Trentham, Stock-on-Trent : Trentham Books, 1984

0950773549

203 p. ; 22 cm.

European Institute of Education and Social Policy

Educazione economica Europea

Inglese

Washington, DC : , : U.S. General Accounting Office, , [2002]

Howitzers - United States - Costs

Inglese

Title from title screen (viewed on Sept. 30, 2003).

"July 24, 2002."

Paper version available from: General Accounting Office, 441 G St., NW, Rm. LM, Washington, D.C. 20548.

"GAO-02-898R."

Includes bibliographical references.

Park Ridge, N.J., : Noyes Publications, c1995

1-282-00244-9

9786612002441

0-8155-1722-X

1 online resource (600 p.)

GlennWilliam E

DoaneJ. William (Joseph William)

621.3815/42

Liquid crystal displays

Flat panel displays

Inglese

Description based upon print version of record.

Includes bibliographical references.

Front Cover; Flat-Panel Display Technologies: Japan, Russia, Ukraine, and Belarus; Copyright Page; Table of Contents; FOREWORD; PREFACE; NOTICE; PART I: DISPLAY TECHNOLOGIES IN JAPAN; EXECUTIVE SUMMARY; Summary of Report; CHAPTER 1. FLAT-PANEL DISPLAYS IN JAPAN: AN OVERVIEW; Introduction; Organization; Objectives of the Committee; Major Technical Findings; Extent of Development of Liquid Crystal Displays; Commitment to Production of Liquid Crystal Displays; Changing Consensus in Large FPDs; Changing Role of Electroluminescent Displays and Plasma Panels; Infrastructure in Japan's FPD Industry

Market and Projected SalesNew a-Si AMLCD Factory; Emphasis in the 1990s; Summary; References; CHAPTER 2. MATERIALS FOR FLAT-PANEL DISPLAYS; Introduction; Liquid Crystal Materials; Other LCD Materials; Light-Emissive Display Materials; Conclusions; References; CHAPTER 3. MANUFACTURING AND INFRASTRUCTURE OF ACTIVE MATRIX LIQUID CRYSTAL DISPLAYS; Introduction; Manufacturing Logistics; Manufacturing Equipment; PECVD; Conclusions; CHAPTER 4. PASSIVE MATRIX LIQUID CRYSTAL DISPLAYS; Introduction; LCD Basics; Twisted Nematic LCDs; Supertwisted Nematic LCDs; Vertically Aligned Nematic

LCDs

Ferroelectric LCDsStatus and Prospects for the Future; Comparison of Passive Matrix LCD Technologies; Conclusions; References; CHAPTER 5. ACTIVE MATRIX TECHNOLOGY; Introduction; Basic Active Matrix Technology; Investment Environment; Amorphous Silicon: The Dominant Active Matrix Technology; Polysilicon: The Successor Technology; Commercial Products and Prototypes; Conclusions; Reference; CHAPTER 6. PROJECTION DISPLAYS; Introduction; Comparison of Japanese and U.S. Display Research; Technical Evaluation of Work; Comparison Summary; Future Research; References

APPENDIX A: PROFESSIONAL EXPERIENCE OF PANEL MEMBERSAPPENDIX B: TRIP SITE REPORTS; Anelva; Asahi Glass Co., Ltd.; DaiNippon Ink & Chemicals, Inc.; DaiNippon Screen Manufacturing Co., Ltd.; Dai Nippon Printing Co., Ltd.; Fujitsu; HDTEC; Giant Technology Corporation and Hitachi Research Laboratory; Hosiden; IBM Japan, Ltd.; Matsushita; Merck Japan, Ltd.; MITI; NEC Corporation; Nippon Hoso Kyokai (NHK); Nippon Electric Glass; Nippon Telegraph and Telephone Corporation; Sanyo; Seiko-Epson; Sharp; Sharp Factories (Tenri & Nara); Sharp Showroom; Sony; Stanley Electric Co.

Tokyo University of Agriculture & TechnologyToppan Printing; Toshiba Engineering Laboratory; Toshiba & DTI; Tottori University; Tohoku University; APPENDIX C: GLOSSARY; PART II: FLAT-PANEL-DISPLAY TECHNOLOGIES IN JAPAN  (Updated); Technology Assessment; What's New?; Price, Price, and Price; Expanding Applications; LCD Production in Japan; Next-Generation Production Machinery; Second-Generation Production Machinery; Significant Advances; Reduced Emphasis; Other FPDs; Summary; Notes; PART III: DISPLAY TECHNOLOGIES INRUSSIA, UKRAINE, AND BELARUS; EXECUTIVE SUMMARY; Background; Summary of Report

CHAPTER 1. OVERVIEW

This volume, Fluidization, Solids Handling, and Processing, is the first of a series of volumes on "Particle Technology." Particles are important products of chemical process industries spanning the basic and specialty chemicals, agricultural products, pharmaceuticals, paints, dyestuffs and pigments, cement, ceramics, and electronic materials. Solids handling and processing technologies are thus essential to the operation and competitiveness of these industries. Fluidization technology is employed not only in chemical production, it also is applied in coal gasification and combustion for power generation, mineral processing, food processing, soil washing and other related waste treatment, environmental remediation, and resource recovery processes. The FCC (Fluid Catalytic Cracking) technology commonly employed in the modern petroleum refineries is also based on fluidization principles.