Tire tread performance resin (TPR) and rubber process oil (RPO) market analysis for the period 2015 to 2050 covering global and regional market demand, pricing and value.
TPR and RPO market prospects are inter-related due to changing tire technologies driven by sustainability and automotive market developments. This report details the market drivers and explores the outcomes for both TPR and RPO looking at current/short-term trends and also the longer term impact of tire company sustainability visions and aspirations.
The report is based upon a combination of primary and secondary research combined with the publisher's proprietary market modelling systems and wide ranging experience in rubber segment market analysis. The report aims to provide transparency for all market analysis and industry reports. Assumptions, methodology and key inputs are clearly explained and documented. Purchasers of this report can arrange to run reports using their preferred input variables, this can be done at a reduced daily consultation rate.
The report details the TPR and RPO manufacturing landscapes covering key manufacturers and product offerings. This is followed by a detailed quantitative look at the tire market looking at tire types and sub types, growth patterns and market trends. With a firm understanding of the tire market, focus in transferred to specific tire industry drivers relating to TPRs and RPOs. Tire industry drivers influencing the use of TPRs and RPOs cover high value added tire types, segmental positioning, geographical influences and external drivers.
The primary focus of the report is to generate meaningful and robust market demand and value estimates. The report provides comprehensive coverage of TPR and RPO market demand broken down by region, and TPR/RPO type. Market values are provided based upon average regional pricing.
Long term TPR/RPO demand is modelled using drivers from tire manufacturer's sustainability 'visions' stretching out to 2050. The publisher's has applied estimated fossil material reductions based on tire manufacturer targets and ease of development for underlying tire types.
The comprehensive executive summary provides concise, practical key takeaways and conclusions which can be easily transferred to management presentations. This is complimented by the accompanying client data Excel workbook with summary data.
Key Features:
- Comprehensive Executive Summary with Practical Findings and Key Takeaways
- Global & Regional Analysis Covering the Years 2015 to 2050
- Quantitative TPR and RPO Market Drivers
- Qualitative TPR and RPO Markt Drivers
- TPR and RPO Manufacturing Landscapes
- TPR and RPO developments & Related Tire Patent/Brand Analysis
- Market Demand by Current and Tire Manufacturers' Vision Scenarios
- Market Demand 2015 to 2050 by Region and TPR/RPO Type
- Market Pricing for 2017 to 2020 by TPR/RPO Type
- Market Values 2020 projected to 2030/40/50
- Supporting Data in Excel Workbook
- Client Support
Target Audience:
This report is targeted at rubber chemical manufacturers and tire manufacturers. Rubber chemical manufacturers include resin (tread additives), rubber process oil, and sustainable material manufacturers. The content is suitable for marketing strategies, market research and market insight. Other parties which will find this report valuable include: consultants, analysts and investors.
Exclusive Content:
- Detailed quantitative tire market and manufacturing analysis.
- Key Quantitative TPR and RPO Market Drivers
- Key Qualitative TPR and RPO Market Drivers
- TPR and RPO Market Demand 2015 to 2050 by:
- Market Scenario
- Resin Type
- RPO Type
- Region
Report Scope:
This market report has the following scope:
- Market Segment: Tire segment focusing on TPRs and RPOs used to enhance the performance of tread compounds, specifically traction, handling, rolling resistance and wear for the Products below.
- Tread Performance Resin (TPR): Resin used to enhance the end performance of a tread compound. This excludes tack resins. Examples and categorisation are provided in the download documents (sample and contents).
- Rubber Process Oil (RPO): Oils used to enhance the processability and end performance of a tread compound. Examples and categorisation are provided in the download documents (sample and contents).
- Products: Car, SUV, LT, Motorcycle and Scooter tires and associated subtypes.
- Geographies: Global coverage split by the publisher defined regions: Africa, China, CIS, Europe, India, Middle East, North America, North Asia, South America and South Asia.
- Time Frame: Market demand for years 2015 to 2050. Market pricing for APAC, EMEA, USMCA for 2017 to 2020. Market values for 2020/30/40/50.
Table of Contents
1. Contents
2. Executive Summary
- Scope
- Objectives
- Market Drivers
- Quantitative
- Qualitative
- Market Demand
- TPRs
- RPOs
- Market Price & Market Values
- TPRS
- RPOs
- Industry Outlook
- Tire Industry
- TPR Industry
- RPO Industry
3. Introduction
- Definitions, Abbreviations & Nomenclature
- Scope
- Objectives
- Information Sources
- Assumptions
4. TPR Manufacturing Landscape
- Industry Overview
- Raw Materials
- Resin Types
- Key Manufacturers
- Financial Performance
- Arakawa
- Cheeshine Chemicals
- Cray Valley (Total)
- DRT
- Eastman Chemical Company
- Evonik
- ENEOS
- ExxonMobil
- Kolon Industries
- Kraton Corporation
- Kuraray
- Rutgers Novares
- Yasuhara Chemical
- Zeon Corporation
- Other Manufacturers
- Key TPR Resin Manufacturing Trends
- TPR Industry Developments
5. RPO Manufacturing Landscape
- Industry Overview
- Raw Materials and RPO Types
- Key Manufacturers
- RPO Industry Developments
6. Quantitative Tire Market Drivers
- Tire Types
- PC and SUV
- Standard Tires (S, T rated)
- High Performance Tires (H, V rated)
- Ultra-High Performance Tires (W+ rated)
- Specialist Variants: Winter and All Weather
- Motorcycle and Scooter
- Light Truck
- Changing Vehicle Technologies (Drivetrain)
7. Qualitative Tire Market Drivers
- Tire Technology
- Historical Perspective
- Evolution of High Value Added Products
- PC and SUV
- Motorcycle and Scooter
- Market Positioning
- Manufacturer's Tier Level
- Original Equipment Market
- Replacement Market
- Geographical Influences
- Performance Requirements
- Compounding Differences
- Compounding Requirements for TPRs
- Compounding Requirements for RPOs
- External Drivers
- Tire Labelling
- Sustainable Developments
- Competing Technologies
- TPR Technology Developments
- TPR Manufacturer Developments
- TPR Tire Related Patent Review
- TPR Tire Brand Analysis
- RPO Technology Developments
- RPO Manufacturer Developments
- RPO Tire Related Patent Review
- RPO Tire Brand Analysis
8. Market Demand 2015 to 2050
- TPRs
- Total Demand All Types
- Global Demand
- Regional Demand
- Demand By TPR Type
- Global Demand
- Regional Demand
- RPOs
- Total Demand All Types
- Global Demand
- Regional Demand
- Demand By TPR Type
- Global Demand
- Regional Demand
9. Market Prices & Market Values
- Market Prices
- TPRs by Region
- APAC
- Europe
- USMCA
- RPOs by Region
- APAC
- Europe
- USMCA
- Market Values
- TPRs
- All Types
- Individual Types
- RPOs
- All Types
- Individual Types
10. Concluding Remarks
- Key Top Level Findings
- Future Considerations
- Extended Client Analysis
11. Appendices
- Methodology
- Data Validation
- Market Segmentation and Sub Segments
12. Additional Documentation
List of Tables
Section 2 - Executive Summary
Table 2.1 - TPR Categorisation & Examples
Table 2.2 - Tire Tread RPO Categorisation and Examples
Table 2.3 - Global TPR Market Demand All Types by Scenario 2015 to 2050
Table 2.4 - Global RPO Market Demand for All Types by Scenario 2015 to 2050
Table 2.5 - TPR Average 2019 and 2020 Delivered Regional Pricing by Type, $/MT
Table 2.6 - Global Market Value for All TPR Types by Scenario 2020/30/40/50
Table 2.7 - Regional TPR Market Value for All TPR Types by Scenario 2020/30/40/50
Table 2.8 - RPO Average 2020 Regional Delivered Pricing by Type, $/MT
Table 2.9 - Global Market Value for All RPO Types by Scenario 2020/30/40/50
Table 2.10 - Regional Market Value for All RPO Types by Scenario 2020/30/40/50
Section 3 - Introduction
Table 3.1 - Definitions, Abbreviations and Nomenclature (A to H)
Table 3.2 - Definitions, Abbreviations and Nomenclature (I to S)
Table 3.3 - Definitions, Abbreviations and Nomenclature (T to Z)
Table 3.4 - Tire Tread Performance Resin Categorisation & Examples
Table 3.5 - Tire Tread RPO Categorisation and Examples
Section 4 - TPR Manufacturing Landscape
Table 4.1 - Arakawa's TPR Products
Table 4.2 - Cheeshine Chemical's TPR Products
Table 4.3 - Cray Valley's TPR Products
Table 4.4 - DRT's TPR Products
Table 4.5 - Eastman's TPR Products
Table 4.6 - ENEOS' TPR Products
Table 4.7 - Evonik's TPR Products
Table 4.8 - ExxonMobil's TPR Products
Table 4.9 - Kolon Industries' TPR Products
Table 4.10 - Kraton's TPR Products
Table 4.11 - Kuraray's TPR Products
Table 4.12 - Rutger Novares' TPR Products
Table 4.13 - Yasuhara Chemical's TPR Products
Table 4.14 - Zeon Corporation's TPR Products
Section 5 - RPO Manufacturer Landscape
Table 5.1 - Key Manufacturers in APAC, CIS and Europe
Table 5.2 - Key Manufacturers in M. East, USMCA and LATAM
Section 6 - Quantitative Tire Market Drivers
Table 6.1 - PC and SUV Standard Tire Unit Evolution 2015 to 2040
Table 6.2 - Motorcycle Radial Tire Unit Evolution 2015 to 2040
Section 7 - Qualitative Tire Market Drivers
Table 7.1 - Manufacturer's Tier Level
Table 7.2 - Tire Company Sustainable Targets (Most Recent Publication)
Table 7.3 - Top Tier Manufacturers' Eco Labelled Tire Examples (non-exhaustive)
Table 7.4 - Tire Performance Abbreviations for Patent Activity
Table 7.5 - TPR Abbreviations for Patent Activity
Table 7.6 - Bridgestone TPR Related Patents
Table 7.7 - Continental's TPR Related Patents
Table 7.8 - Goodyear's TPR Related Patents
Table 7.9 - Hankook's TPR Related Patents
Table 7.10 - Kumho's TPR Related Patents
Table 7.11 - Michelin's TPR Related Patents
Table 7.12 - Pirelli's TPR Related Patents
Table 7.13 - Sumitomo's TPR Related Patents
Table 7.14 - Toyo's TPR Related Patents
Table 7.15 - Yokohama's TPR Related Patents
Table 7.16 - Resins Mentioned by Tire Company Patents (Non-exhaustive)
Table 7.17 - Bridgestone's TPR Related Brands
Table 7.18 - Continental's TPR Related Brands
Table 7.19 - Goodyear's TPR Related Brands
Table 7.20 - Hankook's TPR Related Brands
Table 7.21 - Kumho's TPR Related Brands
Table 7.22 - Michelin's TPR Related Brands
Table 7.23 - Pirelli's TPR Related Brands
Table 7.24 - Sumitomo's TPR Related Brands
Table 7.25 - Toyo's TPR Related Brands
Table 7.26 - Yokohama's TPR Related Brands
Table 7.27 - RPO Abbreviations for Patent Activity
Table 7.28 - Bridgestone RPO Related Patents
Table 7.29 - Continental's RPO Related Patents
Table 7.30 - Goodyear's RPO Related Patents
Table 7.31 - Hankook's RPO Related Patents
Table 7.32 - Kumho's RPO Related Patents
Table 7.33 - Michelin's RPO Related Patents
Table 7.34 - Pirelli's RPO Related Patents
Table 7.35 - Sumitomo's RPO Related Patents
Table 7.36 - Toyo's RPO Related Patents
Table 7.37 - Yokohama's RPO Related Patents
Table 7.38 - Continental's RPO Related Brands
Table 7.39 - Goodyear's RPO Related Brands
Table 7.40 - Hankook's RPO Related Brands
Table 7.41 - Kumho's RPO Related Brands
Table 7.42 - Michelin's RPO Related Brands
Table 7.43 - Pirelli's RPO Related Brands
Table 7.44 - Sumitomo's RPO Related Brands
Table 7.45 - Toyo's ROI Related Brands
Section 8 - Market Demand 2015 to 2050
Table 8.1 - Reduction in Fossil Content based on Tire Company’s Aspirations
Table 8.2 - Global Market Demand All TPR Types by Scenario 2015 to 2050
Table 8.3 - Regional Market Demand All TPR Types using Current Scenario 2015 to 2050
Table 8.4 - Regional Market Demand All TPR Types using Vision Scenario 2015 to 2050
Table 8.5 - Global Market Demand by TPR Type using Current Scenario 2015 to 2050
Table 8.6 - Global Market Demand by TPR Type using Vision Scenario 2015 to 2050
Table 8.7 - Regional Market Demand for AMS Types using Current Scenario 2015 to 2050
Table 8.8 - Regional Market Demand for AMS Types using Vision Scenario 2015 to 2050
Table 8.9 - Regional Market Demand for C5 Types using Current Scenario 2015 to 2050
Table 8.10 - Regional Market Demand for C5 Types using Vision Scenario 2015 to 2050
Table 8.11 - Regional Market Demand for C5C9 Types using Current Scenario 2015 to 2050
Table 8.12 - Regional Market Demand for C5C9 Types using Vision Scenario 2015 to 2050
Table 8.13 - Regional Market Demand for C9 Types using Current Scenario 2015 to 2050
Table 8.14 - Regional Market Demand for C9 Types using Vision Scenario 2015 to 2050
Table 8.15 - Regional Market Demand for H-DCPD Types using Current Scenario 2015 to 2050
Table 8.16 - Regional Market Demand for H-DCPD Types using Vision Scenario 2015 to 2050
Table 8.17 - Regional Market Demand for LP Types using Current Scenario 2015 to 2050
Table 8.18 - Regional Market Demand for LP STY Types using Current Scenario 2015 to 2050
Table 8.19 - Regional Market Demand for LP STY Types using Vision Scenario 2015 to 2050
Table 8.20 - Regional Market Demand for TP Types using Current Scenario 2015 to 2050
Table 8.21 - Total Market Demand for All Types by Scenario 2015 to 2050
Table 8.22 - Regional Market Demand for All RPO Types using Current Scenario 2015 to 2050
Table 8.23 - Regional Market Demand for All RPO Types using Vision Scenario 2015 to 2050
Table 8.24 - Global Market Demand by RPO Type using Current Scenario 2015 to 2050
Table 8.25 - Global Market Demand by RPO Type using Vision Scenario 2015 to 2050
Table 8.26 - Regional Market Demand for DAE Types using Current Scenario 2015 to 2050
Table 8.27 - Regional Market Demand for DAE Types using Vision Scenario 2015 to 2050
Table 8.28 - Regional Market Demand for MES Types using Current Scenario 2015 to 2050
Table 8.29 - Regional Market Demand for MES Types using Vision Scenario 2015 to 2050
Table 8.30 - Regional Market Demand for HN Types using Current Scenario 2015 to 2050
Table 8.31 - Regional Market Demand for HN Types using Vision Scenario 2015 to 2050
Table 8.32 - Regional Market Demand for PAR Types using Current Scenario 2015 to 2050
Table 8.33 - Regional Market Demand for PAR Types using Vision Scenario 2015 to 2050
Table 8.34 - Regional Market Demand for RAE Types using Current Scenario 2015 to 2050
Table 8.35 - Regional Market Demand for RAE Types using Vision Scenario 2015 to 2050
Table 8.36 - Regional Market Demand for TDAE Types using Current Scenario 2015 to 2050
Table 8.37 - Regional Market Demand for TDAE Types using Vision Scenario 2015 to 2050
Table 8.38 - Regional Market Demand for VO Types using Current Scenario 2015 to 2050
Section 9 - Market Prices and Values
Table 9.1 - Average 2017 to 2020 Prices by TPR Type for APAC
Table 9.2 - Average 2017 to 2020 Prices by TPR for EMEA
Table 9.3 - Average 2017 to 2020 Prices by TPR Type for USMCA
Table 9.4 - Average 2017 to 2020 Prices by RPO Type for APAC
Table 9.5 - Average 2017 to 2020 Prices by RPO Type for EMEA
Table 9.6 - Average 2017 to 2020 Prices by RPO Type for USMCA
Table 9.7 - Global Market Value All TPR Types 2020/30/40/50
Table 9.8 - Regional Market Value All TPR Types 2020/30/40/50
Table 9.9 - Global Market Value by TPR Type 2020/30/40/50
Table 9.10 - Regional Market Value for AMS Types 2020/30/40/50
Table 9.11 - Regional Market Value for C5 Types 2020/30/40/50
Table 9.12 - Regional Market Value for C9 Types 2020/30/40/50
Table 9.13 - Regional Market Value for C5C9 Types 2020/30/40/50
Table 9.14 - Regional Market Value for H-DCPD Types 2020/30/40/50
Table 9.15 - Regional Market Value for TP Types 2020/30/40/50
Table 9.16 - Regional Market Value for LP Types 2020/30/40/50
Table 9.17 - Reginal Market Value for LP STY Types 2020/30/40/50
Table 9.18 - Global Market Value for All RPO Types 2020/30/40/50
Table 9.19 - Regional Market Value for All RPO Types 2020/30/40/50
Table 9.20 - Global Market Value by RPO Type 2020/30/40/50
Table 9.21 - Regional Market Value for DAE Types 2020/30/40/50
Table 9.22 - Regional Market Value for TDAE Types 2020/30/40/50
Table 9.23 - Regional Market Value for HN Types 2020/30/40/50
Table 9.24 - Regional Market Value for MES Types 2020/30/40/50
Table 9.25 - Regional Market Value for PAR Types 2020/30/40/50
Table 9.26 - Regional Market Value for RAE Types 2020/30/40/50
Table 9.27 - Regional Market Value for VO Types 2020/30/40/50
Section 11 - Appendices
Table 11.1- Future Year Projections
Table 11.2 - Tire Parameters
Table 11.3 - Tire Types and Subtypes
List of Figures
Section 2 - Executive Summary
Figure 2.1 - PC + SUV Regional Tire Production Growth 2015 to 2040
Figure 2.2 - PC and SUV Tire Production Growth by Subtype 2015 to 2040
Figure 2.3 - Global TPR Market Demand by Type and Scenario 2015 to 2050
Figure 2.4 - Global RPO Market Demand by Type and Scenario 2015 to 2050
Figure 2.5 - Vision Scenario Change from 2021 Market Demand by RPO Type to 2050
Section 4 - TPR Manufacturing Landscape
Figure 4.1 - Simplified Schematic for Raw Material to Resin Type
Figure 4.2 - EBIT/Sales Revenue for Selected TPR Manufacturers & Business Segments 2015 to 2021
Figure 4.3 - Kraton Corporation's Chemical Segment Financials 2016 to 2021
Figure 4.4 - Estimates for Kraton TPR Sales & Volumes
Section 5 - RPO Manufacturing Landscape
Figure 5.1 - Lube Base Oil Production and RPO Streams
Figure 5.2 - API Base Oil Categorisation
Section 6 - Quantitative Tire Market Drivers
Figure 6.1 - Tire Unit Evolution by Region All Tire Types 2015 to 2040
Figure 6.2 - Tire Unit Evolution by Tire Type 2015 to 2040
Figure 6.3 - PC and SUV Tire Unit Evolution 2015 to 2040
Figure 6.4 - PC and SUV HP AS Tire Unit Evolution 2015 to 2040
Figure 6.5 - PC and SUV HP SM Tire Unit Evolution 2015 to 2040
Figure 6.6 - PC and SUV UHP AS Tire Unit Evolution 2015 to 2040
Figure 6.7 - PC and SUV UHP SM Tire Unit Evolution 2015 to 2040
Figure 6.8 - PC and SUV WT and AW Tire Unit Evolution 2015 to 2040
Figure 6.9 - Motorcycle and Scooter Tire Unit Evolution 2015 to 2040
Figure 6.10 - Light Truck Sub Type Unit Evolution 2015 to 2040
Figure 6.11 - PC and SUV OE Tire Demand by Vehicle Drivetrain 2011 to 2040, millions
Figure 6.12 - PC and SUV RP Tire Demand by Vehicle Drivetrain 2011 to 2040, millions
Section 7 - Qualitative Tire Market Drivers
Figure 7.1 - PC and SUV Subtype Differentiation Overview
Figure 7.2 - Tire Labelling Status by Region
Section 10 - Concluding Remarks
Figure 10.1 - PC + SUV Tire Production Growth 2015 to 2040
Figure 10.2 - PC vs SUV Tire Production by Subtype 2015 to 2040
Figure 10.3 - TPR Current Scenario Change from 2021 Market Demand
Figure 10.4 - TPR Vision Scenario Change from 2021 Market Demand
Figure 10.5 - RPO Current Scenario Change from 2021 Market Demand
Figure 10.6 - RPO Vision Scenario Change from 2021 Market Demand
Section 11 - Appendices
Figure 11.1- 'Consumer-Up' Market Analysis
Figure 11.2- Consumer Plant Parameters
Figure 11.3 - Product Technology Parameters
Figure 11.4- Market Utilisation Parameters
Figure 11.5 - Extended Model for Tire Segment
This report also includes a client Excel Workbook with chart and table data.
Samples
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Companies Mentioned
- Apar Industries
- Arakawa
- ATDM
- Bridgestone
- Cargill
- Cheeshine Chemicals Co., Ltd
- Chevron Phillips
- CNOOC
- Continental
- Cray Valley (Total)
- Cross Oil
- Daelim
- DRT
- Eastman Chemical Company
- ENEOS
- Eni
- Ergon
- Evonik
- ExxonMobil
- Gazprom
- Goodyear
- GP Petroleums
- H&R Group
- Hankook
- Hollyfrontier
- Imperial Oil
- IRPC
- Kelpen
- Kolon Industries
- Kraton Corporation
- Kumho
- Kuraray
- LyondellBasell
- Michelin
- Mitsui Chemicals
- Nynas
- Orgkhim
- Orlen Unipetrol
- Panamaa Petrochem
- Performance Additives
- Pertamina
- Petrobras
- PetroChina
- Pirelli
- Raj Petro Specialities
- Repsol
- Rutgers Novares GmbH
- Sadara Chemicals
- Saipol
- Shell
- Songwon
- Sumitomo
- Suzhou Jiutai
- Thai Lube Base
- Total
- Toyo
- Ube
- Yasuhara Chemical
- Yokohama
- Zeon Corporation
Methodology
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