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市場調查報告書

2011年的塑膠市場展望

2011 Plastics Research Review

出版商 BCC Research
出版日期 2012年01月 商品編碼 227103
內容資訊 英文 186 Pages
價格
US $ 850 PDF by E-mail (Single User License)
US $ 1000 PDF by E-mail (Business Unit License)
US $ 1400 PDF by E-mail (Enterprise License)


2011年的塑膠市場展望 是由出版商BCC Research在2012年01月所出版的。 這份英文市場調查報告書包含186 Pages 價格從美金850起跳。

簡介

電氣活性高分子的全球市場、在2010年有19億美金的規模、2011年預計達21億美金。然後、邁向2016年的CAGR(複合每年成長率)成長6.1%、超過30億美金的規模。另一方面、放射線強化木材、纖維塑膠、塑膠木材、及天然纖維複合材料應用的全球市場、推算2011年為240萬平方噸、2016年依照CAGR13.8%的成長、預計會擴大至460萬平方噸左右。此外、北美的纖維強化塑膠/複合材料市場、在2010年為27億英鎊(重量)、CAGR2.8%比2015年約31億英鎊。

本報書內容包括:2011年在BCC Research公司所發行的各種塑膠業界相關報告書為基準、導電性聚合物、放射線強化木材、複合材料、及生分解性高分子等、各市場的展望彙整等、內容綱要摘記如下:

第1章 介紹

第2章 導電性聚合物

  • 介紹
  • 摘要
  • 電氣活性高分子
  • 合成共益高分子
  • 給塑膠導電性的技術
  • 抵抗的概念
  • ICP(本質的導電性聚合物)的歷史觀點
  • 諸技術

第3章 放射線強化木材

  • 介紹
  • 實施摘要
  • 產業概要
  • 放射線強化木材
  • 纖維塑膠
  • 天然纖維複合材料
  • 塑膠木材

第4章 複合材料:樹脂、充填材、補強材、天然繊維、及奈米複合材料

  • 介紹
  • 摘要
  • 填充材及補強材
  • 填充材
  • 補強材
  • 奈米複合材料
  • 碳奈米膠

第5章 EMI(電磁波妨害)/RFI(無線寬頻妨害):材料及技術

  • 介紹
  • 摘要
  • 遮蔽技術和材料
  • 使用者的要求需無延遲的跟上去之必要性的EMC遮蔽
  • 金屬化過程
  • 塗層種類分類遮蔽效果的概要
  • 導電性塑膠
  • 導電性薄膜
  • ICP(本質的導電性聚合脂)
  • 導電性彈性體
  • 導電性塗膜(塗膜)
  • 化學鍍鋅

第6章 生分解性高分子

  • 介紹
  • 摘要
  • 背景/歷史
  • 生物聚安脂和合成聚安脂之間的差距
  • 利基市場
  • 新的重點
  • 環境上的問題依然存在
  • 生分解性塑膠廢棄基礎架構的統合
  • 初期的澱粉基礎材料
  • 投入可堆肥的袋子
  • 初期加入者
  • 分散的重要性
  • 其他因素
  • 生物聚合物、傳統型塑膠、及生分解性塑膠
  • 天然、還是合成
  • 可回收資源的轉移
  • 可回收群的擴大
  • 過程
  • 特性
  • 生分解性聚合物的定義
  • 一般大眾的姿態
  • 環境問題
  • 堆肥化
  • 市場推動及預測
  • 概要

第7章 電子機器框體的塑膠:全球市場

  • 介紹
  • 摘要
  • 電子機器框體的概要
  • 電子機器框體的過程技術
  • EMI的側面

圖表

目錄

Abstract

REPORT HIGHLIGHTS
  • The global market for electroactive polymers was $1.9 billion in 2010 and is expected to be about $2.1 billion in 2011. It is forecast to grow to over $3 billion by 2016 at a compound annual growth rate (CAGR) of 6.1%.
  • The global market for applications of wood-plastic composites, cellulosic plastics, plastic lumber and natural fiber composites is estimated at about 2.4 million metric tons in 2011. By 2016, it is estimated at nearly 4.6 million metric tons and rising at a CAGR of 13.8%.
  • The North American fiber-reinforced plastic/composite market is estimated at 2.7 billion pounds in 2010 and is expected to increase to about 3.1 billion by 2015, reflecting a 2.8% CAGR.

REPORT SCOPE

INTRODUCTION

Few materials are as versatile or omnipresent as plastic. From basic food and product packaging, to advanced applications in medical and healthcare applications, plastics are pervasive in modern life.

The variety of topics listed below speaks to the diverse use of plastics. In many respects, control over plastics can be seen as a bridge between the early Industrial Revolution and the upcoming promise of the new generation of nanomaterials beginning to emerge.

Table of Contents

2011 Plastics Research Review

Chapter - 1: 2011 PLASTICS RESEARCH REVIEW - Complimentary

  • INTRODUCTION

Chapter - 2: CONDUCTIVE POLYMERS: TECHNOLOGIES AND GLOBAL MARKETS (PLS043C)

  • INTRODUCTION
  • SUMMARY
  • ELECTROACTIVE POLYMERS
  • SYNTHESIZING CONJUGATED POLYMERS
  • TECHNIQUES FOR MAKING PLASTICS CONDUCTIVE
  • CONCEPT OF RESISTIVITIES
  • ICP HISTORICAL PERSPECTIVE
  • TECHNOLOGIES

Chapter - 3: WOOD-PLASTIC COMPOSITES: TECHNOLOGIES AND GLOBAL MARKETS (PLS034B)

  • INTRODUCTION
  • EXECUTIVE SUMMARY
  • INDUSTRY OVERVIEW
  • WOOD PLASTIC COMPOSITES
  • CELLULOSICS
  • NATURAL FIBER COMPOSITES
  • PLASTIC LUMBER

Chapter - 4: COMPOSITES: RESINS, FILLERS, REINFORCEMENTS, NATURAL FIBERS AND NANOCOMPOSITES (PLS029C)

  • INTRODUCTION
  • SUMMARY
  • FILLERS AND REINFORCEMENTS
  • FILLERS
  • REINFORCEMENTS
  • NANOCOMPOSITES
  • CARBON NANOTUBES

Chapter - 5: EMI/RFI: MATERIALS AND TECHNOLOGIES (PLS005J)

  • INTRODUCTION
  • SUMMARY
  • SHIELDING TECHNOLOGIES AND MATERIALS
  • EMC SHIELDING NEEDS TO KEEP UP WITH END-USER REQUIREMENTS
  • METALLIZATION PROCESSES
  • SHIELDING EFFECTIVENESS OVERVIEW BY TYPE OF COATING
  • CONDUCTIVE PLASTICS
  • CONDUCTIVE FILMS
  • INHERENTLY CONDUCTIVE POLYMERS
  • CONDUCTIVE ELASTOMERS
  • CONDUCTIVE COATINGS
  • ELECTROLESS PLATING

Chapter - 6: BIODEGRADABLE POLYMERS (PLS025D)

  • INTRODUCTION
  • SUMMARY
  • BACKGROUND/HISTORICAL
  • THE BIOPOLYMER-SYNTHETIC POLYMER GAP
  • NICHE MARKETS
  • NEW EMPHASIS
  • STILL HAVE ENVIRONMENTAL PROBLEMS
  • INTEGRATION OF BIODEGRADABLE PLASTICS WITH DISPOSAL INFRASTRUCTURE
  • EARLY STARCH-BASED MATERIALS
  • INTRODUCTION OF COMPOSTABLE BAGS
  • EARLY ENTRANTS
  • IMPORTANCE OF LOOSE-FILL
  • OTHER FACTORS
  • BIOPOLYMERS, CONVENTIONAL PLASTICS, AND BIODEGRADABLE PLASTICS
  • NATURAL OR SYNTHETIC
  • THE MOVE TO RENEWABLE SOURCES
  • EXTENDING THE RECYCLING LOOP
  • PROCESSING
  • PROPERTIES
  • DEFINING BIODEGRADABLE POLYMERS
  • PUBLIC ATTITUDES
  • ENVIRONMENTAL ISSUES
  • COMPOSTING
  • MARKET ESTIMATES AND FORECASTS
  • OVERVIEW
  • Table 46: GLOBAL BIODEGRADABLE POLYMER MARKET, THROUGH 2016
  • Figure 6: GLOBAL BIODEGRADABLE POLYMER MARKET, 2010 - 2016

Chapter - 7: PLASTICS IN ELECTRONIC ENCLOSURES: GLOBAL MARKETS (PLS048A)

  • INTRODUCTION
  • SUMMARY
  • OVERVIEW OF ELECTRONIC ENCLOSURES
  • PROCESS TECHNOLOGY FOR ELECTRONIC ENCLOSURES
  • EMI ASPECTS

List of Tables
  • Table 1: GLOBAL MARKET FOR ELECTROACTIVE POLYMERS, THROUGH 2016
  • Table 2: HOW TO MAKE PLASTICS CONDUCTIVE
  • Table 3: RESISTANCE SPECTRUM FOR METHODS OF MAKING PLASTICS CONDUCTIVE
  • Table 4: CATEGORIZING INHERENTLY CONDUCTIVE POLYMERS
  • Table 5: CONDUCTIVITIES OF DOPED ICPS COMPARED WITH METALS, SEMICONDUCTORS, AND INSULATORS
  • Table 6: COLOR OF DOPED AND UNDOPED CONDUCTIVE POLYMERS
  • Table 7: ICP PROCESSING TECHNIQUES
  • Table 8: STABILITY AND PROCESSING ATTRIBUTES OF KEY ICPS
  • Table 9: GLOBAL MARKET FOR APPLICATIONS OF WPCS, CELLULOSICS, PLASTIC LUMBER, AND NATURAL FIBER COMPOSITES, THROUGH 2016
  • Table 10: NORTH AMERICAN FIBER REINFORCED PLASTIC MARKET BY APPLICATION, THROUGH 2015
  • Table 11: PROFILE OF CHARACTERISTICS OF FILLERS/REINFORCEMENTS
  • Table 12: OVERVIEW OF CHARACTERISTICS AND APPLICATIONS OF FILLERS/REINFORCEMENTS
  • Table 13: FILLER/REINFORCEMENT USAGE WITH SPECIFIC RESINS
  • Table 14: ADVANTAGES OF SOLID GLASS MICROSPHERES
  • Table 15: GLASS FIBER SUPPLIERS
  • Table 16: GLOBAL PRODUCTION OF SELECTED NATURAL FIBERS
  • Table 17: SELECTED NANOCOMPOSITE SUPPLIERS
  • Table 18: GLOBAL EMI/RFI SHIELDING BY METHOD, THROUGH 2016
  • Table 19: TOTAL RAW MATERIAL AND LABOR COSTS ASSOCIATED WITH THE MAJOR SHIELDING OPTIONS
  • Table 20: RELATIVE COST STRUCTURE OF VARIOUS SHIELDING OPTIONS
  • Table 21: SUMMARY OF STRENGTHS AND WEAKNESSES OF KEY EMI SHIELDING OPTIONS
  • Table 22: QUALITATIVE RATINGS OF THE MAJOR SHIELDING OPTIONS
  • Table 23: METALLIZATION MATERIALS - FUNCTIONAL COATING
  • Table 24: SHIELDING EFFECTIVENESS OF KEY COATINGS
  • Table 25: DIELECTRIC CONSTANTS FOR SELECTED MATERIALS
  • Table 26: HOW TO MAKE PLASTICS CONDUCTIVE
  • Table 27: SURFACE RESISTIVITY FOR ELECTRONIC DEVICE SUBSTRATES
  • Table 28: RESISTANCE SPECTRUM FOR METHODS OF MAKING PLASTICS CONDUCTIVE
  • Table 29: SELECTED KEY COMPANIES PRODUCING CONDUCTIVE PLASTICS
  • Table 30: ADVANTAGES AND DISADVANTAGES OF STAINLESS STEEL FIBERS
  • Table 31: SELECTED MAJOR CONDUCTIVE FILLER SUPPLIERS
  • Table 32: SELECTED KEY SUPPLIERS OF CARBON NANOTUBES
  • Table 33: CONDUCTIVITIES OF DOPED ICPS COMPARED WITH METAL, SEMICONDUCTORS, AND INSULATORS
  • Table 34: CONDUCTIVITIES OF DOPED ICPS COMPARED WITH METALS, SEMICONDUCTORS AND INSULATORS
  • Table 35: STABILITY AND PROCESSING ATTRIBUTES OF KEY ICPS
  • Table 36: SHIELDING EFFECTIVENESS OF CONDUCTIVE ELASTOMERS
  • Table 37: COMPARATIVE TESTING OF CONDUCTIVE ELASTOMERS FOR GALVANIC CORROSION
  • Table 38: COMPARING EMI SHIELDING COMPOUNDS AND CONDUCTIVE COATINGS BY SEVERAL KEY VARIABLES
  • Table 39: COMPARISON OF CONDUCTIVE COATINGS BY CONDUCTIVITY AND SHIELDING EFFECTIVENESS
  • Table 40: ADVANTAGES AND DISADVANTAGES OF CONDUCTIVE COATINGS FOR EMI SHIELDING
  • Table 41: ELECTROLESS PLATING PROCESS
  • Table 42: ADVANTAGES AND DISADVANTAGES OF ELECTROLESS PLATING FOR EMI SHIELDING
  • Table 43: SELECTED APPLICATIONS USING ELECTROLESS PLATING FOR EMI SHIELDING
  • Table 44: SEQUENCE OF STEPS FOR ELECTROLESS PLATING OF PLASTICS
  • Table 45: GLOBAL BIODEGRADABLE POLYMER MARKET BY APPLICATION, THROUGH 2016
  • Table 46: GLOBAL BIODEGRADABLE POLYMER MARKET, THROUGH 2016
  • Table 47: GLOBAL MARKET FOR RESINS FOR STATIONARY AND MOBILE ENCLOSURES BY TYPE OF ELECTRONIC ENCLOSURE, THROUGH 2017
  • Table 48: COMPARISON OF KEY PERFORMANCE CRITERIA FOR ELECTRONIC ENCLOSURES: METALS VS. PLASTICS
  • Table 49: GENERAL RATINGS OF SHIELDING-EFFECTIVENESS

List of Figures
  • Figure 1: GLOBAL MARKET FOR ELECTROACTIVE POLYMERS, 2010 - 2016
  • Figure 2: GLOBAL MARKET FOR APPLICATIONS OF WPCS, CELLULOSICS, PLASTIC LUMBER, AND NATURAL FIBER COMPOSITES, 2008 - 2016
  • Figure 3: NORTH AMERICAN FIBER REINFORCED PLASTIC MARKET BY APPLICATION, 2009 - 2015
  • Figure 4: GLOBAL EMI/RFI SHIELDING BY METHOD, 2010 - 2016
  • Figure 5: GLOBAL BIODEGRADABLE POLYMER MARKET BY APPLICATION, 2010 - 2016
  • Figure 6: GLOBAL BIODEGRADABLE POLYMER MARKET, 2010 - 2016
  • Figure 7: GLOBAL MARKET FOR RESINS FOR STATIONARY AND MOBILE ENCLOSURES BY TYPE OF ELECTRONIC ENCLOSURE, 2011-2017
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