Cover Image
市場調查報告書

輪胎原料的未來 2021年

The Future of Tyre Raw Materials to 2021

出版商 Smithers Rapra 商品編碼 351866
出版日期 內容資訊 英文
商品交期: 最快1-2個工作天內
價格
Back to Top
輪胎原料的未來 2021年 The Future of Tyre Raw Materials to 2021
出版日期: 2016年02月15日 內容資訊: 英文
簡介

本報告以輪胎原材料市場為主題,提供今後5年的市場規模預測,全球輪胎原料供給的統計,各部門分析 (汽車類型、OEM&調換市場、地區、輪胎的種類) 、及主要威脅、機會、顛覆性技術分析彙整,為您概述為以下內容。

摘要整理

簡介、調查手法

輪胎產業

  • 簡介
  • 主要輪胎廠商
  • 輪胎製造的階段
  • 產業上部門
    • 各種車型
    • OEM、調換市場
    • 地區性的差異
    • 輪胎的種類
  • 小客車 (PC) / 小型貨物汽車 (LV) / 及T&B輪胎市場
    • 小客車、小型貨物車
    • 卡車、巴士
    • 特殊車輛
    • 地區性的差異
    • 能源輪胎

輪胎產業用的材料、目前消費量

  • 各部門
  • 各地區
  • 各材料
    • 合成橡膠
    • 輪胎油 (橡膠加工油,RPO)
  • 紡織品、鋼製輪胎簾子線
    • 鋼鐵
    • 紡織品
  • 編碼黏合催化劑
    • 鋼鐵
    • 紡織品
  • 加強材
  • 碳黑
    • 沉澱二氧化矽
  • 矽烷粘合劑
  • 抗氧化物質、臭氧劣化防止劑
  • 化合物、離型劑
  • 粘著給予劑
  • 硬化劑
  • 抗焦劑 (延遲劑)
    • 硫磺
    • 氧化鋅
    • 硬脂酸
  • 催化劑
  • 均質機
  • 解膠劑
  • 回收材
  • 新興材料、
  • 邊緣材料
    • 奈米填充物
    • 有機填充物
    • TPMS材料
    • RFID、感測器

材料的增加 (各輪胎、全體)

  • 影響輪胎材料的主要趨勢
  • 汽車技術趨勢
    • 減少排放廢氣
    • 備用輪胎的廢止
    • 永續性
    • 汽車回收法
    • 高級汽車市場
    • 大型卡車
    • 替代燃料
  • 輪胎產業趨勢
    • 子午化
    • 輕量化
    • 材料成本的削減
    • 輪胎製造的自動化
    • 更進一步的建模的有效利用
  • 輪胎相關的法規 (含標籤)
    • 範圍
  • 輪胎氣壓監控系統 (TPMS)
    • 美國的TPMS
  • 永續性、回收
  • 原料的永續性
    • 合成橡膠
    • 輪胎油
    • 加強材
    • 鋼製輪胎簾子線
    • 紡織品編碼
    • 氧化鋅
    • 硫磺
    • 硬脂酸
  • 回收
  • 耐用性的強化
  • 滾轉阻力的削減
  • 卡車用 (巴士用) 輪胎的方法

材料消費量的擴大預測

  • 材料的整體消費量
  • 合成橡膠
    • 天然橡膠
    • 合成橡膠
    • ESBR、SSBR
    • 異丁橡膠
    • 丁二烯橡膠
    • 釹BR (NDBR)
    • 聚異戊二烯
    • 官能化合成橡膠
  • 碳黑
    • HD二氧化矽 (HDS)
    • 傳統二氧化矽
  • 白及粘合劑
  • 輪胎油
  • 編碼 (鋼鐵、紡織品)
  • 人造絲、para芳香聚醯胺
  • 鋼絲黏合催化劑
  • 紡織品用RFL系統
  • 抗氧化物質、臭氧劣化防止劑
  • 催化劑、硬化劑
  • 粘著給予劑
  • 化合物、離型劑
  • 均質機
  • 解膠劑
  • 回收材
  • 新興材料

附錄1-3

圖表

本網頁內容可能與最新版本有所差異。詳細情況請與我們聯繫。

目錄

Despite the projected growth, all the indications are that the next few years are going to be challenging for materials suppliers. Previous growth predictions, largely based on booming Chinese and South Asian markets, are being significantly scaled back; trends towards lighter weight tyres is reducing demand; and tyre makers are targeting materials inputs as a source of cost savings. The Future of Tyre Raw Materials to 2021 provides a five-year forecast for the size of materials markets, making it a crucial planning tool for businesses in the tyre value chain.

Our exclusive content:

  • Statistical data for the global tyre raw materials supply market today and to 2021.
  • Exclusive insight into the sectors of the tyre industry broken down by vehicle type, OEM and replacement markets, regional differences, and tyre type.
  • The key threats, opportunities and disruptive technologies that could shape the tyre material supply and demand.

What methodology is used?

The data and information for this report were gathered using a combination of secondary and primary research. Secondary research consisted of a review of published material, conference proceedings, and information from organisations and companies involved in the production, supply, and use of tyres and their ingredients. Primary research consisted of interviews with specialists along the tyre supply chain. These data were analysed to provide estimates and forecasts for the tyre markets by end-use sector, type, and region.

What will you discover?

  • Insight into the tyre industry, including, leading tyre manufactures, steps in the tyre production process, and growth factors.
  • The factors growing the global tyre materials market over the next five years.
  • Identification of the materials used by the tyre industry broken down by sector, region and material.

Who should buy this report?

  • Raw material suppliers
  • Rubber, chemical and equipment suppliers
  • Tyre manufactures
  • Tyre wholesalers and retail distributors
  • Industry consultants and analysts

Table of Contents

EXECUTIVE SUMMARY

CHAPTER 1: INTRODUCTION & METHODOLOGY

  • SCOPE
  • DEFINITIONS
  • ABBREVIATIONS

CHAPTER 2: THE TYRE INDUSTRY

  • INTRODUCTION
  • LEADING TYRE MANUFACTURERS
  • STEPS IN TYRE PRODUCTION
  • SECTORS WITHIN THE INDUSTRY
    • BY VEHICLE TYPE
    • OEM AND REPLACEMENT MARKETS
    • REGIONAL DIFFERENCES
    • TYRE TYPES
  • GROWTH FORECASTS FOR THE PASSENGER CAR(PC)/ LIGHT GOODS VEHICLE ( LV) AND T&B TYRE MARKETS
    • PASSENGER CAR AND LIGHT GOODS
    • TRUCK AND BUS
    • SPECIALITIES
    • REGIONAL DIFFERENCES
    • ENERGY TYRES

CHAPTER 3: MATERIALS USED BY THE TYRE INDUSTRY and PRESENT CONSUMPTION

  • BY SECTOR
  • BY REGION
  • BY MATERIAL
    • ELASTOMERS
      • NATURAL RUBBER
      • SYNTHETIC ELASTOMERS
        • ESBR
        • SSBR
        • PBR
        • BUTYL RUBBER
        • POLYISOPRENE (IR)
      • FUNCTIONALISED ELASTOMERS
    • TYRE OILS (Rubber Processing Oils, RPO)
    • TEXTILE AND STEEL TYRE CORDS
      • STEEL
      • TEXTILE
    • CORD ADHESION PROMOTERS
      • STEEL
      • TEXTILE
    • REINFORCING FILLERS
    • CARBON BLACK
      • PRECIPITATIED SILICA
    • SILANE COUPLING AGENTS
    • ANTIOXIDANTS and ANTIOZONANTS
    • COMPOUND AND MOLD RELEASE AGENTS
    • TACKIFIERS
    • CURATIVES
    • ANTI-SCORCH AGENTS (RETARDANTS)
      • SULFUR
      • ZINC OXIDE
      • STEARIC ACID
    • ACCELERATORS
    • HOMOGENISERS
    • PEPTISERS
    • RECYCLATES
    • EMERGING AND FRINGE MATERIALS
      • NANO FILLERS
      • ORGANIC FILLERS
      • TPMS MATERIALS
      • RFID AND SENSORS

CHAPTER 4: MATERIALS GROWTH (BY TYPE AND TOTAL)

  • MAIN TRENDS LIKELY TO IMPACT ON TYRE MATERIALS
  • TRENDS IN VEHICLE TECHNOLOGY
    • REDUCING EMISSIONS
    • ELIMINATION OF SPARE WHEEL
    • SUSTAINABILITY
    • END OF LIFE RECYCLING
    • PREMIUM AUTOMOTIVE MARKETS
    • LARGER and HEAVIER TRUCKS
    • ALTERNATIVE FUELS
  • TYRE INDUSTRY TRENDS
    • CONTINUED RADIALISATION
    • LIGHTWEIGHTING
    • REDUCING MATERIALS COST
    • AUTOMATION OF TYRE MAKING
    • GREATER USE OF MODELLING
  • TYRE ASSOCIATED REGULATIONS (Including Labelling)
    • REACH
  • TYRE PRESSURE MONITORING SYSTEM (TPMS)
    • TPMS in US
  • SUSTAINABILITY AND RECYCLING
  • SUSTAINABILITY OF RAW MATERIALS
    • ELASTOMERS
    • TYRE OILS
    • REINFORCING FILLERS
    • STEEL TYRE CORDS
    • TEXTILE CORDS
    • ZINC OXIDE
    • SULFUR
    • STEARIC ACID
  • RECYCLING
  • INCREASING DURABILITY
  • REDUCING ROLLING RESISTANCE
  • APPROACHES TO TRUCK (and BUS) TYRES

CHAPTER 5: GROWTH PREDICTIONS FOR MATERIALS CONSUMPTION

  • TOTAL MATERIALS CONSUMPTION 2014-21
  • ELASTOMERS
    • NATURAL RUBBER
    • SYNTHETIC RUBBERS
    • ESBR and SSBR
    • BUTYL RUBBER
    • BUTADIENE RUBBERS
    • NEODYMIUM BR (NdBR)
    • POLYISOPRENE
    • FUNCTIONALISED ELASTOMERS
  • CARBON BLACK
    • HD SILICA (HDS)
    • CONVENTIONAL SILICA
  • SILANE COUPLING AGENTS
  • TYRE OILS
  • CORDS (STEEL AND TEXTILE)
    • STEEL
    • TEXTILE CORDS (Nylon, Polyester, Rayon and para-Aramid)
  • STEEL CORD ADHESION PROMOTERS
  • RFL SYSTEMS FOR TEXTILES
  • ANTIOXIDANTS AND ANTIOZONANTS
  • ACCELERATORS and CURATIVES
  • TACKIFIERS
  • COMPOUND AND MOLD RELEASE
  • HOMOGENISERS
  • PEPTISERS
  • RECYLATES
  • EMERGING MATERIALS

APPENDIX 1. SILICA / SILANE LOW ROLLING RESISTANCE TECHOLOGY

APPENDIX 2. SUSTAINABILITY AND BIO-SOURCING OF MONOMERS

APPENDIX 3. CLOSED LOOP RECYCLING OF TYRE MATERIALS

List of Tables:

  • Table E1:The Main Tyre Sectors
  • Table E2: Tyre raw materials segments in 2014 (Volume in KT)
  • Table E3: The principal trends which will affect tyre materials use
  • Table E4: Tyre materials which are predicted to deviate most from the trend of tyre growth
  • Table E5: Historic % growth of global tyres number against GDP growth %
  • Table E6: Volume Global Passenger car and Light Goods vehicles tyres 2014-21 (million units)
  • Table E7: Volume Global Truck/Bus tyres 2014-21 in million units
  • Table E8: Ratio of NR:SBR Price for the Years 2010-14
  • Table E9: Natural vs. Synthetic Rubber
  • Table E10: 2014 Tyre raw materials used in the two main sectors by Region (for tyres consumed there) in million tonnes
  • Table E11: 2014 Tyre raw materials used in the 2 main sectors by region (for tyres consumed there) in billion $
  • Table E12: Overall tyre materials use (in ‘000 tonnes)2014 and 2021
  • Table 2.1: 2014 OEM vs. Replacement PC/LV and T&B
  • Table 2.2: Top10 Tyre Manufacturers by Tyre Sales Value billion US $ in 2014
  • Table 2.3: The Main Tyre Sectors Included in this Report
  • Table 2.4:Main distinguishing features and material differences by Tyre Class
  • Table 2.5:Comparison of the advantages and limitations of bias and radial tyre construction for Passenger Car/Light goods vehicles and Truck/Bus
  • Table 2.6: The principal trends which will affect tyre materials use
  • Table 2.7: Forecast Population Changes for the period 2015-35
  • Table 2.8:Population Increase 1999-2006
  • Table 2.9: Historic % growth of global tyres number against GDP growth %
  • Table 2.10: Volume Global Passenger car and Light Goods vehicles tyres 2014-21 (million units)
  • Table 2.11: Value Global Passenger car and Light Goods vehicle tyres 2014-21 in billion $
  • Table 2.12: Volume Global Truck/Bus tyres 2014-21 in million units
  • Table 2.13:Value Global Truck/Bus tyres 2014-2021 in billion $
  • Table 2.14: % Volume trend Specialty tyres 2013-15
  • Table 2.15: Volume trend of the Specialty Tyres market, 2014-21
  • Table 2.16: Volume Passenger car and Light Goods vehicles tyre market 2014-21, radial + bias/ OEM + Replacement by region in million units
  • Table 2.17: Volume Truck/Bus tyre market in million units 2014-2021 (radial + bias/ OEM + Replacement) by region in million units
  • Table 2.18: Forecast Volume Growth in the Energy Tyre Share of the PCT and LV tyre market 2014-21 (% of total units, assuming 1kg of HDS per energy tyre)
  • Table 2.19: Conservative Scenario for Growth of Energy Tyres in the Truck and Bus Market
  • Table 3.1:The Main tyre sectors
  • Table 3.2: 2014 Tyre raw materials used in the two main sectors by Region (for tyres consumed there) in million tonnes
  • Table 3.3: 2014 Tyre raw materials used in the 2 main sectors by region (for tyres consumed there) in billion $
  • Table 3.4: Main tyre raw materials segments in 2014 (in ‘000 tonnes)
  • Table 3.5Main elastomers used in tyres
  • Table 3.6: Ratio of NR:SBR Price for the Years 2010-14
  • Table 3.7: Natural vs. Synthetic Rubber
  • Table 3.8: Principal ESBR producers
  • Table 3.9: Principal SSBRproducers
  • Table 3.10: The main IIR Producers
  • Table 3.11: The main IR producers
  • Table 3.12: % Volumebase oils market by API Classification (%)
  • Table 3.13: Main tyre oils
  • Table 3.14: Tyre oil types global consumption in tonnes 2014
  • Table 3.15: The main suppliers of Textile Cords
  • Table 3.16:Main steel cord adhesives suppliers
  • Table 3.17: Main textile adhesion promoter suppliers
  • Table 3.18:Largest Carbon Black producers with capacity 2000-13
  • Table 3.19: Carbon Black use in tyre markets, 2014
  • Table 3.20: Main producers of Precipitated Silicas for use in tyres
  • Table 3.21: The main companies producing tyre Silanes
  • Table 3.22: Global consumption of antioxidants and anti-ozonants
  • Table 3.23: The main companies producing Mold Release Agents
  • Table 3.24: The Tackifiers market
  • Table 3.25: The Accelerators market
  • Table 3.26:Main suppliers of Homogenisers
  • Table 4.1: Selected countries' targets for reducing CO2 emissions
  • Table 4.2: Present status of fuel economy regulations (Passenger Car and Light Commercial Vehicles)
  • Table 4.3:SmartWay tractor/trailer requirements
  • Table 4.4:Tyre labelling schemes coverage
  • Table 5.1: 2014 Tyre raw materials used in the two main sectors by Region (for tyres consumed there) in million tonnes
  • Table 5.2: 2014 Tyre raw materials used in the 2 main sectors by region (for tyres consumed there) in billion $
  • Table 5.3: Overall tyre materials use (in ‘000 tonnes)2014 and 2021
  • Table 5.4: Tyre materials which are predicted to deviate most from the trend of tyre growth
  • Table 5.5: Natural rubber volume for tyres worldwide 2014-21
  • Table 5.6: Synthetic rubber volume for tyres worldwide 2014-21
  • Table 5.7: ESBR demand for tyres by region ‘000 tonnes 2014-21
  • Table 5.8: SSBR demand for tyres by tegion ‘000 tonnes 2014-21
  • Table 5.9: Butyl rubber demand for tyres by region ‘000 tonnes 2014-21
  • Table 5.10: Polybutadiene rubber demand for tyres by region ‘000 tonnes 2014-21
  • Table 5.11: NdBR demand for tyres by region ‘000 tonnes 2014-21
  • Table 5.12: Polyisoprene rubber demand for tyres by region ‘000 tonnes 2014-21
  • Table 5.13: Carbon black demand worldwide for tyres in ‘000 tonnes 2014-21
  • Table 5.14: HDS Silica demand for tyres by region in tonnes 2014-21
  • Table 5.15: Conventional Silica demand for tyres in tonnes 2014-21
  • Table 5.16:Silane (principally TESPT) demand for tyres by region in tonnes 2014-21
  • Table 5.17: Volume global tyre oils 2014-21 ( both direct to tyre companies and indirect through Elastomer producers) in million tonnes
  • Table 5.18: Volume global tyre oils 2014-21 (both direct to tyre companies and indirect through Elastomer producers) by region in million tonnes
  • Table 5.19: Value global tyre oils 2014-21 (both direct to tyre companies and indirect through Elastomer producers) in billon $
  • Table 5.20: Volume global principal processing oils, by oil type for tyres, 2014-21 (‘000 tonnes)
  • Table 5.21: Steel cord volumes in ‘000 tonnes used for tyres worldwide 2014-21
  • Table 5.22: Steel cord volumes in ‘000 tonnes used for tyres 2014-21 by region
  • Table 5.23: Tyre textile cord volumes in ‘000 tonnes used for tyres worldwide 2014-21
  • Table 5.24: Nylon volumes in ‘000 tonnes used for tyres worldwide
  • Table 5.25: Polyester volumes in ‘000 tonnes used for tyres worldwide
  • Table 5.26: Rayon volumes in ‘000 tonnes used for tyres worldwide 2014-21
  • Table 5.27: Global volume para-aramid in tonnes by application 2014-21
  • Table 5.28: Cobalt salts volumes in ‘000 tonnes used for tyres worldwide 2014-21
  • Table 5.29: Cobalt salt volumes in ‘000 tonnes used for tyres 2014-21 by region
  • Table 5.30: RFL adhesives volume in ‘000 tonnes 2014-21
  • Table 5.31: The Antiozonant Waxes market in ‘000 tonnes for 2014-21
  • Table 5.32: The 6PPD market in ‘000 tonnes for 2014-21
  • Table 5.33: The TMQ market in ‘000 tonnes for 2014-21
  • Table 5.34: The Phenolic Antioxidants market in ‘000 tonnes for 2014-21
  • Table 5.35: The DPG market in ‘000 tonnes for 2014-21
  • Table 5.36: The Sulphenamide accelerators (=CBS) market in ‘000 tonnes for 2014-21
  • Table 5.37: Thiazoles (MBT and MBTS) market in ‘000 tonnes for 2014-21
  • Table 5.38: The Anti-Scorch market in ‘000 tonnes for 2014-21
  • Table 5.39: The Sulphur (Ordinary and Insoluble) market in ‘000 tonnes for 2014-21
  • Table 5.40: The Zinc Oxide market in ‘000 tonnes for 2014-21
  • Table 5.41: The Stearic Acid market in ‘000 tonnes for 2014-21
  • Table 5.42: The Phenolics (butyl and octyl) Tackifiers market in ‘000 tonnes for 2014-21
  • Table 5.43: The Other tackifiers (hydrocarbon resins, rosin deratives, cumarone-indene resins) market in ‘000 tonnes for 2014-21
  • Table 5.44: Mould release agents in ‘000 tonnes for 2014-21
  • Table 5.45: Compound release agents in ‘000 tonnes for 2014-21
  • Table 5.46: Homogenisers market in ‘000 tonnes for 2014-21
  • Table 5.47: Peptisers market in ‘000 tonnes for 2014-21
  • Table 1 Appendix 2:Smithers Rapra estimates for global rubber monomer requirements (million tonnes) for tyre production 2014-24
  • Table 2 Appendix 2: Advantages and limitations of syn-gas fermentation

List of Figures:

  • Figure 2.1: Bias vs. Radial tyres
  • Figure 2.2. Middle class populations in BRIC, 2000, 2010 and 2020 (million)
  • Figure 2.3: Oil price developments in $, Jan 1970-Dec 2014
  • Figure 3.1.Comparison of Naphthenic Black Oil, TDAE and RAE
Back to Top