세계의 소형 전기자동차(EV) 시장 규모는 2024-2029년에 CAGR로 17.5%로 추이하며 성장이 예측됩니다.
지속 가능한 EV용 타이어의 수량은 2029년에 8억 8,460만개에 달하고, 2024년부터 CAGR로 15.8%로 추이하며 성장 할 전망입니다.
세계의 EV용 타이어 원재료 소비는 2,220만 톤에 이르며, CAGR로 16.7%로 추이하며 성장 할 전망입니다.
세계의 지속 가능한 EV용 타이어(Sustainable Tires for EV) 시장에 대해 조사 분석했으며, 주요 촉진요인과 동향/주요 지역의 채택 상황/규제 및 기술 전망 등 정보를 제공합니다.
목차
주요 요약
소개 및 조사 기법
지속 가능한 EV용 타이어의 촉진요인 및 동향 개요
소개
세계의 타이어 산업 현재 상황
지속 가능한 EV용 타이어의 주된 촉진요인과 동향(2024-2029년)
상황 이해
에너지 가격 추이
그리드에서 친환경으로
도시형 EV 에코시스템(선진국과 개발도상국)
교통 전동화로의 길
안심대상
고우려 물질(SHC)
맞춤 화학
지식보호(특허산업)
마이크로 플라스틱 : 숨겨진 큰 배출물(TRWP)
산업에서 4개의 C
전기자동차와 자율주행차의 약점
포기하거나 준비하거나
과제적인 비즈니스 모델
경제 성장 및 예측 가능한 세계 무역과 물류
보다 강하고, 가벼운 타이어의 패러독스
장기적으로는 새로운 OE 타이어 공급자와 표준 투어링 타이어가 필요
지속가능성과 순환형 경제에 대한 종합적인 접근
컨셉/데모 타이어
재활용
Tire Industry Project의 사용한 타이어(ELT) 조사
BlackCycle
중국이 EV와 타이어의 생산과 소비를 리드
Maas에서 Taas로의 모빌리티 개념
규제(정부 정책 포함)
미국 : 수요 증가와 신뢰 구축
유럽의 EV정세 : 과제와 경쟁
중국의 EV 인센티브 전환 : 보조금에서 지속가능성으로
치열한 경쟁을 야기하는 EV 및 타이어의 요구 사항
트럭과 버스
OTR
지속 가능한 EV용 타이어 설계 및 제조
소개
지속 가능한 EV용 타이어를 제조하기 위한 설비
탠덤 믹서
롤러 헤드 또는 롤러 다이 유닛
트레드와 측벽용 3연 또는 4연의 압출기
4롤 캘린더
스틸 코드 생산의 대체
완전 자동화된 건설 기계
최종 검사를 인간 대신 기계로 실시
보다 강하고, 가벼운 타이어의 패러독스
기타 설비
전자빔
오프 밸런스 패브릭
캡 플라이
경화 사이클
디지털 타이어 생산 : 컴파운드에서 최종 검사까지
지속 가능한 EV용 타이어 : 재료별
소개
원재료
엘라스토머
천연 고무(NR)
스티렌 부타디엔 고무(SBR)
폴리부타디엔(PBR)
부틸 고무(IR/PIB/BR)
기타
폴리머/타이어 관련 액상 혼합 기술
코드
섬유 코드
나일론(Ny)
폴리에스테르(PET)
레이온
아라미드
Cap Ply Tire Innovation MilliCap
스틸 코드
비즈
접착제
오일-가소제
고기능 수지
보강 필러
카본블랙
고분산 실리카(HDS)
경화 패키지와 산화아연
오존 열화 방지제, 항산화제, 열화 방지제
나노기술
정음 기술용 폼
정음 기술 상세
자동차용 실란트
TPMS와 RFID
지속 가능한 EV용 타이어 : 차량 유형별
소개
승용차와 소형 트럭
EV타이어
승용차·소형 트럭용 EV타이어
라스트마일 서비스/배송(LMD)
트럭과 버스
모토
OTTR
OE OTR 시장
MCCP
광업
전력 공급 전략
건설
항만
AG
공업
소산성 타이어
OTR의 공압 및 비공압 타이어
LYJ
영문 목차
영문목차
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)
