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市場調查報告書

高溶融強度聚丙烯 (HMS PP) 的全球市場 (2015∼2020年)

Global High Melt Strength Polypropylene 2015-2020

出版商 TZ Minerals International Pty Ltd 商品編碼 357190
出版日期 內容資訊 英文
商品交期: 最快1-2個工作天內
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高溶融強度聚丙烯 (HMS PP) 的全球市場 (2015∼2020年) Global High Melt Strength Polypropylene 2015-2020
出版日期: 2016年02月28日 內容資訊: 英文
簡介

溶融強度,是達到熔點的聚合物表示能抵抗多少拉伸力的指標。高溶融強度的聚合物的情況,是分子的主鎖鏈部分很長,重量也很沉重帶來影響。聚丙烯是以抗張力高為首具有各種特性的材料,不過,溶融強度很低,有不適用熱成型、吹塑成型的弱點。為了彌補其弱點,溶融強度高的聚丙烯的開發、生產有所發展。

本報告提供全球量溶融強度聚丙烯 (以下HMS PP) 市場相關分析,產品的特性和用途,全球各地的生產、供需趨勢,技術開發的歷史沿革與今後的預測,主要供應商/終端用戶的概要,今後的市場進入、產業擴大的理想狀態等相關調查與考察。

第1章 簡介、前提條件

第2章 摘要整理

第3章 產品、應用領域分析

  • 簡介
  • 產品概要
  • 高溶融強度聚丙烯 (HMS PP) 的產品、用途分析

第4章 各地區的市場分析:北美

  • 簡介
  • 需求數量、供給量

第5章 各地區的市場分析:歐洲

第6章 各地區的市場分析:日本

第7章 各地區的市場分析:中國

第8章 各地區的市場分析:其他亞洲各國

第9章 各地區的市場分析:其他各國

第10章 技術分析

  • 高溶融強度聚丙烯的特性
  • 過去的技術開發的過程
  • 主要的生產技術的概要

第11章 供應商分析

  • 簡介
  • 主要供應商
  • 未來的潛在的供應商

第12章 終端用戶分析

  • 簡介
  • 主要的終端用戶:北美
  • 主要的終端用戶:歐洲
  • 主要的終端用戶:日本
  • 主要的終端用戶:中國、其他地區

第13章 策略分析

  • 簡介
  • HMS PP市場現狀
  • 現在、未來加入廠商的策略選擇
  • 未來的市場機會、課題
  • 結論

附錄A:簡稱一覽

圖表一覽

目錄

Melt strength is defined as the resistance to extensional flow above the melting point of the polymer. High melt strength is a function of molecular weight and long chain branching. Two areas where melt strength is of great importance are:

  • at very high shear rates such as in extrusion applications and
  • at low shear rates approaching zero such as in thermoforming and blow molding applications.

Polypropylene (PP) is a versatile thermoplastic resin widely used in various applications due to its superior properties such as high tensile strength, high modulus, high stiffness, chemical resistance and excellent heat resistance, as well as its lower cost. PP is produced catalytically via Ziegler-Natta or metallocene polymerization, leading to highly linear chains with a relatively narrow molecular weight distribution. However, the consequences of high linear structure are low melt strength and poor melt extensibility, making PP difficult to be used in extensional flow-dominated processes, such as extrusion foaming, thermoforming, extrusion coating, and blow molding. It was recognized that a development of high melt strength characteristics of PP would make PP competitive with other materials such as polystyrene and polyethylene in these applications.

The melt strength of a resin may be affected by:

  • Increasing average molecular weight;
  • Broadening molecular weight distribution;
  • Creation of long chain branched structures.

Several major suppliers of PP resins have attempted developing high melt strength polypropylene resins (HMS PP) in the past, albeit only a few succeeded. Different commercial techniques that may be employed to manufacture HMS PP include:

  • Irradiation of PP in an inert environment;
  • Introduction of long chain branches using peroxides;
  • Reactive extrusion of grafted polypropylene as crosslinking;
  • In-situ reactor production.

Current major producers of HMS PP include Borealis, Japan Polypropylene (JPP) and Braskem. The main applications of HMS PP include extruded foams, thermoforming, extrusion coating and blow molding. Some smaller applications include blown films, extrusion profiles and others.

Applications such as automotive interiors & exteriors, thermoformed foam food packaging, insulation, flooring underlayment and others use HMS PP foam. Historically, North America and Europe have been the largest consumers of HMS PP. These regions continue to witness steady growth, while the rise in consumption in regions such as China and Rest of Asia will be the growth driver for the overall demand of HMS PP.

This multi-client study will address several important issues related to the current status of the HMS PP industry in North America, Europe, Japan, China, Rest of Asia and Rest of World. The topics covered in this study will focus on the supply and demand dynamics of HMS PP, intermaterial competition, end-use applications, unmet needs and current & future industry needs.

KEY BENEFITS

  • In depth report for fast growing global HMS polypropylene industry
  • Global supply and demand dynamics for 7 regions
  • Independent analysis of global markets
  • Outlook from 2015- 2020
  • Comprehensive producer profiles
  • Key challenges facing the global sector
  • Complete Excel worksheets included with full report
  • Exclusive Q&A session with report author

MAJOR OBJECTIVES

  • Define and assess worldwide status of HMS PP industry;
  • Assist HMS PP producers and converters in analyzing the market trends;
  • Provide detailed application analysis, technical requirements and intermaterial competition for HMS PP;
  • Present market forecasts by region and applications to year 2020;
  • Detailed competitive landscape including market shares, capacities, grades and market strategies.

KEY ISSUES ADDRESSED

  • Unmet needs of polypropylene resin;
  • End user requirements of polypropylene resin;
  • Advantages of HMS PP in current applications;
  • Impact of established commodity resins on the growth of HMS PP market size;
  • Market / technology positioning of major HMS PP producers.

Table of Contents

1.0. INTRODUCTION AND ASSUMPTIONS

  • 1.1. Introduction
  • 1.2. Properties of high melt strength polypropylene
  • 1.3. Objectives
  • 1.4. CMR methodology
  • 1.5. Regions addressed in this Study
  • 1.6. Supply and demand projections
  • 1.7. Abbreviations used in this Study

2.0. EXECUTIVE SUMMARY

  • 2.1. Introduction
  • 2.2. HMS PP applications overview
  • 2.3. HMS PP global demand by region
  • 2.4. HMS PP global region by application
  • 2.5. HMS PP competitive landscape overview
  • 2.6. HMS PP technologies overview
  • 2.7. HMS PP pricing overview

3.0. PRODUCT AND APPLICATION ANALYSIS

  • 3.1. Product introduction
  • 3.2. Product overview
  • 3.3. HMS PP product and application analysis

4.0. REGIONAL MARKET ANALYSIS: NORTH AMERICA

  • 4.1. Introduction
  • 4.2. Demand

5.0. REGIONAL MARKET ANALYSIS: EUROPE

  • 5.1. Introduction
  • 5.2. Demand
  • 5.3. Supply

6.0. REGIONAL MARKET ANALYSIS: JAPAN

  • 6.1. Introduction
  • 6.2. Demand
  • 6.3. Supply

7.0. REGIONAL MARKET ANALYSIS: CHINA

  • 7.1. Introduction
  • 7.2. Demand
  • 7.3. Supply

8.0. REGIONAL MARKET ANALYSIS: REST OF ASIA

  • 8.1. Introduction
  • 8.2. Demand
  • 8.3. Supply

9.0. REGIONAL MARKET ANALYSIS: REST OF WORLD

  • 9.1. Introduction
  • 9.2. Demand
  • 9.3. Supply

10.0. TECHNOLOGY ANALYSIS

  • 10.1. Properties of high melt strength polypropylene
  • 10.2. Historical developments
  • 10.3. Process description of major technologies

11.0. SUPPLIER ANALYSIS

  • 11.1. Introduction
  • 11.2. Major suppliers
  • 11.3. Potential future suppliers

12.0. END-USER ANALYSIS

  • 12.1. Introduction
  • 12.2. Major end-users in North America
  • 12.3. Major end-users in Europe
  • 12.4. Major end-users in Japan
  • 12.5. Major end-users in China and other regions

13.0. STRATEGIC ANALYSIS

  • 13.1. Introduction
  • 13.2. Status of HMS PP
  • 13.3. Strategic options for current and potential players
  • 13.4. Potential opportunities and challenges
  • 13.5. Conclusions

APPENDIX A - ABBREVIATIONS USED IN THIS STUDY

TABLES

  • Table 2.1: Global consumption of HMS PP by region: 2015-2020
  • Table 2.2: Global consumption of HMS PP by application: 2015-2020
  • Table 2.3: Top 10 producers of HMS PP
  • Table 4.1: North American consumption of HMS PP by application: 2015-2020
  • Table 4.2: Braskem HMS PP grades
  • Table 5.1: European consumption of HMS PP by application: 2015-2020
  • Table 5.2: Borealis Daploy™ HMS PP grades
  • Table 6.1: Japanese consumption of HMS PP by application: 2015-2020
  • Table 6.2: JPP HMS PP grades
  • Table 7.1: Chinese consumption of HMS PP by application: 2015-2020
  • Table 7.2: HMS PP suppliers and grades in China
  • Table 8.1: Rest of Asia consumption of HMS PP by application: 2015-2020
  • Table 8.2: Lotte Chemical HMS PP grades
  • Table 9.1: Rest of World consumption of HMS PP by application: 2015-2020
  • Table 11.1: Borealis Daploy™ HMS PP grades
  • Table 11.2: Braskem HMS PP grades
  • Table 11.3: JPP HMS PP grades
  • Table 13.1: Comparison of HMS PP properties with other foam materials
  • Table 13.2: Comparison of HMS PP properties with other thermoforming materials

FIGURES

  • Figure 1-1: Uncoiling of polymers under transient extentional flow
  • Figure 2-1: Global consumption of HMS PP by region in 2015
  • Figure 2-2: Global consumption of HMS PP by application in 2015
  • Figure 3-1: Molecular structure of linear and branched polymers
  • Figure 4-1: North American consumption of HMS PP by application in 2015
  • Figure 5-1: European consumption of HMS PP by application in 2015
  • Figure 6-1: Japanese consumption of HMS PP by application in 2015
  • Figure 7-1: Chinese consumption of HMS PP by application in 2015
  • Figure 8-1: Rest of Asia consumption of HMS PP by application in 2015
  • Figure 9-1: Rest of World consumption of HMS PP by application in 2015
  • Figure 11-1: Estimated market share of HMS PP producers in 2015
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