- Main contents
- Introduction
- Executive summary
- List of tables
- List of figures
Main contents:
(The price of report chapters below is for single user license, please contact us if you want
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| No. | Content | Page | Price | Purchase |
| |
Executive summary
|
1
|
USD 640
|
|
| |
Methodology
|
3
|
USD 160
|
|
| 1 |
Development history of flame retardants in China
|
6
|
USD 240
|
|
| 2 |
Situation of flame retardants in China
|
8
|
USD 2,800
|
|
| 2-1 |
Overview
|
8
|
USD 800
|
|
| 2-2 |
Introduction to major flame retardants
|
10
|
USD 2,400
|
|
| 2-2-1 |
Brominated compounds
|
10
|
USD 1,200
|
|
| 2-2-2 |
Chlorinated compounds
|
24
|
USD 640
|
|
| 2-2-3 |
Phosphorus compounds
|
28
|
USD 1,200
|
|
| 2-2-4 |
Antimony compounds
|
44
|
USD 640
|
|
| 2-2-5 |
Aluminium hydroxide and magnesium hydroxide
|
47
|
USD 640
|
|
| 2-2-6 |
Others
|
52
|
USD 640
|
|
| 3 |
End-use market of flame retardants
|
54
|
USD 2,400
|
|
| 3-1 |
Overview
|
54
|
USD 1,200
|
|
| 3-1-1 |
Market growth
|
54
|
USD 640
|
|
| 3-1-2 |
Market analysis by application area
|
54
|
USD 720
|
|
| 3-2 |
Introduction to major end-use segments
|
56
|
USD 2,000
|
|
| 3-2-1 |
Plastic
|
56
|
USD 1,200
|
|
| 3-2-2 |
PCB
|
61
|
USD 1,200
|
|
| 3-2-3 |
Rubber
|
66
|
USD 400
|
|
| 3-2-4 |
Textile
|
68
|
USD 240
|
|
| 3-2-5 |
Coating
|
69
|
USD 240
|
|
| 3-2-6 |
Wood and paper
|
71
|
USD 160
|
|
| 4 |
Policies and regulations
|
74
|
USD 1,600
|
|
| 4-1 |
Overview
|
74
|
USD 400
|
|
| 4-2 |
Overseas policies and regulations
|
75
|
USD 800
|
|
| 4-3 |
Domestic policies and regulations
|
77
|
USD 800
|
|
| 5 |
Technology
|
79
|
USD 400
|
|
| 6 |
Key factors and forecast
|
83
|
USD 2,000
|
|
| 6-1 |
Key factors
|
83
|
USD 800
|
|
| 6-2 |
Forecast of the flame retardants industry
|
84
|
USD 1,600
|
|
| 7 |
Investment environment analysis
|
87
|
USD 1,600
|
|
| 8 |
Conclusions
|
93
|
USD 1,200
|
|
| 9 |
Appendix
|
94
|
USD 800
|
|
| 9-1 |
Profiles of key producers
|
94
|
USD 640
|
|
| 9-1-1 |
Shandong Brother Sci.&Tech. Co., Ltd.
|
94
|
USD 80
|
|
| 9-1-2 |
Shandong Moris Chemical Co., Ltd.
|
95
|
USD 80
|
|
| 9-1-3 |
Shandong Shouguang Weidong Chemical Co., Ltd.
|
97
|
USD 80
|
|
| 9-1-4 |
Shandong Shouguang Shenrunfa Ocean Chemical Co., Ltd.
|
98
|
USD 80
|
|
| 9-1-5 |
Jiangsu Kaimei Chemical Science and Technology (Nantong) Co., Ltd.
|
100
|
USD 80
|
|
| 9-1-6 |
Jiangsu Yoke Technology Co., Ltd.
|
101
|
USD 80
|
|
| 9-1-7 |
Zhejiang Wansheng Co., Ltd.
|
103
|
USD 80
|
|
| 9-1-8 |
ADEKA Fine Chemical (Changshu) Co., Ltd.
|
104
|
USD 80
|
|
| 9-1-9 |
Zhejiang Hangzhou JLS Flame Retardants Chemical Co., Ltd.
|
105
|
USD 80
|
|
| 9-1-10 |
Daihachi Chemical Industry (Changshu) Co., Ltd.
|
106
|
USD 80
|
|
| 9-1-11 |
Aluminum Corporation of China Limited
|
107
|
USD 80
|
|
| 9-1-12 |
Luoyang Zhongchao Non-metallic Materials Co., Ltd.
|
109
|
USD 80
|
|
| 9-1-13 |
Liaoning Haicheng Jinghua Mineral Products Co., Ltd.
|
110
|
USD 80
|
|
| 9-1-14 |
Shandong Jinan Chenxu Chemical Co., Ltd.
|
111
|
USD 80
|
|
| 9-1-15 |
Zhejiang Wenzhou Chemical Flame-retardant Material Co., Ltd.
|
112
|
USD 80
|
|
| 9-1-16 |
Hunan Chenzhou Mining Group Co., Ltd.
|
113
|
USD 80
|
|
| 9-1-17 |
Hunan Hsikwangshan Twinkling Star Co., Ltd.
|
114
|
USD 80
|
|
| 9-1-18 |
Heilongjiang Harbin Harmillion Chemical Co., Ltd.
|
115
|
USD 80
|
|
| 9-1-19 |
Shandong Yantai Sunshine Chemical Co., Ltd.
|
116
|
USD 80
|
|
| 9-1-20 |
Sichuan Institute of Fine Chemical Industry Research and Design
|
117
|
USD 80
|
|
| 9-1-21 |
Zibo Wuwei Industrial Co., Ltd.
|
119
|
USD 80
|
|
| 9-2 |
Profiles of key end-users
|
120
|
USD 400
|
|
| 9-2-1 |
Guangdong Kingfa Sci. & Tech. Co., Ltd.
|
120
|
USD 80
|
|
| 9-2-2 |
Guangdong Silver Age Sci & Tech. Co., Ltd.
|
121
|
USD 80
|
|
| 9-2-3 |
Shanghai Genius Advanced Material Co., Ltd.
|
122
|
USD 80
|
|
| 9-2-4 |
Beijing Xiongchao Flame-Retardant Cable Co., Ltd.
|
124
|
USD 80
|
|
| 9-2-5 |
Beijing ARS Flame Retardant Decoration Materials Co., Ltd.
|
125
|
USD 80
|
|
Description:
Flame retardants have been studied for years for its incomparable function in various products to prevent ignition of fire or when a fire is started, and their necessity and importance are even growing. At present, flame retardants are mostly applied in plastics and rubber which are used in the manufacture of PCB, electrical & electronics, wire & cable, motor vehicles etc., and textile and coating as well.
China has become a key player of flame retardants both in production and consumption. It can produce most common flame retardants with output of approximately 600,000 tonnes in 2011, and has witnessed domestic consumption reaching almost 400,000 tonnes in 2011, both with CAGR over 15% in the past five years. And along with the global development trend of flame retardants, production and consumption of flame retardants in China is switching to some more environmental friendly products such as PFRs and ATH&MH. However, when the tendency of developing more upgraded or specific products which require more advanced technologies has declared its emerge in overseas flame retardant industry, Chinese producers are still in the stage of improving the technologies of some common products.
With living policies and standards improving, consumption of flame retardants in related industries is expected to soar in the future. However, policies are not so supportive to BFRs. Since Europe has carried out some restrictions on BFRs, Chinese government’s and Chinese BRFs producers’ manner are evidently important to BFRs future in China.
Meanwhile, with the domestic market volume enlarging greatly in recent years, there are various commercial opportunities in China’s flame retardant industry.
In order to state the detailed and accurate flame retardant industry situation in China in the past few years and to make a forecast in the coming five years, the report includes:
CCM focuses on domestic production for different flame retardant types, including BFRs, PFRs, CFRs and inorganic flame retardants, to discover their present domestic situation and future prospects.
CCM pays great attention to the major products and their producers in China.
CCM analyzes domestic consumption by application field.
CCM provides insights into key factors influencing flame retardant such as relevant policies and technologies in China.
CCM forecasts future demand and output for each flame retardant type from 2012 to 2016 based on all the information.
CCM analyzes the business environment of flame retardant industry in different products with Michael Porter's Five Forces Model and points out some opportunities.
Through the above penetrations in this report, the latest dynamics and development trends of Chinese flame retardant industry will be clearly presented, which is valuable for investors, traders (both exporters and importers), technology providers, overseas competitors, etc.
Executive summary:
China's flame retardant industry has maintained rapid development for more than 10 years with large-scale production. There are more than 300 flame retardant producers in China with the total capacity of XXXt/a and output of XXX tonnes in 2011. Almost all kinds of flame retardants can be produced in China.
China's flame retardant industry used to highly depend on overseas market because of the little demand in domestic market. However, with the development of China's motor vehicle industry and electronic industry, domestic consumption of flame retardant has increased greatly in recent years. XXX% of the total output is consumed in domestic market in 2011.
Each type of flame retardant has different production and consumption situations, as well as different future prospects with various influencing factors, notably policy, technology, cost performance, etc.
Brominated flame retardants (BFRs) are still the major type of flame retardants in China, although their application has been questioned for safety dispute and the EU has banned some types of products. At present, BFRs are still irreplaceable in some areas. Nevertheless, both of their growth rate and market share has been reducing in the past few years. With the growing concern of environmental protection, domestic producers are positively studying on developing cleaner products such as BPS and DBDPE.
The development of phosphate flame retardants (PFRs) in China is superiorly outstanding in the past five years. Except for consumption volume, the capacity and output of PFRs have exceeded those of BFRs in China. Comparatively, PFRs are more environmentally friendly than BFRs. Even though the present PFRs products are of halogen, the non-halogen PFRs are replacing them gradually. Moreover, the technology in PFRs develops greatly.
Antimony trioxide (ATO), the most effective synergistic agent of BRFs, has enlarged its capacity a lot in the past five years, although its domestic market share hasn't changed much. Since China's ATO market depends greatly on export, the output of ATO decreases sharply in 2011 due to its high price and European debt crisis. What's more, it is facing a challenge from substitutes such as zinc borate.
Zinc borate (ZB), a substitute of ATO, is environmentally friendly and will gain strong growth momentum in the near future. While at present, it can not replace ATO completely, due to its relatively narrow applications compared with ATO, and it would lower product performance to a certain degree as well.
Aluminium hydroxide and magnesium hydroxide (ATH&MH), which are widely and largely applied in overseas downstream industries, begin to grab more market share in China's flame retardant market. Due to the environmental friendliness of ATH&MH, the future prospect of ATH&MH is considered to be very bright.
For other flame retardants, both the production and consumption are quite immature with quite narrow application fields. They are figured to develop relatively slowly.
At present, domestic consumption of flame retardants concentrates on plastics, PCB and rubber, with the market share of XXX%, XXX% and XXX% separately in 2011.
The consumption of other flame retardants in domestic market has kept growing with the CAGR of XXX% from 2006 to 2011, reaching XXX tonnes in 2011, and this trend will continue in the next five years, bringing huge investment opportunities in Chinese flame retardant industry.According to CCM International's investigation, the flame retardant industry, on the whole, will probably witness a rapid growth in the following five years (from 2012 to 2016). The CAGR for China's output and consumption of flame retardant is estimated to be XXX% and XXX% respectively. The output and consumption are estimated to be about XXX tonnes and XXX tonnes respectively in 2016. The growth of flame retardant market in China is the main force to the world's market.
List of tables:
|
Table No.
|
Table Title
|
|
Table 2.2.1-1
|
Production of TBBPA producers in China, 2011
|
|
Table 2.2.1-2
|
Production of DBDPO producers in China, 2011
|
|
Table 2.2.1-3
|
Production of DBDPE producers in China, 2011
|
|
Table 2.2.1-4
|
Production of TBBPA-BDBPE producers in China, 2011
|
|
Table 2.2.1-5
|
Production of producers of BEPO in China, 2011E
|
|
Table 2.2.1-6
|
Production of producers of BPS in China, 2011E
|
|
Table 2.2.1-7
|
Production of HBCD producers in China, 2011
|
|
Table 2.2.1-8
|
Output and net export volume of BFRs in China, 2011E
|
|
Table 2.2.2-1
|
Capacity and output of CFRs in China, 2011E
|
|
Table 2.2.2-2
|
Capacity and output of CFRs in China, 2009
|
|
Table 2.2.2-3
|
Major producers of CFRs in China, 2011E
|
|
Table 2.2.2-4
|
Ex-factory price of major CFRs in China, Dec. 2011
|
|
Table 2.2.2-5
|
Major applications of major CFRs in China
|
|
Table 2.2.3-1
|
Comparison of halogenated PFRs and non-halogenated PFRs
|
|
Table 2.2.3-2
|
Major TCPP producers in China, 2011E
|
|
Table 2.2.3-3
|
Major TCEP producers in China, 2011E
|
|
Table 2.2.3-4
|
Major TDCPP producers in China, 2011E
|
|
Table 2.2.3-5
|
Unit consumption of major raw materials in BDP production, 2011
|
|
Table 2.2.3-6
|
Major BDP producers in China, 2011E
|
|
Table 2.2.3-7
|
Major TEP producers in China, 2011E
|
|
Table 2.2.3-8
|
Major APP producers in China, 2011E
|
|
Table 2.2.3-9
|
Major producers of DOPO and ODOPB in China, 2011E
|
|
Table 2.2.4-1
|
Top ATO producers in China, 2011
|
|
Table 2.2.5-1
|
Comparison between MH and ATH as flame retardants
|
|
Table 2.2.5-2
|
Capacity and output of ATH in China, 2009 and 2011E
|
|
Table 2.2.5-3
|
Capacity and output of MH in China, 2009 and 2011E
|
|
Table 2.2.5-4
|
Major ATH&MH producers in China, 2011
|
|
Table 2.2.6-1
|
Major MCA producers in China, 2011
|
|
Table 2.2.6-2
|
Major producers of ZB in China, 2011
|
|
Table 5-1
|
Comparison of production technologies for major flame retardants, 2011
|
|
Table 5-2
|
Major Research institutes and their research achievements
|
|
Table 6.1-1
|
Key factor analysis for flame retardant industry in China, 2011
|
|
Table 7-1
|
Michael Porter's Five-Force Model analysis of BFRs investment environment in China, 2011
|
|
Table 7-2
|
Michael Porter's Five- Force Model analysis of PFRs investment environment in China, 2011
|
|
Table 7-3
|
Michael Porter's Five- Force Model analysis of CFRs investment environment in China, 2011
|
|
Table 7-4
|
Michael Porter's Five- Force Model analysis of ATO investment environment in China, 2011
|
|
Table 7-5
|
Michael Porter's Five-Force Model analysis of ATH&MH investment environment in China, 2011
|
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