Xinjiang Zhongtai Chemical Co.

Urunchi, China

Xinjiang Zhongtai Chemical Co.

Urunchi, China

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News Article | May 9, 2017
Site: marketersmedia.com

— Global Sodium Hydroxide Market 2012- 2022 Report provides detailed analysis of market in 9 chapters with required tables and figures. Global Sodium Hydroxide Market report classifies Sodium Hydroxide types as Liquid Caustic Soda, Solid Caustic Soda, Caustic Soda Flake and Caustic Soda Particle. Applications covered in this report are Pulp and Paper, Textiles, Soap and Detergents, Bleach Manufacturing, Petroleum Products, Aluminum Production and Chemical Processing. This report also provides key analysis for the geographical regions like Europe, North America, China, Japan & Korea. Companies like Dow Chemical, Oxychem, Axiall, Olin Corporation, Formosa Plastics, Tosoh, Ineos Chlor, Asahi Glass, Covestro, Shin-Etsu Chemical, Akzonobel, Hanwha Chemical, Solvay, Lg Chemical, Tokuyama Corp, Sabic, Kemira, Basf, Aditya Birla Chemicals, Gacl, Chemchina, Xinjiang Zhongtai Chemical, Xinjiang Tianye, Shaanxi Beiyuan Group, Shandong Jinling, Sp Chemical(Taixing) and more are profiled in this report providing information on sale, price, sales regions, products and overview. Purchase a copy of this report at: https://www.themarketreports.com/report/buy-now/503274 Table of Contents: 1 Market Overview 1.1 Objectives of Research 1.2 Market Segment 2 Industry Chain 2.1 Industry Chain Structure 2.2 Upstream 2.3 Market 3 Environmental Analysis 3.1 Policy 3.2 Economic 3.3 Technology 3.4 Market Entry 4 Major Vendors 5 Market/Vendors Distribution 5.1 Regional Distribution 5.2 Product and Application 6 Regions Market 6.1 Global 6.2 Europe 6.3 North America 6.4 China 6.5 Japan & Korea 6.6 Trade 7 Forecast 7.1 Market Trends 7.2 Segment Forecast 8 Marketing Overview 8.1 Ex-factory Price 8.2 Buyer Price 8.3 Price Factors 8.4 Marketing Channel 9 Conclusion Inquire more about this report at: https://www.themarketreports.com/report/ask-your-query/503274 For more information, please visit https://www.themarketreports.com/report/global-sodium-hydroxide-market-research-2011-2022


— Global Caustic Soda Market 2012- 2022 Report provides detailed analysis of market in 9 chapters with required tables and figures. Global Caustic Soda Market report classifies Caustic Soda types as Liquid Caustic Soda, Solid Caustic Soda, Caustic Soda Flake and Caustic Soda Particle. Applications covered in this report are Pulp and Paper, Textiles, Soap and Detergents, Bleach Manufacturing, Petroleum Products, Aluminum Production and Chemical Processing. This report also provides key analysis for the geographical regions like Europe, North America, China, Japan & Korea. Companies like Olin Corporation, Oxychem, Axiall, Inovyn, Dow Chemical, Shin-Etsu Chemical, Formosa Plastics Corporation, Asahi Glass, Chemchina, Tosoh, Covestro, Xinjiang Zhongtai Chemical, Xinjiang Tianye, Akzonobel, Hanwha Chemical, Braskem, Shaanxi Beiyuan Group, Shandong Dadi Salt Chemical, Kemira, Lg Chemical, Kem One, Shanghai Chlor-Alkali, Shandong Jinling, Befar Group, Sp Chemical(Taixing), Unipar Carbocloro and more are profiled in this report providing information on sale, price, sales regions, products and overview. Purchase a copy of this report at: https://www.themarketreports.com/report/buy-now/529179 Table of Contents: 1 Market Overview 1.1 Objectives of Research 1.2 Market Segment 2 Industry Chain 2.1 Industry Chain Structure 2.2 Upstream 2.3 Market 3 Environmental Analysis 3.1 Policy 3.2 Economic 3.3 Technology 3.4 Market Entry 4 Major Vendors 5 Market/Vendors Distribution 5.1 Regional Distribution 5.2 Product and Application 6 Regions Market 6.1 Global 6.2 Europe 6.3 North America 6.4 China 6.5 Japan & Korea 6.6 Trade 7 Forecast 7.1 Market Trends 7.2 Segment Forecast 8 Marketing Overview 8.1 Ex-factory Price 8.2 Buyer Price 8.3 Price Factors 8.4 Marketing Channel 9 Conclusion Inquire more about this report at: https://www.themarketreports.com/report/ask-your-query/529179 For more information, please visit https://www.themarketreports.com/report/global-caustic-soda-market-research-2011-2022


News Article | December 10, 2016
Site: marketersmedia.com

Global Polyvinyl Chloride (PVC) market is expected to reach around $85 billion by 2022 growing at a CAGR of 6.2% during the forecast period. The factors contributing to the market growth include increasing construction and infrastructure spending in emerging markets. Furthermore, huge growth in automotive industry is expected to stimulate the market. However, unstable raw material prices and the strict government regulations, mainly in North America and Europe are the key challenges faced by the market. Electrical & electronics market is likely to be the fastest growing application segment due to growing Chinese and Taiwanese electronics industry. The construction industry was the major end user segment using polyvinyl chloride products accounting for around 70% of the global Polyvinyl Chloride consumption. The rising demand of wood plastic composites and electric vehicles are the key opportunities in the Polyvinyl Chloride market. Asia Pacific has the major market due to high growth potential of construction industry. China was the major consumer in Asia-Pacific, accounting for more than half of the total regional consumption. Some of the key players in the global Polyvinyl Chloride (PVC) market include Arkema, Braskem S.A, Chemplast Sanmar Limited, Axiall Corporation, Shin-Etsu Chemical Co. Ltd., BASF, Solvay S.A, Formosa Plastics Group, Westlake Chemica Corp, Georgia Gulf Corp, Occidental Petroleum Corporation, Xinjiang Zhongtai Chemical Co. Ltd, Ineos Chlorvinyls Ltd, KEM one, and Mexichem S.A.B. End-Use Industries Covered: • Construction • Packaging • Consumer Goods • Healthcare • Wire and Cable Coatings • Electrical & Electronics • Transportation • Furniture and Clothing • Others Regions Covered: • North America o US o Canada o Mexico • Europe o Germany o France o Italy o UK o Spain o Rest of Europe • Asia Pacific o Japan o China o India o Australia o New Zealand o Rest of Asia Pacific • Rest of the World o Middle East o Brazil o Argentina o South Africa o Egypt What our report offers: - Market share assessments for the regional and country level segments - Market share analysis of the top industry players - Strategic recommendations for the new entrants - Market forecasts for a minimum of 7 years of all the mentioned segments, sub segments and the regional markets - Market Trends (Drivers, Constraints, Opportunities, Threats, Challenges, Investment Opportunities, and recommendations) - Strategic recommendations in key business segments based on the market estimations - Competitive landscaping mapping the key common trends - Company profiling with detailed strategies, financials, and recent developments - Supply chain trends mapping the latest technological advancements For more information, please visit https://www.wiseguyreports.com/sample-request/353814-polyvinyl-chloride-pvc-global-market-outlook-2015-2022


Wang J.,Tsinghua University | Wang J.,Collaborative Innovation Center for Regional Environmental Quality | Yunus R.,Tsinghua University | Yunus R.,Xinjiang Zhongtai Chemical Company | And 6 more authors.
Applied Surface Science | Year: 2015

Removal of low-level formaldehyde (HCHO) is of great interest for indoor air quality improvement. Supported materials especially those with low air pressure drop are of necessity for air purification. Manganese oxides (MnOx) was in situ deposited on the surface of fibers of a non-woven fabric made of polyethylene terephthalate (PET). As-synthesized MnOx/PET were characterized by SEM, XRD, TEM, ATR-FTIR and XPS analysis. The growth of MnOx layer on PET is thought to start with partial hydrolysis of PET, followed by surface oxidation by KMnO4 and then surface-deposition of MnOx particles from the bulk phase. The MnOx particles assembled with nanosheets were uniformly coated on the PET fibers. MnOx/PET showed good activity for HCHO decomposition at room temperature which followed the Mars-van Krevelen mechanism. The removal of HCHO was kept over 94% after 10 h continuous reaction under the conditions of inlet HCHO concentration ∼0.6 mg/m3, space velocity ∼17,000 h-1 and relative humidity∼50%. This research provides a facile method to deposit active MnOx onto polymers with low air resistance, and composite MnOx/PET material is promising for indoor air purification. © 2015 Elsevier B.V. All rights reserved.


Wang L.,Xinjiang University | Wang F.,Xinjiang University | Wang J.,Xinjiang University | Tang X.,Xin Jiang Zhong Tai Chemical Co. | And 4 more authors.
Reaction Kinetics, Mechanisms and Catalysis | Year: 2013

A palladium catalyst (0.5 wt% of Pd) supported Y zeolite (HY) (Pd/HY) was prepared by ultrasonic-assisted impregnation. The potential of the catalyst for acetylene hydrochlorination was explored in a fixed-bed reactor at 160 °C, V(HCl)/V(C2H2) = 1.25 and gas hourly space velocity of C2H2 = 110 h-1. The catalyst exhibited high catalytic properties of acetylene conversion >95 % and vinyl chloride selectivity >90 %. The fresh and used catalysts were characterized by scanning electron microscope (SEM), X-ray powder diffraction (XRD), energy dispersive spectrometer (EDS), Brunauer-Emmett-Teller (BET) analyzer, NH3 temperature programmed desorption (NH3-TPD) and infrared spectroscopy (IR). Analysis results showed that the active component Pd is uniformly dispersed on the Y zeolite surface. The generation of polymers, carbon depositions, and the decrease of catalyst acidity might course the deactivation of the catalyst. © Akadémiai Kiadó, Budapest, Hungary 2013.


Sun J.,Xinjiang University | Zhou Q.-X.,Xinjiang University | Wang J.-D.,Xinjiang University | Gao G.,Xinjiang University | And 5 more authors.
Xiandai Huagong/Modern Chemical Industry | Year: 2014

ZSM-5-supported Bi-Cu catalyst is studied in detail for the hydrochlorination of acetylene. Appropriate amount of phosphoric acid is added into the impregnating solution before incipient impregnation. Then, a non-mercury novel catalyst (Bi+Cu) /ZSM-5 is prepared after calcinations. Using this catalyst, the initial catalytic activity and selectivity to vinyl chloride are as good as that using the industrial catalyst (HgCl2/AC). Moreover, the deactivated catalyst obtained can be regenerated by calcination. Using BET, TEM, EDS and TG, (Bi+Cu)/ZSM-5 catalyst is found to be deactivated by following mechanisms: (i) deposition of carbonaceous material, which blocked the pores and covered the active sites; (ii) the loss of active components and the collapse of the catalyst's framework. Gaseous HCl absorbed on the active sites may also result in deactivation of catalyst.


News Article | November 14, 2016
Site: www.newsmaker.com.au

The report Global Caustic Soda Market Research Report - Industry Analysis, Size, Share, Growth, Trends and Forecast, 2014 – 2021 by DecisionDatabases.com segments the market by application and geography and provides the complete analysis of the market drivers, restraints, growth and future trends. Caustic soda is an inorganic compound with an alkali salt of sodium available in the form of pellets and granules. It is also termed as sodium hydroxide and Iye. It is used in many industries as a chemical base to manufacture pulp, paper, textiles, cleaning products etc. The demand from these end user industries has led to a steady growth of caustic soda market. In addition the growing economies and increasing chemical usages across the industries is the major growth factor for caustic soda industry. The chemical industry uses caustic soda widely as a basic feedstock. The downstream products that consume caustic soda include solvents, plastics, fabrics, adhesives, coatings, herbicides, dyes, inks, pharmaceuticals and more. Pulp & paper industry is the largest consumer of caustic soda. It is being used in the processing of pulp, extraction and bleaching processes. It is also extensively used in the extraction of alumina. Other major applications are in textiles, soaps and detergents, cleaning products, natural gas and petroleum industries among many more. The report anticipates a high demand of caustic soda used in the extraction of alumina which will propel the growth of this market.  However, due to its corrosive properties and energy intensive production process the caustic soda market may see a reluctant growth. Another factor hindering the growth of this market is the increasing awareness about the environmental ill – effect caused by the PVC based products. Chlorine is used in the production of PVC products, thus affecting the caustic soda market Major players assessed in the report are: > Dow Chemical Company > Olin Corporation > AkzoNobel N.V. > Reliance Industries Limited > Occidental Petroleum Corporation > Tata Chemicals Limited > Befar Group Co. Ltd. > Xinjiang Zhongtai Chemical Co. Ltd. > FMC Corporation  > Formosa Plastics Corporation > INEOS ChlorVinyls  > Bayer Material Science AG Geographically, the market can be segmented as North-America, Europe, Latin America, Asia – Pacific and Middle East. The industrial and economic growth of countries such as China, India, Australia, and Brazil is fuelling the growth of caustic soda market uphill. The concentration of developing countries in the Asia – Pacific region is making it the fastest growing market among others. Moreover Africa is also an untapped market for this industry with lot of opportunities in the region. 1. INTRODUCTION 2. EXECUTIVE SUMMARY 3. MARKET ANALYSIS OF CAUSTIC SODA 4. CAUSTIC SODA MARKET ANALYSIS BY APPLICATIONS 5. CAUSTIC SODA MARKET ANALYSIS BY REGION 6. COMPETITIVE LANDSCAPE OF CAUSTIC SODA COMPANIES 7. COMPANY PROFILES OF CAUSTIC SODA INDUSTRY DecisionDatabases.com is a global business research reports provider, enriching decision makers and strategists with qualitative statistics. DecisionDatabases.com is proficient in providing syndicated research report, customized research reports, company profiles and industry databases across multiple domains.   Our expert research analysts have been trained to map client’s research requirements to the correct research resource leading to a distinctive edge over its competitors. We provide intellectual, precise and meaningful data at a lightning speed.


Hu J.,Beijing University of Chemical Technology | Gao L.,Beijing University of Chemical Technology | Liu W.,Xinjiang Zhongtai Chemical Co. | Zhao Y.,Xinjiang Zhongtai Chemical Co. | And 4 more authors.
Huagong Xuebao/CIESC Journal | Year: 2016

Based on the natural feature of Fe-based ionic liquids(Fe-IL), non-aqueous wet oxidation desulfurization of hydrogen sulfide was proposed in our preliminary work. But it has the poor gas-liquid mass transfer and low concentration of active Fe(III), which leads the desulfurizing agent to be inactivated easily, and presents lower sulfur capacity and regeneration rate during the desulfurizing process. In this work, Fe-IL was used as bulk solution, Zn-based ionic liquids(Zn-IL), Mn-based ionic liquids(Mn-IL) and 1, 3-dimethyl ketone of imidazoline (DMI) are selected as additives with different mass ration to construct complex ionic liquids to improve desulfuring performance. According to the results, the complex ionic liquids with bimetal show much better desulfuring performance, and a stronger intensified effect of DMI on improvement of desulfuring performance is observed after the introduction of DMI into Fe-IL. Particularly, the ternary system of DMI and Zn-IL in Fe-IL presents the best desulfuration performance. © All Right Reserved.


Xia Y.,Beijing University of Chemical Technology | Kou H.,Beijing University of Chemical Technology | Shi S.,Beijing University of Chemical Technology | Chen X.,Beijing University of Chemical Technology | And 4 more authors.
Beijing Huagong Daxue Xuebao (Ziran Kexueban)/Journal of Beijing University of Chemical Technology (Natural Science Edition) | Year: 2015

A series of waterborne polyurethanes (WPU) based on sulfonic acid polyester polyols, toluene diisocyanate (TDI) or 3-isocyanatomethyl-3, 5, 5-trimethylcyclohexyl isocyanate (IPDI), 1, 4-butanediol and dimethylolpropionic acid (DMPA) have been prepared. The influence of the diisocyanate precursor, residual NCO content, the initial value of R(n(-NCO)/n(-OH)), and DMPA content on the particle size of the waterborne polyurethanes are discussed in detail. The results indicate that the particle sizes of WPUs with the same R value are similar for TDI and IPDI. When the mass fraction of residual NCO was 1.40%-2.78%, the initial value of R was less than 6 and DMPA had a mass fraction of 2.00%, the resulting WPU had a small particle size (24.5-63.2 nm) and good stability. ©, 2015, Beijing University of Chemical Technology. All right reserved.


News Article | December 6, 2016
Site: www.newsmaker.com.au

This report studies PVC Resins in Global market, especially in North America, Europe, China, Japan, Southeast Asia and India, focuses on top manufacturers in global market, with capacity, production, price, revenue and market share for each manufacturer, covering Axiall Corporation Braskem S.A. (Brazil) China General Plastics Corp. (Taiwan) Finolex Industries Limited (FIL) (India) Formosa Plastics Corporation Hanwha Chemical Corp. (Korea) Ineos Chlorvinyls Ltd Kaneka Corporation (Japan) KEM one LG Chem (South Korea) Mexichem S.A.B. Occidental Petroleum Corporation Sekisui Chemical Co. Ltd. (Japan) Shin-Etsu Chemical Co. Ltd. Shintech Inc. (USA) Solvay S.A. Taiyo Vinyl Corp. (Japan) Thai Plastic and Chemical Public Co. Ltd. (Thailand) The Sanmar Group (India) Vestolit GmbH & Co. KG (Germany) Vinnolit Gmbh & Co. Kg Xinjiang Zhongtai Chemical Co. Ltd. Xinjiang Tianye Shanxi Beiyuan Tianjin Dagu QPEC Request for Sample Report @ https://www.wiseguyreports.com/sample-request/795467-global-pvc-resins-market-research-report-2016 Market Segment by Regions, this report splits Global into several key Regions, with production, consumption, revenue, market share and growth rate of PVC Resins in these regions, from 2011 to 2021 (forecast), like North America Europe China Japan Southeast Asia India Split by product type, with production, revenue, price, market share and growth rate of each type, can be divided into EDC VCM Type III Split by application, this report focuses on consumption, market share and growth rate of PVC Resins in each application, can be divided into Automotive Building & Construction Electrical Packaging Medical Others 1 PVC Resins Market Overview 1.1 Product Overview and Scope of PVC Resins 1.2 PVC Resins Segment by Type 1.2.1 Global Production Market Share of PVC Resins by Type in 2015 1.2.2 EDC 1.2.3 VCM 1.2.4 Type III 1.3 PVC Resins Segment by Application 1.3.1 PVC Resins Consumption Market Share by Application in 2015 1.3.2 Automotive 1.3.3 Building & Construction 1.3.4 Electrical 1.3.5 Packaging 1.3.6 Medical 1.3.7 Others 1.4 PVC Resins Market by Region 1.4.1 North America Status and Prospect (2011-2021) 1.4.2 Europe Status and Prospect (2011-2021) 1.4.3 China Status and Prospect (2011-2021) 1.4.4 Japan Status and Prospect (2011-2021) 1.4.5 Southeast Asia Status and Prospect (2011-2021) 1.4.6 India Status and Prospect (2011-2021) 1.5 Global Market Size (Value) of PVC Resins (2011-2021) 2 Global PVC Resins Market Competition by Manufacturers 2.1 Global PVC Resins Capacity, Production and Share by Manufacturers (2015 and 2016) 2.2 Global PVC Resins Revenue and Share by Manufacturers (2015 and 2016) 2.3 Global PVC Resins Average Price by Manufacturers (2015 and 2016) 2.4 Manufacturers PVC Resins Manufacturing Base Distribution, Sales Area and Product Type 2.5 PVC Resins Market Competitive Situation and Trends 2.5.1 PVC Resins Market Concentration Rate 2.5.2 PVC Resins Market Share of Top 3 and Top 5 Manufacturers 2.5.3 Mergers & Acquisitions, Expansion 3 Global PVC Resins Capacity, Production, Revenue (Value) by Region (2011-2016) 3.1 Global PVC Resins Capacity and Market Share by Region (2011-2016) 3.2 Global PVC Resins Production and Market Share by Region (2011-2016) 3.3 Global PVC Resins Revenue (Value) and Market Share by Region (2011-2016) 3.4 Global PVC Resins Capacity, Production, Revenue, Price and Gross Margin (2011-2016) 3.5 North America PVC Resins Capacity, Production, Revenue, Price and Gross Margin (2011-2016) 3.6 Europe PVC Resins Capacity, Production, Revenue, Price and Gross Margin (2011-2016) 3.7 China PVC Resins Capacity, Production, Revenue, Price and Gross Margin (2011-2016) 3.8 Japan PVC Resins Capacity, Production, Revenue, Price and Gross Margin (2011-2016) 3.9 Southeast Asia PVC Resins Capacity, Production, Revenue, Price and Gross Margin (2011-2016) 3.10 India PVC Resins Capacity, Production, Revenue, Price and Gross Margin (2011-2016) 4 Global PVC Resins Supply (Production), Consumption, Export, Import by Regions (2011-2016) 4.1 Global PVC Resins Consumption by Regions (2011-2016) 4.2 North America PVC Resins Production, Consumption, Export, Import by Regions (2011-2016) 4.3 Europe PVC Resins Production, Consumption, Export, Import by Regions (2011-2016) 4.4 China PVC Resins Production, Consumption, Export, Import by Regions (2011-2016) 4.5 Japan PVC Resins Production, Consumption, Export, Import by Regions (2011-2016) 4.6 Southeast Asia PVC Resins Production, Consumption, Export, Import by Regions (2011-2016) 4.7 India PVC Resins Production, Consumption, Export, Import by Regions (2011-2016) 5 Global PVC Resins Production, Revenue (Value), Price Trend by Type 5.1 Global PVC Resins Production and Market Share by Type (2011-2016) 5.2 Global PVC Resins Revenue and Market Share by Type (2011-2016) 5.3 Global PVC Resins Price by Type (2011-2016) 5.4 Global PVC Resins Production Growth by Type (2011-2016) 6 Global PVC Resins Market Analysis by Application 6.1 Global PVC Resins Consumption and Market Share by Application (2011-2016) 6.2 Global PVC Resins Consumption Growth Rate by Application (2011-2016) 6.3 Market Drivers and Opportunities 6.3.1 Potential Applications 6.3.2 Emerging Markets/Countries 7 Global PVC Resins Manufacturers Profiles/Analysis 7.1 Axiall Corporation 7.1.1 Company Basic Information, Manufacturing Base and Its Competitors 7.1.2 PVC Resins Product Type, Application and Specification 7.1.2.1 Type I 7.1.2.2 Type II 7.1.3 Axiall Corporation PVC Resins Capacity, Production, Revenue, Price and Gross Margin (2015 and 2016) 7.1.4 Main Business/Business Overview 7.2 Braskem S.A. (Brazil) 7.2.1 Company Basic Information, Manufacturing Base and Its Competitors 7.2.2 PVC Resins Product Type, Application and Specification 7.2.2.1 Type I 7.2.2.2 Type II 7.2.3 Braskem S.A. (Brazil) PVC Resins Capacity, Production, Revenue, Price and Gross Margin (2015 and 2016) 7.2.4 Main Business/Business Overview 7.3 China General Plastics Corp. (Taiwan) 7.3.1 Company Basic Information, Manufacturing Base and Its Competitors 7.3.2 PVC Resins Product Type, Application and Specification 7.3.2.1 Type I 7.3.2.2 Type II 7.3.3 China General Plastics Corp. (Taiwan) PVC Resins Capacity, Production, Revenue, Price and Gross Margin (2015 and 2016) 7.3.4 Main Business/Business Overview 7.4 Finolex Industries Limited (FIL) (India) 7.4.1 Company Basic Information, Manufacturing Base and Its Competitors 7.4.2 PVC Resins Product Type, Application and Specification 7.4.2.1 Type I 7.4.2.2 Type II 7.4.3 Finolex Industries Limited (FIL) (India) PVC Resins Capacity, Production, Revenue, Price and Gross Margin (2015 and 2016) 7.4.4 Main Business/Business Overview 7.5 Formosa Plastics Corporation 7.5.1 Company Basic Information, Manufacturing Base and Its Competitors 7.5.2 PVC Resins Product Type, Application and Specification 7.5.2.1 Type I 7.5.2.2 Type II 7.5.3 Formosa Plastics Corporation PVC Resins Capacity, Production, Revenue, Price and Gross Margin (2015 and 2016) 7.5.4 Main Business/Business Overview 7.6 Hanwha Chemical Corp. (Korea) 7.6.1 Company Basic Information, Manufacturing Base and Its Competitors 7.6.2 PVC Resins Product Type, Application and Specification 7.6.2.1 Type I 7.6.2.2 Type II 7.6.3 Hanwha Chemical Corp. (Korea) PVC Resins Capacity, Production, Revenue, Price and Gross Margin (2015 and 2016) 7.6.4 Main Business/Business Overview 7.7 Ineos Chlorvinyls Ltd 7.7.1 Company Basic Information, Manufacturing Base and Its Competitors 7.7.2 PVC Resins Product Type, Application and Specification 7.7.2.1 Type I 7.7.2.2 Type II 7.7.3 Ineos Chlorvinyls Ltd PVC Resins Capacity, Production, Revenue, Price and Gross Margin (2015 and 2016) 7.7.4 Main Business/Business Overview 7.8 Kaneka Corporation (Japan) 7.8.1 Company Basic Information, Manufacturing Base and Its Competitors 7.8.2 PVC Resins Product Type, Application and Specification 7.8.2.1 Type I 7.8.2.2 Type II 7.8.3 Kaneka Corporation (Japan) PVC Resins Capacity, Production, Revenue, Price and Gross Margin (2015 and 2016) 7.8.4 Main Business/Business Overview 7.9 KEM one 7.9.1 Company Basic Information, Manufacturing Base and Its Competitors 7.9.2 PVC Resins Product Type, Application and Specification 7.9.2.1 Type I 7.9.2.2 Type II 7.9.3 KEM one PVC Resins Capacity, Production, Revenue, Price and Gross Margin (2015 and 2016) 7.9.4 Main Business/Business Overview 7.10 LG Chem (South Korea) 7.10.1 Company Basic Information, Manufacturing Base and Its Competitors 7.10.2 PVC Resins Product Type, Application and Specification 7.10.2.1 Type I 7.10.2.2 Type II 7.10.3 LG Chem (South Korea) PVC Resins Capacity, Production, Revenue, Price and Gross Margin (2015 and 2016) 7.10.4 Main Business/Business Overview 7.11 Mexichem S.A.B. 7.12 Occidental Petroleum Corporation 7.13 Sekisui Chemical Co. Ltd. (Japan) 7.14 Shin-Etsu Chemical Co. Ltd. 7.15 Shintech Inc. (USA) 7.16 Solvay S.A. 7.17 Taiyo Vinyl Corp. (Japan) 7.18 Thai Plastic and Chemical Public Co. Ltd. (Thailand) 7.19 The Sanmar Group (India) 7.20 Vestolit GmbH & Co. KG (Germany) 7.21 Vinnolit Gmbh & Co. Kg 7.22 Xinjiang Zhongtai Chemical Co. Ltd. 7.23 Xinjiang Tianye 7.24 Shanxi Beiyuan 7.25 Tianjin Dagu 7.26 QPEC Get it now @ https://www.wiseguyreports.com/checkout?currency=one_user-USD&report_id=795467

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