On A Snowy Night: Yishan Yining (1247-1317) and the Development of Zen Calligraphy in Medieval Japan

Du, Xiaohan

January 2021

This dissertation is the first monographic study of the monk-calligrapher Yishan Yining (1247-1317), who was sent to Japan in 1299 as an imperial envoy by Emperor Chengzong (Temur, 1265-1307. r. 1294-1307), and achieved unprecedented success there. Through careful visual analysis of his extant oeuvre, this study situates Yishan’s calligraphy synchronically in the context of Chinese and Japanese calligraphy at the turn of the 14th century and diachronically in the history of the relationship between calligraphy and Buddhism. This study also examines Yishan’s prolific inscriptional practice, in particular the relationship between text and image, and its connection to the rise of ink monochrome landscape painting genre in 14th century Japan. This study fills a gap in the history of Chinese calligraphy, from which monk-calligraphers and their practices have received little attention. It also contributes to existing Japanese scholarship on bokuseki by relating Zen calligraphy to religious and political currents in Kamakura Japan. Furthermore, this study questions the validity of the “China influences Japan” model in the history of calligraphy and proposes a more fluid and nuanced model of synthesis between the wa and the kan (Japanese and Chinese) in examining cultural practices in East Asian culture.

Calligraphy, Japanese

Art, Japanese

Buddhism

Zen calligraphy

Ink painting, Japanese

Inkjet-Printed Highly Transparent Solar Cell Antennas

Arellano, Jesus A.

01 December 2011

Small satellites, especially Cube Satellites (CubeSats), have become important vehicles for space exploration. One of the challenges CubeSats face is limited surface area. This limitation poses a question for antenna design–where to mount the antenna? This thesis presents a study where the antennas are directly integrated on top of solar cells. In order to achieve such integration, the antennas have to be highly transparent to light. This thesis aims at the transparency of 95%. Methods to effectively generate transparent antenna by using inkjet printing are discussed in detail and interaction between solar cells and antennas have been assessed and presented. It is found that the presence of solar cells cast a degree of gain reduction of the antenna, but such a loss may be improved with a more precise integration and by increasing the operational frequency. The effect of the antenna on solar cell performance is concluded to be less than 3%, promising a feasibility of implementing highly transparent antennas on CubeSats.

Electrical and Computer Engineering

ADDITIVE MANUFACTURING OF RUBBER INK FORMULATIONS WITH HIGH SOLID CONTENT

Kim, Myoeum

13 April 2021

No description available.

Mechanical Engineering

Structure and Blood Supply of Intrinsic Lymph Nodes in the Wall of the Rabbit Urinary Bladder - Studies With Light Microscopy, Electron Microscopy, and Vascular Corrosion Casting

Hossler, Fred E., Monson, Frederick C.

01 November 1998

The urinary bladder is especially subject to infection by virtue of its direct connection to the external urethral opening, and it is natural to anticipate the presence of a well-developed immunological mechanism to respond to this potential threat. The present study describes small, very highly vascular lymph nodes located in the wall of the rabbit bladder, which may be involved in a local response to foreign antigens. The vasculature and structure of these lymph nodes was described using a combination of vascular corrosion casting, ink injection, and light and electron microscopy. The distal abdominal aorta was cannulated, and after clearing the bladder vasculature with buffered saline, one of the following procedures was used: 1) the bladder was perfuse-fixed in preparation for light and electron microscopy; 2) the bladder vasculature was filled with India ink for vessel tracing; or 3) vascular corrosion casts of the vasculature were prepared by infusing resin comprised of a mixture of Mercox, methyl methacrylate monomer, and catalyst. The resulting casts were cleaned with KOH, formic acid, and water in preparation for scanning electron microscopy. Vascular casts and India ink injections revealed the presence of a number of isolated capillary tufts consisting of clusters of one to five 'glomeruli,' closely associated with the major vesicular vessels along the lateral walls of the bladder, and supplied by tertiary branches of these vessels. Light and electron microscopy showed that the capillary tufts represented the blood supply to small, ovoid lymph nodes located near the serosal surface of the bladder wall and usually restricted to the basal half of the bladder. These nodes were encapsulated and exhibited subcapsular sinuses, numerous small blood vessels, a limited number of high endothelial cells, and, occasionally, nerves and a follicular substructure. The nodes contained abundant lymphocytes, stellate stromal cells, macrophages, and eosinophils, but lacked the obvious cortical and medullary organization and germinal centers often seen in larger lymph nodes. Vascular corrosion casts, vascular ink injections, and microscopic examination confirmed the presence of small, highly vascular lymph nodes closely associated with the main vesicular vessels along the lateral walls of the rabbit bladder. A follicular substructure of the nodes appears to correspond with the 'glomerular' capillary arrangement within the nodes as seen with corrosion casts. The rich blood supply may be indicative of the high metabolic demand of lymphatic tissue, and may be altered in response to the level of activity of the node. The close association between the lymphatic tissue and the rich blood supply to the nodes may allow a rapid mobilization of lymphocytes during a local immune response to foreign agents.

corrosion casting

electron microscopy

ink injection

light microscopy

lymph nodes

microvasculature

urinary bladder

Biomedical Sciences

Characterization of Resistance Change in Stretchable Silver Ink Screen Printed on TPU-Laminated Fabrics Under Cyclic Tensile Loading

Sutton, Corey R

01 June 2019

A stretchable silver ink was screen printed to TPU sheets, then tensile coupons of the TPU, both bare and laminated to cotton, Denim and spandex fabric, were subjected to 1000 cycles of 20% uniaxial strain. In-situ resistance measurements of printed traces were processed to generate datasets of maximum and minimum resistance per cycle. A mechanistic fit model was used to predict the resistance behavior of the ink across TPU/fabric levels. The results show that traces strained on TPU laminated to spandex (polyester) fibers had an average rate of increase in resistance significantly lower than that of traces strained on bare TPU. The variation in predicted resistance was significantly lower in the spandex group than in the TPU group. Trace width was not found to have a significant effect on the resistance behavior across TPU/fabric groups. More testing is required to understand the effect of lamination to high elasticity fabrics on resistance behavior as it relates to the viscoelastic properties of the fibers and weave structure.

TPU

stretchable electronics

conductive ink

cyclic strain

fabric interaction

resistance model

Industrial Engineering

Black Writing Ink Analysis By Direct Infusion Electrospray Mass Spectroscopy

Moody, Christopher M.

01 January 2010

An optimized method of extraction, an instrumental analysis method and data analysis was proposed for black writing inks based on direct infusion electrospray-mass spectrometry (ESI-MS). The sampling and analysis method is both minimally destructive and able to assess differences in inks from a reference collection of thirty ballpoint, gel, and rollerball inks. The methanol extracts of ink on paper samples were analyzed with three direct infusion (ESI-MS) methods. Each method varied scan voltage negative and positive, ESI fragmentor applied voltage (+120V, +0V, and -120V), and mobile phase additive. Direct infusion ESI-MS analysis, followed by pair-wise comparisons of the observed ion data in binary form allowed inks to be distinguished from each other. The photobleaching of the dye Basic Violet 3 (BV3) in ink-onpaper samples was examined to determine the use of degradation products as a marker of the age of the writing sample. The extent of photobleaching of BV3 was determined using several illumination sources. Pair-wise comparison of observed ion data was able to distinguish 29 of 30 ink samples using the combined three instrumental methods. Out of 435 pair-wise comparisons 429 pairs could be discriminated from each other using the combined three methods. This is a 98.6% discrimination with the combined analysis scheme

Ink -- Analysis

Pens

Chemistry

Forensic Science and Technology

Design and processing of metal-organic frameworks for greenhouse gas capture / Syntes och bearbetning av metall-organiska ramverk med flera ligander för insamling av växthusgaser

Wiksten, Evelina

January 2023

Anthropogenic emission of greenhouse gases has long been suspected to contribute to global warming and climate change. Most greenhouse gases are emitted in a mixture, so efficient methods and materials to separate and capture the gases are in demand in order to reduce emissions. A promising material group for this purpose is metal-organic frameworks (MOFs). This class of material have the ability to selectively adsorb green house gases due to its high porosity and high surface area. Zeolitic imidazolate frameworks (ZIFs) are a subclass of MOFs that are topologically similar to zeolites and are known for their good chemical and thermal stability.   The aim of this project was to investigate if the greenhouse gas (i.e. CO2 and SF6) capture performance of ZIFs could be improved and tuned using a mixed-linker approach with seven different imidazolate-based organic linkers of different sizes or with various functional groups. As well as to investigate the processability of MOFs using 3D printing. ZIFs composed of different ratios of 2-methylimidazolate as base linker and a second linker of imidazolate, benzimidazolate, 2-aminobenzimidazolate, 5,6-dimethylbenzimidazolate, and 4,5-dichloroimidazolate were succesfully made. The materials were all found to be crystalline, however, mixed-linker ZIFs containing 2-aminobenzimidazole, 5,6-dimethylbenzimidazole and dichloroimidazole were observed to contain more than a single phase. All samples showed to be somewhat porous towards CO2 and SF6, and there seem to be a trend where a low % of a bulkier linker (eg. bIm, ambIm) resulted in a higher uptake of SF6 whereas a high % resulted in a higher uptake of CO2. For dcIm it was the other way around, a low % showed a higher uptake for CO2  whereas a high % showed a higher uptake for SF6. For CO2, the ZIF containing 80% benzimidazolate showed the highest uptake of 9.81 wt%. For SF6, the 25% 4,5-dichloroimidazolate showed the highest uptake of 17.73 wt%. Furthermore, direct ink writing (DIW) 3D printing was also successfully utilized to process and structure a Mn-based MOF using carbopol as binder. The printed structure was found to have similar properties to the pristine MOF in regards to crystallinity and porosity.

Metal-organic frameworks

zeolitic imidazolate frameworks

carbon capture

gas adsorption

direct ink writing

Materials Chemistry

Materialkemi

Samband mellan viskositet på färg och kassation från tryckmaskin / The relationship between ink viscosity and rejects from the printing machine

Hellberg, Ellen

January 2023

AstraZeneca är en av världens främsta tillverkare av läkemedel. Agenda 2030 ställer höga krav på läkemedelsföretagen vad gäller att höja den globala folkhälsan och samtidigt bidra till en hållbar produktion. På PET Respules i Södertälje tillverkas flytande astmamedicin i plastampuller med steril BFS-teknik. Dessa plastampuller ges tilltryck genom tampontryckteknik. Tilltrycket innehåller batchunik information som utgångsdatum, produkt och dos och är en viktig process för patientsäkerhet och spårbarhet. För att säkra denna process är tryckmaskinerna utrustade med kalibrerad visionteknik som ställer krav på tryckprocessen. Tryckfärgen som används blandas med lösningsmedel för att sänka viskositeten och påverka färgens egenskaper. Viskositet har inte tidigare använts som parameter vid felsökning av färgblandningen vilket har resulterat i att bedömningen av huruvida färgblandningen varit lös (låg viskositet) eller tjock (hög viskositet) varit subjektiv. Genom experimentella försök och stickprov undersöktes sambandet mellan färgens viskositet och kassation från tryckmaskin. Detta genom att testa flera olika förhållanden mellan tryckfärg och lösningsmedel samtidigt och övervaka hur viskositeten betedde sig över tid. Testerna visade att det finns ett spann på viskositet mellan 350-622,4 mPa·s där ingen kassation kopplat till tryckfärgen förekommer. Det gick även konstatera att färgblandning med för lös viskositet genererar problem med övriga komponenter och att resultaten möjliggör standardisering av arbetssätt kopplat till hantering av tryckfärg. / AstraZeneca is one of the world's leading pharmaceutical manufacturers. Agenda 2030 places high demands on pharmaceutical companies regarding improving global public health while contributing to sustainable production. At PET Respules in Södertälje, liquid asthma medication is manufactured and packed in plastic ampoules using sterile BFS technology. These plastic ampoules are printed using pad printing technology. The print contains batch-specific information such as expiration date, product, dose, and is an important process for patient safety and traceability. To ensure this process, the printing machines are equipped with calibrated vision control system that sets requirements for the printing process. The printing ink used is mixed with a solvent to reduce viscosity and affect the properties of the color. Viscosity has not previously been used as a parameter in troubleshooting the color mixture, resulting in the assessment of whether the color mixture has been loose (low viscosity) or thick (high viscosity) being subjective. Through experimental trials and random sampling, the correlation between color viscosity and rejection from the printing machine was examined. This was done by testing several different ratios between printing ink and solvent simultaneously and monitoring how viscosity behaved over time. The tests showed that there is a range of viscosity between 350-622,4 mPa·s where no rejection related to the printing ink occurs. It was also found that a color mixture with excessively low viscosity generates problems with other components, and the results enable the standardization of work processes related to handling the printing ink.

pad printing process

viscosity

printing ink

experimental method

tampontryckteknik

viskositet

tryckfärg

experimentell metod

Mechanical Engineering

Maskinteknik

Functional printing for the automated design and manufacturing lab

Wolfe, Kayla

24 May 2023

The Automated Design and Manufacturing Laboratory (ADML) is an automated assembly line located in the Engineering Product and Innovation Center (EPIC) that serves as the lab component for the course ME345: Automation and Manufacturing Methods. Over the semester the students learn how to program each automated component of the system, including Computer Numerically Controlled (CNC) mills, Universal Robot's 6 axis robotic arm, cameras, and Programmable Logic Controllers (PLC). Students then learn how to integrate each component together to develop a completely automated manufacturing process using an in-house manufacturing execution software. This integrated system is then used by the students to automatically manufacture new products of their own design that provide a societal benefit. Since 2019 multiple undergraduate students have worked on augmenting the ADML's capability with printing electronics by implementing Direct Ink Writing (DIW) based 3D printing and vacuum based pick and place into the ADML's assembly robot. Using these new capabilities, students in the ME345 will be able to design and manufacture electronic circuits. Moreover, a graduate level course will be developed based on this new addition to the ADML. The aim of this Thesis is to continue the work of previous students by finalizing the hardware and software necessary for the pick and place of electronic components and developing a conductive ink for electrical wiring and interconnects. A three component ink comprised of silver flake and a copolymer solution of acrylates/polytrimethylsiloxymethacrylate in a isododecane solvent was developed. This ink is biocompatible so it can be used by students without any hazard concern. It also exhibits a high degree of adhesion to the high-density polyethylene (HDPE) stock parts currently used in the ADML to ensure strong bonding to the electrical components. The mixing process, ink ingredient concentrations, and print parameters (i.e., extrusion pressure, print speed, and nozzle standoff distance) were optimized for compatibility with DIW based 3D printing, consistent and clog-free extrusion throughout the printing process, print fidelity, and a high electrical conductivity within approximately 1-2 orders of magnitude of bulk silver. / 2025-05-24T00:00:00Z

Mechanical engineering

Additive manufacturing

Direct ink writing

Hybrid 3D printing

Robotics

INVESTIGATION OF THE EFFECT OF SWELLING AND SHRINKAGE ON THE WRINKLING RESPONSE OF LOCALLY WETTED PAPERS SUBJECTED TO TENSION WITH APPLICATION TO WEB-FED INK-JET PRINTING

Maharajan, Ranjit Kumar

24 July 2007

No description available.

Engineering, General

Wrinkles

Dimensional Stability

Ink-jet printing

Hygroexpansion

Shadow Moir&233

Buckling

Scanning