Global Polycarboxylate Ether-Based Superplasticizers (PCEs) Market Outlook 2016-2021

Chemical and Material

Polycarboxylate Ether-Based Superplasticizers (PCEs) 2016 report studies in Global Market, especially in Europe, North America, South America, Asia (Excluding China), China and ROW, with definitions, classifications, applications and industry chain structure, development trends, competitive landscape analysis, and key regions development and import/export status to 2021.


Superplasticizers, also known as high range water reducers, are chemical admixtures used where well-dispersed particle suspension is required. These polymers are used as dispersants to avoid particle segregation (gravel, coarse and fine sands), and to improve the flow characteristics (rheology) of suspensions such as in concrete applications. Their addition to concrete or mortar allows the reduction of the water to cement ratio, not affecting the workability of the mixture, and enables the production of self-consolidating concrete and high performance concrete. This effect drastically improves the performance of the hardening fresh paste. The strength of concrete increases when the water to cement ratio decreases. However, their working mechanisms lack a full understanding, revealing in certain cases cement-superplasticizer incompatibilities. The addition of superplasticizer in the truck during transit is a fairly new development within the industry. Admixtures added in transit through automated slump management systems, such as Verifi, allows concrete producers to maintain slump until discharge without reducing concrete quality. The new generation of admixtures is represented by polycarboxylate ether-based superplasticizers (PCEs). With a relatively low dosage (0.15?0.3% by cement weight) they allow a water reduction up to 40%, due to their chemical structure which enables good particle dispersion.

This report provides detailed analysis of worldwide markets for Polycarboxylate Ether-Based Superplasticizers (PCEs) from 2011-2015 and provides extensive market forecasts 2016-2021 by region/country and subsectors. It covers the key technological and market trends in the Polycarboxylate Ether-Based Superplasticizers (PCEs) market and further lays out an analysis of the factors influencing the supply/demand for Polycarboxylate Ether-Based Superplasticizers (PCEs), and the opportunities/challenges faced by industry participants. It also acts as an essential tool to companies active across the value chain and to the new entrants by enabling them to capitalize the opportunities and develop business strategies.

GCC?s report, Global Polycarboxylate Ether-Based Superplasticizers (PCEs) Market Outlook 2016-2021, has been prepared based on the synthesis, analysis, and interpretation of information about the global Polycarboxylate Ether-Based Superplasticizers (PCEs) market collected from specialized sources. The report covers key technological developments in the recent times and profiles leading players in the market and analyzes their key strategies. The competitive landscape section of the report provides a clear insight into the market share analysis of key industry players. The major players in the global Polycarboxylate Ether-Based Superplasticizers (PCEs) market are Arkema (France), BASF (Germany), Kao Corporation (Japan), Sika (Switzerland), Grace (USA), Clariant (Switzerland), Evonik (Germany), Lafarge (France), Mapei (Italy), Sobute (China), KZJ New Materials (China), Shijiazhuang Chang?an Yucai (China), Redwall (China), Liaoning Kelong (China), Sichuan Jilong (China), among others.

The report provides separate comprehensive analytics for the North America, Europe, Asia-Pacific, Middle East and Africa and Rest of World. In this sector, global competitive landscape and supply/demand pattern of Polycarboxylate Ether-Based Superplasticizers (PCEs) industry has been provided.

Table of Contents

Part 1. Scope of Report
1.1 Methodology
1.2 Geographic Scope
1.3 Years Considered

Part 2. Introduction
2.1 Definition
2.2 Current Scenario
2.2 Future Scenario

Part.3 Value Chain Analysis
3.1 Upstream
3.2 Downstream

Part 4. Manufacture
4.1 Manufacturing Process
4.2 Issues and Trends
4.3 Manufacturing Costs

Part 5. Worldwide Key Vendors
5.1 Company A
5.1.1 Business Overview
5.1.2 Products Offered
5.1.3 Business Performance
5.2 Company B
5.3 Company C
5.4 Company D
5.5 Company E
5.6 Company F
5.7 Company G
5.8 Company H
5.9 Company I
5.10 Company J

Part 6. Market Overview
6.1 Global Production Volume 2011-2016
6.2 Production Volume by Region 2011-2016
6.2.1 North America
6.2.2 EMEA
6.2.3 Asia-Pacific
6.2.4 ROW
6.3 Global Production Value 2011-2016
6.4 Production Value by Region
6.4.1 North America
6.4.2 EMEA
6.4.3 Asia-Pacific
6.4.4 ROW

Part 7. Consumption Pattern
7.1 Regional Consumption
7.1.1 North America
7.1.2 EMEA
7.1.3 Asia-Pacific
7.1.4 ROW
7.2 Global Consumption by Application

Part 8. Market Forecast
8.1 Market Size by Volume
8.1.1 North America
8.1.2 EMEA
8.1.3 Asia-Pacific
8.1.4 ROW
8.2 Market Size by Value
8.2.1 North America
8.2.2 EMEA
8.2.3 Asia-Pacific
8.2.4 ROW
8.3 Regional Consumption Forecast
8.3.1 North America
8.3.2 EMEA
8.3.3 Asia-Pacific
8.3.4 ROW
8.4 Consumption Forecast by Application

Part 9. Market Dynamics
9.1 Market Drivers
9.2 Market Constraints
9.3 Market Strategies

Part 10 Key Events
10.1 Mergers & Acquisitions
10.2 New Product Launches
10.3 Expansions
10.4 Other Developments


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