EV用永續輪胎的全球市場的未來(～2029年)

功能

• 2024 年至 2029 年，全球小型電動車市場規模預計將以 17.5% 的複合年增長率成長。
• 永續電動車輪胎的銷量預計到 2029 年將達到 8.846 億條，自 2024 年起複合年增長率為 15.8%。
• 全球電動車輪胎原料消耗量預計將達到 2,220 萬噸，複合年增長率為 16.7%。

本報告提供全球EV用永續輪胎市場相關調查分析，提供主要的促進因素與趨勢，主要地區的採用情形，法規與技術預測等資訊。

目錄

摘要整理

與簡介調查手法

促進永續電動車輪胎的因素和趨勢總結

• 簡介
• 全球輪胎產業現狀
• 永續電動車輪胎的主要驅動因素和趨勢（2024-2029 年）
• 了解狀況
• 能源價格鐘擺
• 從網格到綠色
• 城市電動車生態系統（已開發國家及發展中國家）
• 交通電氣化之路
• 安心的代價
• 高度關注物質 (SHC)
• 客製化學
• 知識保護（專利業）
• 微塑膠：巨大的隱藏廢棄物 (TRWP)
• 工業領域的四個 C
• 電動車和自動駕駛汽車的弱點
• 我該放棄還是準備？
• 具有課題性的商業模式
• 經濟成長。可預測的全球貿易和物流？
• 更強、更輕的輪胎的悖論
• 從長遠來看，需要新的原廠輪胎供應商和標準旅行輪胎
• 永續發展和循環經濟的整體方法
• 概念/示範輪胎
• 回收
• 輪胎工業項目對廢棄輪胎 (ELT) 的調查
• 黑色循環
• 中國引領電動車和輪胎生產與消費
• 從馬斯到塔斯的移動概念
• 法規（包括政府政策）
• 美國：擴大需求並建立信任
• 歐洲電動車情勢：課題與競爭
• 中國電動車獎勵措施的轉變：從補貼到永續發展
• 對電動車和輪胎的要求引發了激烈的競爭
• 卡車和公車
• OTR

永續電動車輪胎的設計與製造

• 簡介
• 用於製造永續電動車輪胎的設備
• 串聯攪拌機
• 滾輪頭或滾輪模具裝置
• 用於胎面和胎側的三重或四重擠出機
• 4卷日曆
• 鋼簾線生產的替代方案
• 全自動建築機械
• 最終檢查由機器代替人工進行
• 更強、更輕的輪胎的悖論
• 其他設備
• 電子束
• 不平衡布料
• 冠層
• 固化週期
• 數位化輪胎生產：從配方到最終檢驗

EV用永續輪胎:各材料

• 簡介
• 原料
• 彈性體
• 天然橡膠 (NR)
• 丁苯橡膠 (SBR)
• 聚丁二烯 (PBR)
• 丁基橡膠（IR/PIB/BR）
• 其他
• 聚合物/輪胎中的液相混合技術
• 程式碼
• 紡織繩
• 尼龍 (Ny)
• 聚酯 (PET)
• 人造絲
• 芳綸
• 冠帶層輪胎創新 MilliCap
• 鋼絲繩
• 珠子
• 黏合劑
• 油 - 塑化劑
• 高性能樹脂
• 增強填料
• 炭黑
• 高分散二氧化矽 (HDS)
• 固化包裝和氧化鋅
• 臭氧劣化抑制劑、抗氧化劑、劣化抑制劑
• 奈米技術
• 靜音技術表格
• 靜音技術詳情
• 汽車密封膠
• TPMS 和 RFID

EV用永續輪胎:各車輛類型

• 簡介
• 乘用車和輕型卡車
• 電動車輪胎
• 乘用車和輕型卡車的電動車輪胎
• 最後一哩服務/送貨 (LMD)
• 卡車和公車
• 摩托
• OTTR
• 原廠OTR市場
• MCCP
• 採礦
• 電源策略
• 建築
• 連接埠
• AG
• 工業
• 耗散輪胎
• OTR 中的充氣和非充氣輪胎

Features

• Light electric vehicle sales are forecast to grow 17.5% CAGR globally from 2024 to 2029
• Sustainable EV tires by volume will grow 15.8% CAGR from 2024 reaching 884.6 million units in 2029
• Global consumption of raw materials for EV tires will grow 16.7% CAGR to 22.2 million tonnes.

Find out

• How the strong growth of electric car markets is having a major impact on tire design
• What technologies the major tire suppliers and automotive manufacturers are investing in to meet sustainability targets
• How the approaching need for tires that can operate 24/7 for commercial and autonomous vehicles will impact tire design
• How suppliers of sustainable tires for EVs will approach the opportunities and threats in the industry.

Report definition

This report analyses specific developments and trends for sustainable tires for EVs, including value and volume growth data for key materials, application by vehicle type and performance level, and adoption in key global regions. Analysis is also conducted of the confluence of electric, autonomous and shared vehicle trends, regulatory outlook, technology outlook, changing supply chains, and tire manufacturing evolution.

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
• Equipment suppliers to the tire industry
• Producers of tire materials
• Participants in the tire markets value chain

Table of Contents

Executive summary

Introduction & methodology

• Introduction
• Methodology
• Abbreviations

Overview of sustainable EV tire drivers and trends

• Introduction
• Current situation of the global tire industry
• Top drivers and trends for sustainable EV tires 2024-29
• Understanding the situation
• Energy price pendulum
• From grid to green
• Urban EV ecosystem (in developed and developing countries)
• The road to transport electrification
• The price of peace-of-mind
• Substances of high concern (SHC)
• Tailored chemistry
• Knowledge protection (patent industry)
• Microplastics: the big hidden emission (TRWP)
• The four Cs in the industry
• The Achilles' heel of electric and autonomous vehicles
• Giving up or gearing up?
• Challenging business models
• Economic growth. Predictable global trade and logistics?
• Paradox of stronger and lighter tires
• New OE tire suppliers and standard touring tires needed in the longer term
• The holistic approach to sustainability and the circular economy
• Concept/Demonstration tires
• Recycling
• Tire Industry Project investigation of end-of life tires (ELT)
• BlackCycle
• China leading production and consumption of EVs and tires
• Maas to Taas mobility concept
• Regulatory (including government policies)
• USA: boosting demand and building confidence
• Europe's EV landscape: Challenges and competition
• China's EV incentive shift: from subsidies to sustainability
• Requirements of EVs and tires resulting in fierce competition
• Truck and bus
• OTR

Design and manufacturing of sustainable EV tires

• Introduction
• Equipment to make sustainable EV tires
• Tandem mixers
• Roller head or roller die units
• Triple or quadruple extruders for treads and sidewalls
• Four roll calenders
• Alternatives for steel cord production
• Fully automated building machines
• Final inspection replacing human by machines
• The paradox of stronger and lighter tires
• Other equipment
• Electron beam
• Off-balanced fabrics
• Cap ply
• Curing cycles
• Digital tire production: from compounding to final inspection

Sustainable tires for EVs by material type

• Introduction
• Raw materials
• Elastomers
• Natural rubber (NR)
• Styrene butadiene rubber (SBR)
• Polybutadiene (PBR)
• Butyl rubber (IR/PIB/BR)
• Others
• Liquid phase mixing technologies in polymers/tires
• Cords
• Textile cords
• Nylon (Ny)
• Polyester (PET)
• Rayon
• Aramid
• Cap Ply Tire Innovation MilliCap
• Steel Cords
• Beads
• Adhesion agents
• Oils - plasticizers
• Performance Resins
• Reinforcing fillers
• Carbon Black
• High Dispersion Silica (HDS)
• Curing package and zinc oxide
• Antiozonant, antioxidant and antidegradants
• Nanotechnology
• Foams for silent technology
• More about silent technologies
• Auto sealants
• TPMS and RFID

Sustainable tires for EVs by vehicle type

• Introduction
• Passenger and light truck vehicles
• EV tires
• Passenger cars and light trucks EV tires
• Last Mile Service / Delivery (LMD)
• Truck and bus
• Moto
• OTR
• OE OTR market
• MCP
• Mining
• Power supply strategies
• Construction
• Ports
• AG
• Industrial
• Dissipative tires
• Pneumatic and non-pneumatic tires in OTR

Tables

• Light vehicles volume by power type, 2019-29 (million units)
• Tire property issues for the different electric propulsion systems
• Tire GHG intensity of internal combustion cars and electric vehicles
• Electric bus pros and cons
• Vehicle technology transition in developed countries
• Tire Contribution as response of EV characteristics
• Top 15 tire makers 2023
• Drivers and challenges for sustainable EV tires - main factors and drivers
• Substances of high concern
• Roles of tire companies working toward a sustainable future
• Selected sustainability goals of major tire producers
• Members of BlackCycle consortium and their project roles
• European Legal Framework
• Tire size and load example
• Initiatives, regulations, and projects affecting the industry
• Key countries' targets to reduce emissions
• Types of materials by radial tire components
• Typical tire composition by weight and cost spit
• Videos or special references for different processes or technologies , factory performance and miscellaneous
• Tandem mixer and schematic line
• Example of substances of high concern used in all types of tires
• Global consumption of raw materials for EV tires by type, 2019-23 ('000 tonnes)
• Process oils used in the tire industry
• CB production technologies
• Silent Technologies
• Total PCLT vehicles by volume 2019-29 (million units)
• EV tires by vehicle type by volume (million units), 2019-29
• EV tires by vehicle type 2019-29 ($ million)
• Electric Buses - pros and cons
• From Diesel to battery-powered and electric-powered mining vehicles with weight and torque
• Characteristics of R2900
• Bridgestone tires provided to
• Light EV volume by region, 2019-29 (million units)
• Global EV tires by region, 2019-29 (million units)
• Global EV tires by region, 2029-29 ($ million)
• Global EV vs sustainable EV tires by region, 2022-29 (million units)
• EV tires by vehicle type in AP, 2019-29 (million units)
• EV tires by vehicle type in AP, 2019-29 ($ million)
• Daily oil production / 1,000 habitants
• EV tires by vehicle type in EUR, 2019-29 (million units)
• EV tires by vehicle type in EUR, 2019-29 ($ million)
• Different countries and USD/fuel liter, kWh and energy source
• EV tires by vehicle type in NA, 2019-29 (million units)
• EV tires by vehicle type in NA, 2019-29 ($ million)
• EV tires by vehicle type in SCA, 2019-29, (million units)
• EV tires by vehicle type in SCA, 2019-29 ($ million)
• EV tires by vehicle type in MEA, 2019-29, (million units)
• EV tires by vehicle type, 2019-29 ($ million)
• SWOTT EV tires raw materials suppliers
• Specific raw materials and tire components suppliers threats and opportunities
• SWOTT analysis for EV tire manufacturers
• SWOTT analysis for OE
• SWOTT analysis for tire end users
• Airless tires and the parts involved
• Predicted vehicle market share by power type

Figures

• Light vehicle volume by power type 2019-29 (million units)
• Passenger and light truck EV by region 2022-29 (million unit)
• EV tires by vehicle type by volume (million units) 2019-29
• Passenger and light truck EV in AP, EUR and NA by vehicle type 2024 versus 2029 (million units)
• Circular economy in tires
• Tire industry value chain
• Types of EV vehicles
• TRL levels
• Tire / EV industry value chain
• Magic triangle illustrating tire property trade-offs
• World electricity generation by source
• 6PPD non-exhaust emissions by different brands' products
• Lightweighting
• Bridgestone's radical rethinking on materials for tires
• BlackCycle ecosystem input and output
• Bridgestone EV services platform for fleets and value chain
• Tread pattern and cut tire layout and definitions
• From raw materials to end-of-life tires
• Illustration of typical radial tire components
• Tire manufacturing processes
• Roller head/die and contoured IL and cured tire layout
• Triple extruder and tread components
• Foreign object detection in-line for in tread material
• Calendering machine operation and electron beam: example of offbalanced fabric
• Steelastic machine
• Machine vision to detect an open splice (left) and correct tire stamping (right)
• Lightweighting tire by Yokohama Rubber
• Wanted fabric gage and poor process capability
• Application of components in Tire Assembly Machine (TAM) and splices
• End count example
• Re-formulating our "recipes" without performance compromises
• Continental's GreenConcept
• EV tires raw materials ('000 tonnes)
• Pareto charts of raw materials for EV tires 2024 and 2029
• Biomotion and bio-Butadiene
• Hankook Ventus S1 Evo3 tire iON marketing the belt package
• Cap Ply Tire Innovation MilliCap
• TBM Machine
• Polyurethane foam for cancelling noise in sustainable EV tires
• ICE and EV light vehicles by volume 2022-2029
• EV tires by vehicle type by volume 2019-29 (million units)
• EV tires by vehicle type 2019-29 ($ million)
• sEV tires % market share by volume 2024 vs 2029
• sEV tires % market share by value 2024 vs 2029
• A and B EV tires by region, vehicle type 2024 vs 2029 (million units)
• A and B EV tires by region and vehicle type 2024 vs 2029 ($ million)
• EV market progress over time
• X Multi Energy Z / D by Michelin
• Log tire units by EV type, 2019-29
• Technology and market assessment of zero-emission off-road equipment
• Technology and market assessment of zero-emission off-road equipment
• Characteristics of R2900 machines
• One truck multiple power solutions
• Cross-ply tires
• Tweel, Pneu Trac, Galileo Cupwheel and solid tires