表紙:タイヤにおけるカーボンブラック・シリカの将来(~2027年)
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1152303

タイヤにおけるカーボンブラック・シリカの将来(~2027年)

The Future of Carbon Black vs. Silica in Tires to 2027

出版日: | 発行: Smithers | ページ情報: 英文 84 Pages | 納期: 即日から翌営業日

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タイヤにおけるカーボンブラック・シリカの将来(~2027年)
出版日: 2023年05月08日
発行: Smithers
ページ情報: 英文 84 Pages
納期: 即日から翌営業日
  • 全表示
  • 概要
  • 目次
概要

当レポートでは、タイヤ業界について調査分析し、カーボンブラック・シリカの詳細な分析や、2027年までの業界の見通しを提供しています。また、タイヤ業界のサステナビリティと、それに伴うカーボンブラック・シリカのサプライヤーに対する要求について考察しています。

目次

エグゼクティブサマリー

イントロダクションと調査手法

市場の概要

  • 世界のタイヤの金額と数量の成長動向
    • タイヤ業界の概要 - タイヤ業界の主要企業
    • COVID-19の影響
    • 現在と将来の業界に対するサプライチェーン力学の影響
    • サプライチェーンに対するウクライナ戦争の影響
    • 規制情勢
  • タイヤ業界のサステナビリティ
    • サステナビリティの定義 - ライフサイクル分析の重要性
    • タイヤ業界にとってのサステナビリティの重要性
    • タイヤ業界におけるサステナビリティへの取り組みの全体像
    • タイヤ製造におけるカーボンブラック・シリカの使用と選択
      • 性能要件
      • タイヤ工場での使いやすさ
      • コスト/価値
    • カーボンブラック・シリカ市場のサステナビリティ
      • カーボンブラックのプロセスとサステナビリティを向上させる機会
      • シリカのプロセスとサステナビリティを向上させる機会

最先端技術開発

  • フィラーの選択に影響を与える車両技術の主な変化
    • 電気自動車
    • 自動運転車
  • 世界の環境規制に起因する技術ニーズ
    • 車両とフィラー生産工場からの排出の削減
    • タイヤのラベリング
    • タイヤ摩耗粒子
    • 6PPDの削減/除去
  • 持続可能な製造における進歩
    • 使用済みタイヤのリサイクル
    • 再生材料
  • タイヤのカーボンブラック・シリカの性能における進歩
    • 回収カーボンブラックと類似の材料
    • シリカとカーボンブラックの新しいグレード

カーボンブラック・シリカ市場:タイヤタイプ別、最終用途別

  • 乗用車用タイヤと小型商用車におけるシリカ
  • タイヤのコンポーネントにおけるシリカの制限の理由
  • 乗用車用タイヤと小型商用車におけるカーボンブラック
  • トラックやバスのタイヤに使用されるカーボンブラック
  • 鉱業、建設、港湾車両用タイヤに使用されるカーボンブラック
  • 農業用タイヤのカーボンブラック
  • 工業用タイヤのカーボンブラック
  • 航空機タイヤのカーボンブラック

カーボンブラック・シリカ市場:地域別

  • 世界のカーボンブラック工場の新設/拡張
  • カーボンブラックのグレード - タイヤが使用される場所と機会
  • シリカのグレード - タイヤが使用される場所と機会

機会と見通し

  • タイヤ材料の研究開発における革新とフィラーとの関係
  • 持続可能な材料における新たな発展 - シリカとカーボンブラックの再生の将来
  • 機会と脅威 - タイヤ業界におけるカーボンブラック・シリカの使用
  • 主な研究分野
目次

Features

  • Asia-Pacific accounts for 59% of the world's carbon black manufactured for the tire industry and this will grow to 61% in 2027
  • Asia-Pacific is the largest manufacturer of highly dispersible silica for the tire industry, accounting for around 35% of total production
  • The use of highly dispersable silica in tires will grow at a rate of almost 8% for 2021-27 while carbon black use will increase at a rate of 3.5%.

Sustainability in tire manufacturing is one factor that is determining the use of either carbon black or silica. Technology developments, cost and performance are also at play. This report examines the outlook for the tire industry to 2027, along with an in-depth analysis of silica and carbon black. The report explores the properties and uses of these materials, including volume and value growth by global region and tire type. It discusses tire industry sustainability and the subsequent demands placed on carbon black and silica suppliers. The use of more sustainable raw materials in tire formulations with sustainable carbon blacks and silicas and related technologies are highlighted.

Our exclusive content

  • Sustainability has become a major commitment from all major tire manufacturers. The silica and carbon black industries have responded to this by developing new silica and carbon black products based on alternative renewable or recycled feedstocks
  • This report looks at initiatives by major tire companies and suppliers of silica and carbon black, including growth trends. The key relationship between sustainability, fillers, tire wear particles and 6PPD will be discussed
  • Major carbon black and silica suppliers are discussed along with their environmental objectives, products, and related technologies.

What will you discover?

  • Carbon black vs silica in the tire industry's drive for sustainability
  • New silica and carbon black products based on natural or recycled raw materials
  • The tire industry's role in improving vehicle fuel economy through tire design and materials
  • The importance of wear properties in fillers and environmental considerations
  • The regulatory outlook of carbon black and silica to 2027.

The Smithers methodology

This report is based on extensive primary and secondary research. Primary research consisted of targeted interviews with material suppliers, converters and experts drawn from key markets. This was supported by secondary research in the form of extensive literature analysis of published data, official government statistics, domestic and international trade organisation data, company websites, industry reports, trade press articles, presentations, and attendance at trade events.

Who should buy the report?

  • Tire makers
  • Non-tire rubber goods makers
  • Producers of tire materials
  • Equipment suppliers to the tire industry
  • Participants in the tire markets value chain
  • Industry analysts and researchers

About the author

Howard Colvin has many years of experience in the tire industry with 22 years at Goodyear and 12 years with Cooper. At Cooper he worked in the Advanced Technology group and led Cooper's consortium of academia, industry and government to develop a guayule concept tire. Howard is the 2021 Melvin Mooney Distinguished Technology award winner for exhibiting exceptional technical competency in rubber science and technology.

Table of Contents

Executive summary

Introduction & methodology

Market overview

  • Trends in global tire value and volume growth
    • Tire industry overview-key players in the tire industry
    • Influence of Covid-19
    • Influence of supply chain dynamics on the industry now and in the future
    • Influence of the war in Ukraine on the supply chain
    • Regulatory landscape
  • Sustainability in the tire industry
    • Definition of sustainability - Importance of Life Cycle Analysis
    • Importance of sustainability to the tire industry
    • Overall view of sustainability efforts in the tire industry
    • Use of and selection of carbon black and silica in tire manufacturing
      • Performance requirements
      • Ease of use in the tire plant
      • Cost/value
    • Sustainability in the carbon black and silica markets
      • Carbon black process and opportunities to improve sustainability
      • Silica process and opportunities to improve sustainability

Cutting-edge technology developments

  • Key changes in vehicle technology that will influence filler selection
    • Electric vehicles
    • Autonomous vehicles
  • Technology needs resulting from global environmental regulations
    • Reducing emissions from vehicles and filler producing plants
    • Tire labelling
    • Tire wear particles
    • 6PPD reduction/elimination
  • Advances in sustainable manufacturing
    • End-of-life tire recycling
    • Reclaimed materials
  • Advances in carbon black and silica performance for tires
    • Recovered carbon black and similar materials
    • New grades of silica and carbon blacks

Carbon black and silica market by tire type and end use

  • Silica in passenger tires and light commercial vehicles
  • Reasons for limitations of silica in tire components
  • Carbon black in passenger tires and light commercial vehicles
  • Carbon black in truck and bus tires
  • Carbon black in mining, construction, and port vehicle tires
  • Carbon black in agricultural tires
  • Carbon black in industrial tires
  • Carbon black in aircraft tires

Carbon black and silica market by region

  • New plants/expansion in carbon black plants worldwide
  • New plants/expansion in carbon black plants worldwide
  • Grades of carbon black - where used in tires and opportunities
  • Grades of silica - where used in tires and opportunities

Opportunities and outlook

  • Innovation in tire materials R&D and relationships with fillers
  • New developments in sustainable materials - Future of reclaiming silica and carbon black
  • Opportunities and threats - carbon black and silica usage in the tire industry
  • Key areas of research

Tables

  • Tires overall market 2022, by value/ volume
  • Tires overall market 2027, by value/ volume
  • Silica and carbon black market share 2022 by value/volume
  • Silica and carbon black market share 2027 by value/volume
  • Comparison of silica and carbon black by tire type 2022-2027
  • Major drivers affecting sustainability in the tire industry
  • Tire growth forecast
  • Major tire manufacturers by sales
  • Comparison of silica and carbon black
  • Leading carbon black manufacturers
  • Leading silica manufacturers
  • Number of patents by major suppliers on sustainable developments - carbon black
  • Number of patents by major suppliers on sustainable developments - silica
  • Carbon black technology development by company
  • Silica technology development by company
  • Tire market factors influencing filler volumes
  • Comparison of tire features needed by new vehicle requirements
  • Overview of technologies in sustainable carbon black
  • Overview of technologies in sustainable HD silica
  • End-of-life tire recycling technologies.
  • Major companies involved in recovered carbon black
  • State of the art 2022 and 2027
  • HD Silica usage in tires by tire type by year
  • HD silica usage in passenger and light commercial tires by year
  • Conventional Silica usages in tires by tire type by year
  • Carbon black usage in tires by tire type by year
  • Carbon black usage in passenger and light commercial tires by year
  • Carbon black usage in truck and bus tires by year
  • Carbon black usage in motorcycle tires by year
  • Carbon black usage in mining, construction, and port tires by year
  • Carbon black usage in agricultural tires by year
  • Carbon black usage in industrial vehicles by year
  • Carbon black usage in aircraft tires by year
  • Grades of carbon black used in the tire industry
  • Grades of silica used in the tire industry
  • HD Silica usage in tires by region by year
  • HD Silica usage in tires by value and region
  • Carbon black usage in tires by value and region
  • Carbon black usage in tires by region by year

Figures

  • Value chain diagram
  • Carbon black manufacturing process
  • Silica manufacturing process
  • Pillars of sustainability
  • Overview of Life Cycle analysis
  • Chemical structure of 6PPD
  • Chemical structure of 6PPDQ