论依据和支持。

基于图像处理的数码印花棉织物色差检测

织物色差等级评定目前主要依赖于人工对比标准样卡进行判定,其等级判断易受人为主观因素影响。为对棉织物色差进行客观、全局化评定,文中提出3种基于OpenCV的织物色差评定方法:首先在D_(65)光源下获取标准样卡的不同色差等级灰度图像,使用高斯滤波对图像进行降噪,然后分别采用MSE均方误差、PSNR峰值信噪比、SSIM结构相似性指数算法对标准样卡灰度图像进行量化处理,建立并寻找最佳模型。为验证模型的准确性,采用数码印花对经过不同前处理工艺的棉织物喷印染色作为测试样本,通过模型得到色差等级,并与人工评定色差结果对比。结果表明:3种图像处理评定织物色差模型的评定结果均与人工评定具有高度一致性,图像处理方法更加简洁、客观和高效。

可见光-近红外伪装分散染料墨水的制备及其性能

针对当前分散染料墨水其喷墨印花织物仅能与背景环境“同色”而不能“同谱”,无法有效躲避现有侦察技术的问题,开发了一套可见光-近红外伪装分散染料墨水。通过模拟绿叶、土壤和枯叶的反射光谱特征,筛选了特定分散染料,探究了印花工艺对织物伪装及服用性能的影响,通过超细化加工制备了分散染料墨水并探究了其性能。结果表明:调控分散蓝60、分散深蓝SUBC 12、分散橙30、分散黄CPY 015、分散红CPM 011与炭黑复配比例及印花工艺制备的仿绿叶、土壤和枯叶印花织物,其伪装及服用性能良好;5种分散染料墨水的粒径均小于173.00 nm,离心、耐热、高温储存和常温储存稳定性均高于80%,过滤流速分别为200、375、188、428、167 g/min,喷墨印花性能良好。

基于FDM 3D打印机机械结构和控制系统设计的研究

研究FDM技术支持下的3D打印机设计策略。使用步进控制精度在0.002 mm的丝杠滑块和步进电机的核心坐标控制系统,分别使用1组丝杠控制X轴和Y轴的定位,使用2组丝杠控制Z轴的定位,使用3组FDM挤出系统控制彩色打印过程,在探讨了坐标控制算法和冷却成型算法后,设计了一种包含7个执行机构且有LED综合状态显示功能的3D打印机机械结构和控制系统,且该系统可直接通过USB连接线从桌面端直接将文件传输到3D打印机的ARM系统中。基于FDM 3D打印机机械结构和控制系统设计的研究,可以得出:通过对坐标控制算法和冷却成型算法进行革新,提升对步进电机的控制策略,增加驱动程序可识别的3D模型文件种类,对FDM材料的成型过程进行进一步优化控制,是未来FDM技术支持下的3D打印机重点发展方向。

棉织物新型涂料数码喷墨印花应用性能研究

针对传统涂料数码喷墨印花工艺中喷涂织物处理液和高温固色的环节,通过使用新型涂料数码喷墨印花工艺可省去上述环节,以达到缩短工艺流程、节能环保、减少废气排放、降本增效的目的。通过对新型涂料数码喷墨印花技术和传统涂料数码喷墨印花技术进行对比研究,将使用两种喷墨印花工艺的棉织物分别进行颜色特征值、色牢度、pH值、硬挺度、折皱回复角的测试。结果表明,新型涂料数码喷墨印花工艺在绿色节能、降低成本的同时,其耐摩擦色牢度、硬挺度和折皱回复角方面的表现优于传统涂料数码印花工艺;在颜色特征值、pH值和耐皂洗色牢度方面与传统涂料数码印花工艺性能相当。总体来说,新型涂料数码喷墨印花工艺符合绿色印染的发展方向,降低了企业生产成本,对企业实际的生产有一定的参考意义,具有广阔的应用前景和发展潜力。

3D打印联合彩超引导辅助DSA在腹主动脉瘤腔内介入手术中的临床应用

目的探讨3D打印联合彩超引导辅助数字减影血管造影(DSA)在腹主动脉瘤患者腔内介入手术中的应用效果。方法行腔内介入手术64例腹主动脉瘤患者,随机分为观察组和对照组各32例,对照组行DSA下腹主动脉瘤腔内修复术治疗,观察组行3D打印联合彩超引导辅助DSA下腹主动脉瘤腔内修复术治疗。比较两组患者的围术期相关指标、造影剂用量、肾功能指标、血清蛋白水平、并发症发生率。结果观察组手术时间、术后禁食时间、住院时间短于对照组(P<0.05)。观察组造影剂使用量少于对照组(P<0.05)。治疗后,两组患者的血肌酐、尿素氮、血清白蛋白、球蛋白、总蛋白水平上升,且观察组低于对照组(P<0.05)。观察组并发症发生率低于对照组(P<0.05)。结论3D打印联合彩超引导辅助DSA在腹主动脉瘤患者腔内介入手术中的应用效果较好,可缩短手术时间、术后禁食时间和住院时间,减少造影剂用量,减轻对肾功能的影响,对机体营养水平影响更小,降低并发症发生率。

民俗美术色彩在现代印染中的运用

随着现代印染的不断发展,民俗美术色彩也开始应用到了现代印染领域。尽管民俗美术色彩的应用丰富了现代印染的文化内涵,提高了现代印染的艺术表现力,但在实际运用中仍面临创新深度不足和技术应用不足的问题。因此,需要加强民俗美术色彩在现代印染中的应用研究,推动现代印染的发展和创新,为相关领域的研究和实践提供有益参考。

油墨中颜料分散稳定机理对印刷色彩的影响

本文综述了油墨中颜料分散稳定机理和分散剂的作用,提出油墨中颜料粒子发生絮凝的检测方法,分析颜料粒子絮凝与色相、透明度、遮盖力(不透明油墨)、光泽、雾影、浮色发花之间的关系。相关结果有助于印刷企业分析色彩缺陷的产生原因和印刷色彩质量控制。

印染的色彩与纹理在艺术作品中的表现力与情感传达

印染艺术具有独特的色彩和纹理,是艺术家和设计师表达创意和情感的重要媒介。随着艺术与技术的融合,传统印染技术与现代数字技术的结合为艺术家提供了新的创作空间,丰富了印染艺术的表现媒介,提高了艺术创作的表现力。

陶瓷喷墨打印调色原理与色彩管理

当前在陶瓷喷墨打印已成为建筑陶瓷产品主流图案施印方式的背景下,受限于陶瓷喷墨打印的特殊性,其色彩管理工作存在较大差异,具有典型的行业特征。笔者在介绍调色原理和陶瓷墨水的发色叠加特性的基础上,阐述了色彩管理工作的重要性和有效性,并引出了多色色彩管理的方案。

彩色激光打印印品套色误差成因及其对间色打印分辨力的影响

本文以彩色激光打印印品套色误差和间色打印分辨力为对象,采用不同鼓粉盒在相同测试条件下,使用同一台彩色激光打印机的测试样张,分析套色误差成因及对应关系。结果表明:鼓粉盒个体差异造成的套色误差会直接影响间色打印分辨力。